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  T3/Oat

Trait Descriptions

Abiotic stressOntologyDescriptionMinMaxUnitUnit info
freeze damage severitySeverity of the symptoms of freeze damage observed in a plot; plots rated 0 exhibit no freeze damage, plots rated 9 show severe freeze damage symptoms.0 90-9Rating 0 to 9
storm damage severitySeverity of the damage inflicted by stormy weather; no damage= 1, total damage and loss of plot= 5.1 51-5Rating 1 to 5
winter stress severityMid-winter rating of the severity of the symptoms of winter stress observed in a plot; plots rated 0 exhibit no signs of winter stress, plots rated 9 show severe leaf damage or leaves that are purple in color.0 90-9Rating 0 to 9
winter survivalPercentage of plants in a plot sown in fall that are still growing in spring.0 100%Percent
AgronomicOntologyDescriptionMinMaxUnitUnit info
agronomic scoreOverall rating of agronomical attributes and health of oat plants in a plot. Scored based on observance of factors limiting yield; plots are rated 1 when observed factors are significantly limiting yield, plots rated 5 are of the best overall quality.1 51-5Rating 1 to 5
breakage incidenceRating of the straw strength based on the proportion of the stems in a plot that are broken/snapped; plots rated 1 contain no broken stems, while all of the stems are broken in plots rated 10.1 101-10Rating 1 to 10
emergencePercentage of plants in a plot that emerged.0 100%Percent
forage ratingYield potential in spring; low= 0, high= 9.0 90-9Rating 0 to 9
grain yieldTO:0000396Grain yield. Original data recorded using another unit of measurement has been converted (1 bushel per acre= 3.75 grams per square meter; 1 kilogram per hectare= 0.1 grams per square meter). Original values can be found in the raw data file attached to each affected trial.0 2000g m-2Grams per square meter
groat contentTO:0000613Percentage of the kernel weight that is the weight of the groat; calculated as the total groat weight divided by the initial kernel weight before dehulling, multiplied by 100. Kernels are typically dehulled using a Codema oat dehuller, which processes a 50 gram sample.0 100%Percent
groat content handTO:0000613Percentage of the kernel weight that is the weight of the groat; calculated as the total groat weight divided by the initial kernel weight before dehulling, multiplied by 100. Kernels are dehulled by hand and sample sizes are smaller than for machine dehulling, for example two grams.0 100%Percent
heading dateTO:0000137Julian calendar date of heading i.e. when half of the inflorescence has emerged (Zadoks growth stage: 55). Original data recorded as the number of days to heading has been converted using the supplied planting date, which can be found in the trial information. Original values can be found in the raw data file attached to each affected trial.0 365Julian dateJulian calendar date i.e. Jan 1= 1; Dec 31= 365(6)
lodging incidenceTO:0000068Percentage of plants in a plot with stems that are bent, normally near the ground level. Original data recorded using a different measurement scale has been converted. Original values can be found in the raw data file attached to each affected trial.0 100%Percent
lodging severitySeverity of plant lodging observed in a plot. Plots containing plants that are fully erect receive a score of 0, plots in which plants lie flat on the ground receive a score of 9.0 90-9Rating 0 to 9
maturity dateTO:0000469Julian calendar date of maturity i.e. when the plot is at 30% moisture. Original data recorded as the number of days to maturity has been converted using the supplied planting date, which can be found in the trial information. Original values can be found in the raw data file attached to each affected trial.0 365Julian dateJulian calendar date i.e. Jan 1= 1; Dec 31= 365(6)
phenotype scoreRelative rating of visual appeal that takes in to account plant vigor, diseases etc.; perfect= 0, excellent= 1, good= 4, borderline= 5, poor= 6, and unadapted= 9.0 90-9Rating 0 to 9
plant heightTO:0000207Plant height as measured from soil surface to the tip of panicle. Original data recorded using inches has been converted (1 inch= 2.54 cm). Original values can be found in the raw data file attached to each affected trial.0 300cmCentimeter
relative canopy developmentRelative canopy development, measured when the earliest genotypes have a completely closed canopy. Genotypes with a completely closed canopy receive a score of 9; genotypes with minimal canopy development receive a score of 1.1 91-9Rating 1 to 9
silage yield 65% moistureSilage yield at 65% moisture content.0 20t ac-1Tons per acre
silage yield dry matterYield of dry matter for use as silage.0 10t ac-1Tons per acre
snapbackRating of the straw strength based on the snapback, or recovery to a vertical position, of the plant after being held at a 45 degree angle: plants in plots rated 1 have minimum snap and are barely able to stand, plots rated 9 contain plants with maximum straw stiffness/fastest snapback.1 91-9Rating 1 to 9
Biotic stressOntologyDescriptionMinMaxUnitUnit info
barley yellow dwarf virus incidenceTO:0020067Percentage of plants in a plot showing symptoms of barley yellow dwarf virus. Original data using a 0-90% scale has been included under this trait name.0 100%Percent
barley yellow dwarf virus severity plotTO:0020067Severity of barley yellow dwarf virus symptoms observed in a plot; plots rated 0 exhibit essentially no chlorosis, no stunted tillers, and no blasting, plots rated 9 do not head and are very severely stunted.0 90-9Rating 0 to 9
bird damage severitySeverity of the symptoms of bird damage observed in a plot; plots rated 0 exhibit no bird damage, plots rated 9 show severe bird damage.0 90-9Rating 0 to 9
cereal leaf beetle damage severitySeverity of larval feeding damage caused by cereal leaf beetle (Oulema melanopus); no larval feeding= 0, 1-15% foliage eaten= 1, 15-40% foliage eaten= 2, over 40% foliage eaten= 3.0 30-3Rating 0 to 3
crown rust infection responseA qualitative analysis of the type of crown rust (Puccinia coronata f. sp. avenae) symptoms that are exhibited. Infection responses are limited to: Resistant (R): chlorotic fleck reaction with no sporulation; Moderately resistant (MR): Very small, non- or low-sporulating pustule surrounded by chlorosis; Moderately susceptible (MS): moderate to large pustule surrounded by extensive chlorosis, and; Susceptible (S): large pustule with little or no chlorosis. The following numerical scale has been used to quantify conventional notations of infection type: R= 0.2, R-MR= 0.3, MR= 0.4, R-MS= 0.45, R-S= 0.5, MR-MS= 0.6, MR-S= 0.7, MS= 0.8, MS-S= 0.9, S=1. Crown rust infection response is typically recorded in conjunction with crown rust severity.0 10-1Rating 0 to 1
crown rust infection type seedling BQBCA qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race BQBC during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling BRBG-94A qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race BRBG-94 during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling composite/unknownA qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with a composite collection or unknown race of crown rust (Puccinia coronata f. sp. avenae) during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling DQBBA qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race DQBB during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling DQBGA qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race DQBG during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling DSGBA qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race DSGB during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling LQCB-91A qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race LQCB-91 during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling LRBGA qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race LRBG during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling MHBBA qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race MHBB during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling NBFBA qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race NBFB during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling NGCC-94A qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race NGCC-94 during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling NQBBA qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race NQBB during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling NTGGA qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race NTGG during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust infection type seedling SJGLA qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with crown rust (Puccinia coronata f. sp. avenae) race SJGL during greenhouse trials. Ratings made using the scale from Murphy (1935); immune/nearly immune= 0, highly resistant= 1, moderately resistant= 2, moderately susceptible= 3, and completely susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
crown rust severityPercentage of the area of the flag leaf occupied by crown rust (Puccinia coronata f. sp. avenae) pustules or necrosis, following the modified Cobb scale (Peterson et al. 1948) and recorded in conjunction with crown rust infection response. Common intervals: trace (0.1 in T3), 5, 10, 20, 40, 60, and 100 percent infection.0 100%Percent
crown rust severity plotSeverity of crown rust (Puccinia coronata f. sp. avenae) symptoms observed in a plot; plots rated 0 exhibit no symptoms, plots rated 9 show severe symptoms.0 90-9Rating 0 to 9
crown rust severity whole plantSeverity of crown rust (Puccinia coronata f. sp. avenae) symptoms. Ratings based on the percent infection of the whole plant; 79-100%= 1, 90-97%= 2, 75-90%= 3, 60-75%= 4, 40-60%= 5, 25-40%= 6, 10-25%= 7, 3-10%= 8, 0-3%= 9.1 99-1Rating 9 to 1
downy mildew severity plotSeverity of downy mildew (Sclerophthora macrospora) symptoms observed in a plot; plots rated 0 exhibit no symptoms, plots rated 9 show severe symptoms.0 90-9Rating 0 to 9
fusarium head blight incidence T1First rating of the extent of Fusarium head blight (Fusarium spp.; FHB) symptoms observed in a plot; plots rated 0 exhibit no FHB symptoms, plots rated 1 contain a few blighted spikelets, while a rating of 4 indicates that the whole plot is blighted.0 40-4Rating 0 to 4
fusarium head blight incidence T2Second rating of the extent of Fusarium head blight (Fusarium spp.; FHB) symptoms observed in a plot; plots rated 0 exhibit no FHB symptoms, plots rated 1 contain a few blighted spikelets, while a rating of 4 indicates that the whole plot is blighted.0 40-4Rating 0 to 4
leaf blotch severity plotSeverity of Helminthosporium leaf blotch/leaf spot symptoms observed in a plot; plots rated 0 exhibit no symptoms, plots rated 9 show severe symptoms.0 90-9Rating 0 to 9
powdery mildew incidencePercentage of plants in a plot showing symptoms of powdery mildew (Blumeria graminis f. sp. avenae).0 100%Percent
root rot incidencePercentage of plants in a plot showing symptoms of root rot. Original data using a 0-90% scale has been included under this trait name.0 100%Percent
smut incidencePercentage of plants in a plot showing symptoms of smut (Ustilago spp.).0 100%Percent
stagonospora symptom severitySeverity of Stagonospora avenae f. sp. avenaria symptoms. Stagonospora causes leaf blotch and black stem of oat. None= 0.0 90-9Rating 0 to 9
stem rust incidencePercentage of plants in a plot showing symptoms of stem rust (Puccinia graminis f. sp. avenae). Original data using a 0-90% scale has been included under this trait name.0 100%Percent
stem rust infection responseA qualitative analysis of the type of stem rust (Puccinia graminis f. sp. avenae) symptoms that are exhibited. Infection responses are limited to: Resistant (R): chlorotic fleck reaction with no sporulation; Moderately resistant (MR): Very small, non- or low-sporulating pustule surrounded by chlorosis; Moderately susceptible (MS): moderate to large pustule surrounded by extensive chlorosis, and; Susceptible (S): large pustule with little or no chlorosis. The following numerical scale has been used to quantify conventional notations of infection type: R= 0.2, R-MR= 0.3, MR= 0.4, R-MS= 0.45, R-S= 0.5, MR-MS= 0.6, MR-S= 0.7, MS= 0.8, MS-S= 0.9, S=1. Stem rust infection response is typically recorded in conjunction with stem rust severity.0 10-1Rating 0 to 1
stem rust infection type seedling composite/unknownA qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with a composite collection or unknown race of stem rust (Puccinia graminis f. sp. avenae) during greenhouse trials. Ratings made using the scale from Stakman et al. (1962); immune= 0, very resistant= 1, moderately resistant= 2, moderately susceptible= 3, and very susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
stem rust infection type seedling NA1A qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with stem rust (Puccinia graminis f. sp. avenae) race NA1 during greenhouse trials. Ratings made using the scale from Stakman et al. (1962); immune= 0, very resistant= 1, moderately resistant= 2, moderately susceptible= 3, and very susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
stem rust infection type seedling NA16A qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with stem rust (Puccinia graminis f. sp. avenae) race NA16 during greenhouse trials. Ratings made using the scale from Stakman et al. (1962); immune= 0, very resistant= 1, moderately resistant= 2, moderately susceptible= 3, and very susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
stem rust infection type seedling NA25A qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with stem rust (Puccinia graminis f. sp. avenae) race NA25 during greenhouse trials. Ratings made using the scale from Stakman et al. (1962); immune= 0, very resistant= 1, moderately resistant= 2, moderately susceptible= 3, and very susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
stem rust infection type seedling NA27A qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with stem rust (Puccinia graminis f. sp. avenae) race NA27 during greenhouse trials. Ratings made using the scale from Stakman et al. (1962); immune= 0, very resistant= 1, moderately resistant= 2, moderately susceptible= 3, and very susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
stem rust infection type seedling NA28A qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with stem rust (Puccinia graminis f. sp. avenae) race NA28 during greenhouse trials. Ratings made using the scale from Stakman et al. (1962); immune= 0, very resistant= 1, moderately resistant= 2, moderately susceptible= 3, and very susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
stem rust infection type seedling NA29A qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with stem rust (Puccinia graminis f. sp. avenae) race NA29 during greenhouse trials. Ratings made using the scale from Stakman et al. (1962); immune= 0, very resistant= 1, moderately resistant= 2, moderately susceptible= 3, and very susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
stem rust infection type seedling NA55A qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with stem rust (Puccinia graminis f. sp. avenae) race NA55 during greenhouse trials. Ratings made using the scale from Stakman et al. (1962); immune= 0, very resistant= 1, moderately resistant= 2, moderately susceptible= 3, and very susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
stem rust infection type seedling NA67A qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with stem rust (Puccinia graminis f. sp. avenae) race NA67 during greenhouse trials. Ratings made using the scale from Stakman et al. (1962); immune= 0, very resistant= 1, moderately resistant= 2, moderately susceptible= 3, and very susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
stem rust infection type seedling NA8A qualitative analysis of the type of disease symptoms exhibited by seedlings inoculated with stem rust (Puccinia graminis f. sp. avenae) race NA8 during greenhouse trials. Ratings made using the scale from Stakman et al. (1962); immune= 0, very resistant= 1, moderately resistant= 2, moderately susceptible= 3, and very susceptible= 4. Additional symbols have been assigned a numerical value. See phenotyping notes for conversion table.0 40-4Rating 0 to 4
stem rust severityPercentage of the area of the stem occupied by stem rust (Puccinia graminis f. sp. avenae) pustules, following the modified Cobb scale (Peterson et al. 1948) and recorded in conjunction with stem rust infection response. Common intervals: trace (0.1 in T3), 5, 10, 20, 40, 60, and 100 percent infection.0 100%Percent
stem rust severity plotSeverity of stem rust (Puccinia graminis f. sp. avenae) symptoms observed in a plot; plots rated 0 exhibit no symptoms, plots rated 9 show severe symptoms.0 90-9Rating 0 to 9
MetaboliteOntologyDescriptionMinMaxUnitUnit info
GC-MSGas chromatography mass spectrometry 100000intensityabundance or intensity of mass spectrum
LC-MSLiquid chromatography mas spectrometry 100000intensityabundance or intensity of mass spectrum
MorphologicalOntologyDescriptionMinMaxUnitUnit info
grain width 5.0/64 plumpTO:0000397Percentage of grain that did not pass through a 5.0/64" sieve.0 100%Percent
grain width 5.0/64 thinTO:0000397Percentage of grain that passed through a 5.0/64" sieve.0 100%Percent
grain width 5.5/64 plumpTO:0000397Percentage of grain that did not pass through a 5.5/64" sieve.0 100%Percent
groat colorTO:0000385Groat color: light red= 1, light brown= 2, medium brown= 3, dark brown= 4.1 41-4Rating 1 to 4
growth habitGrowth habit; very upright spring type= 0, very prostrate winter type= 9.0 90-9Rating 0 to 9
hull colorTO:0000707Hull color: white= 1, cream= 2, light tan= 3, yellow= 6, black= 10.1 101-10Rating 1 to 10
kernels per spikeletAverage number of kernels per spikelet, based on five typical spikelets.0 5Kernels per spikeletNumber of kernels per spikelet
leaf biomassLeafiness rating; very leafy= 3, few leaves=9.0 90-9Rating 0 to 9
panicle lengthTO:0000040Average length of five mature panicles measured from the lowest panicle node to the tip of the apical spike.0 50cmCentimeter
spikelets per panicleTO:0000456Average number of spikelets per panicle, based on five mature panicles.0 100Spikelets per panicleNumber of spikelets per panicle
test weightTO:0000612Density or weight per unit volume of grain at a standard moisture level. Original data recorded using another unit of measurement has been converted (1 pound per bushel= 12.9 grams per liter; 1 kilogram per hectoliter= 10 grams per liter). Original values can be found in the raw data file attached to each affected trial.0 1000g L-1Grams per liter
thousand kernel weightTO:0000592Kernel size; estimated by weighing 1000 grains.0 100gGram
QualityOntologyDescriptionMinMaxUnitUnit info
avenanthramide 2cAvenanthramide 2c content.0 1000ug g-1Micrograms per gram
avenanthramide 2fAvenanthramide 2f content.0 1000ug g-1Micrograms per gram
avenanthramide 2pAvenanthramide 2p content.0 1000ug g-1Micrograms per gram
avenanthramide 5pAvenanthramide 5p content.0 1000ug g-1Micrograms per gram
avenanthramide A UPLCRelative abundance of avenanthramide A estimated by UPLC0 2788612Relative AbundanceRelative Abundance
avenanthramide B UPLCRelative abundance of avenanthramide B estimated by UPLC0 2788612Relative AbundanceRelative Abundance
avenanthramide C UPLCRelative abundance of avenanthramide C estimated by UPLC0 2788612Relative AbundanceRelative Abundance
avenanthramide totalThe sum of the avenanthramide; 2c, 2f, 2p and 5p content.0 1000ug g-1Micrograms per gram
beta glucan dwbTO:0020068Beta-glucan content; measured on a dry weight basis using a lichenase enzymatic procedure.0 100%Percent
beta glucan NIRTO:0020068Beta-glucan content; prediction obtained using near-infrared spectroscopy (NIR).0 100%Percent
broken groatsPercentage of broken groats by weight after dehulling; calculated as the weight of broken groats divided by the total groat weight, multiplied by 100.0 100%Percent
dehulling efficiencyPercentage of seed that is effectively dehulled by a Codema dehuller; calculated as the mass of seed before dehulling minus the amount of undehulled seed after processing, divided by the total mass before dehulling, and multiplied by 100 to give the percentage of seed that was successfully dehulled.0 100%Percent
dietary fiber HMW ethanol-insolubleTO:0002642Ethanol-insoluble high molecular weight dietary fiber content; measured on a dry weight basis using wet chemistry.0 100%Percent
dietary fiber HMW ethanol-solubleTO:0002642Ethanol-soluble high molecular weight dietary fiber content; measured on a dry weight basis using wet chemistry.0 100%Percent
dietary fiber HMW totalTO:0002642High molecular weight dietary fiber content; measured on a dry weight basis using wet chemistry.0 100%Percent
dietary fiber LMW totalTO:0002642Low molecular weight dietary fiber content; measured on a dry weight basis using wet chemistry.0 100%Percent
dietary fiber totalTO:0002642Dietary fiber content; measured on a dry weight basis using wet chemistry.0 100%Percent
DONTO:0000669Mycotoxin deoxynivalenol content.0 200ppmParts per million
DON 3-acetylTO:0000669Mycotoxin 3-acetyl-deoxynivalenol content.0 200ppmParts per million
fatty acid C14:0Fatty acid0 52%Percent
fatty acid C16:0Fatty acid0 52%Percent
fatty acid C16:1Fatty acid0 52%Percent
fatty acid C18:0Fatty acid0 52%Percent
fatty acid C18:1(9)Fatty acid0 52%Percent
fatty acid C18:1*Fatty acid0 52%Percent
fatty acid C18:2Fatty acid0 53%Percent
fatty acid C18:3Fatty acid0 52%Percent
fatty acid C19:0Fatty acid0 52%Percent
fatty acid C20:0Fatty acid0 52%Percent
fatty acid C20:1Fatty acid0 52%Percent
grain moisture contentMoisture content of the grain.0 100%Percent
grain protein content NIRPercentage of protein in the whole grain.0 100%Percent
groat flour falling numberThe amount of time it takes for a viscometer stirrer to fall a set distance through an aqueous gel created using groat flour. This indirectly measures the alpha amylase content of the groat, which becomes more abundant in grains that have suffered pre-harvest sprouting. An increase in alpha amylase in groat flour, along with other hydrolytic enzymes that are associated with pre-harvest sprouting, reduces the quality of the flour.0 1000sSecond
groat oil contentPercentage of oil in the groat.0 100%Percent
groat protein contentPercentage of protein in the groat.0 100%Percent
lipid NIRPercentage of lipid content in grain; prediction obtained using near-infrared spectroscopy (NIR).0 100%Percent
luteinLutein0 60000%Percent
phytoenePhytoene0 1.5%Percent
phytofluenePhytofluene0 1%Percent
seed qualityQuality of the seed; excellent= 1, poor= 7.0 90-9Rating 0 to 9
silage moisture contentMoisture content of silage.0 100%Percent
tocol totalSum of the Alpha-, Beta-, Delta- and Gamma-tocopherol and -tocotrienol content.0 1000ug g-1Micrograms per gram
tocopherol alphaAlpha-tocopherol content.0 1000ug g-1Micrograms per gram
tocopherol betaBeta-tocopherol content.0 1000ug g-1Micrograms per gram
tocopherol deltaDelta-tocopherol content.0 1000ug g-1Micrograms per gram
tocopherol gammaGamma-tocopherol content.0 1000ug g-1Micrograms per gram
tocotrienol alphaAlpha-tocotrienol content.0 1000ug g-1Micrograms per gram
tocotrienol betaBeta-tocotrienol content.0 1000ug g-1Micrograms per gram
tocotrienol deltaDelta-tocotrienol content.0 1000ug g-1Micrograms per gram
tocotrienol gammaGamma-tocotrienol content.0 1000ug g-1Micrograms per gram
tunaxanthinTunaxanthin0 60000%Percent
undehulled seedAmount of undehulled seed remaining after passing a 50 gram sample through a Codema dehuller, under standard conditions, for 90 seconds.0 50gGram
violaxanthinViolaxanthin0 60000%Percent
zeaxanthinZeaxanthin0 1%Percent
Quality: GCMSOntologyDescriptionMinMaxUnitUnit info
GCMS 2-imidazolidone-4-carboxylic acid (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS 2-monooleoylglycerol-2TMSRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS adenosine, alpha- (4TMS) MPRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS alanine, beta- (1TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS allantoin (4TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS allantoin (5TMS) 1Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS allantoin (5TMS) 2Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS arabitol (5TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS arginine [-NH3] (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS asparagine (3TMS) 1Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS asparagine (3TMS) 2Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS asparagine [+CO2] (4TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS asparagine [-H2O] (2TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS aspartic acid (3TMS) 1Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS aspartic acid (3TMS) 2Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS benzene-1,2,4-triol (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS benzoic acid, 4-hydroxy- (2TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS beta-D-fructofuranosyl-(2,1)-beta-D-fructofuranose (1MEOX) (8TMS) BPRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS butylamine-2TMSRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C10Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C100Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C101Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C103Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C104Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C108Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C109Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C110Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C111Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C112Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C113Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C114Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C115Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C116Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C117Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C118Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C119Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C122Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C123Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C124Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C126Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C127Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C129Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C131Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C133Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C134Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C136Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C137Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C139Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C140Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C141Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C143Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C144Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C145Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C146Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C148Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C149Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C150Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C152Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C153Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C154Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C155Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C157Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C160Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C166Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C168Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C169Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C170Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C171Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C172Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C173Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C174Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C175Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C177Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C178Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C179Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C182Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C183Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C185Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C186Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C187Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C188Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C189Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C190Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C192Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C193Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C194Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C195Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C196Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C197Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C198Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C199Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C200Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C201Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C202Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C204Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C205Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C206Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C207Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C208Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C209Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C212Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C215Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C216Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C217Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C218Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C221Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C222Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C223Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C224Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C225Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C226Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C227Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C228Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C229Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C23Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C230Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C231Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C232Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C233Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C234Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C235Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C236Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C237Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C238Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C239Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C240Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C241Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C242Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C243Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C244Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C245Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C246Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C247Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C248Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C249Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C250Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C251Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C252Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C253Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C254Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C255Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C256Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C257Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C259Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C260Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C261Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C262Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C263Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C264Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C265Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C266Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C268Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C269Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C270Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C271Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C272Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C273Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C276Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C277Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C278Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C279Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C280Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C281Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C283Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C284Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C285Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C286Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C287Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C288Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C289Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C290Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C292Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C294Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C295Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C296Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C297Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C299Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C300Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C302Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C303Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C304Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C306Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C307Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C308Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C309Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C310Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C311Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C312Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C313Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C314Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C315Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C316Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C317Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C318Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C319Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C320Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C321Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C322Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C323Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C325Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C326Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C327Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C328Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C329Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C330Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C331Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C332Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C333Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C334Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C335Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C336Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C338Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C341Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C342Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C344Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C345Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C346Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C347Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C348Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C349Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C350Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C352Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C353Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C354Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C355Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C356Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C357Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C358Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C359Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C36Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C360Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C361Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C362Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C363Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C364Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C365Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C366Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C367Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C368Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C369Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C370Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C371Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C372Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C374Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C375Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C377Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C378Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C379Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C380Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C381Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C382Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C383Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C384Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C385Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C386Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C387Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C388Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C389Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C39Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C390Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C391Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C393Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C394Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C395Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C396Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C397Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C398Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C399Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C40Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C400Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C401Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C402Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C403Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C404Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C405Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C406Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C408Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C409Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C410Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C411Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C412Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C413Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C414Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C415Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C416Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C417Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C418Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C419Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C420Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C421Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C422Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C423Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C424Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C425Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C426Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C427Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C428Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C429Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C430Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C431Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C432Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C433Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C434Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C435Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C436Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C437Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C439Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C440Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C441Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C442Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C443Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C444Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C445Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C446Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C447Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C448Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C449Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C450Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C451Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C452Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C453Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C454Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C455Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C456Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C48Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C50Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C52Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C55Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C56Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C59Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C60Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C61Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C66Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C69Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C70Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C73Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C77Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C79Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C82Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C83Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C84Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C88Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C9Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C90Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C91Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C92Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C93Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C95Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C96Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C97Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C98Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS C99Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS caffeic acid, cis- (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS citric acid (4TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS cysteine (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS fructose-1,6-diphosphate (1MEOX) (7TMS) MPRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS galactose (1MEOX) (5TMS) BPRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS galacturonic acid (1MEOX) (5TMS) BP 1Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS galacturonic acid (1MEOX) (5TMS) BP 2Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS glucopyranose, D- (5TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS glucose (1MEOX) (5TMS) MPRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS glutamic acid (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS glyceric acid (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS glycerol (3TMS) 1Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS glycerol (3TMS) 2Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS glycerol-2-phosphate (4TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS glycerol-3-phosphate (4TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS glycerophosphoglycerol (5TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS glycine (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS guanosine (5TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS gulose (1MEOX) (5TMS) BPRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS heptadecanoic acid (1TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS hexadecanoic acid (1TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS hexadecanoic acid methyl ester (FAME MIX)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS hydrogen sulfide (2TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS hydroxylamine (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS inositol, myo- (6TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS inositol-2-phosphate, myo- (7TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS isobutanoic acid, 3-amino- (1TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS kestose, 6- (11TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS leucine (2TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS levulinic acid (1MEOX) (1TMS) BPRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS lysine (4TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS maleamic acid (2TMS) BPRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS malic acid (3TMS) 1Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS malic acid (3TMS) 2Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS maltose (1MEOX) (8TMS) MPRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS maltotriitol (12TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS mannitol (6TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS melezitose (11TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS melibiose (1MEOX) (8TMS) BPRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS methionine (2TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS N-methyl trans-4-hydroxy-L-proline (2S,4R)-4-hydroxy-1-methyl pyrrolidine-2-carboxylic acid (2TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS NA 1Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS NA 10Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS NA 11Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS NA 2Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS NA 3Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS NA 4Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS NA 5Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS NA 6Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS NA 7Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS NA 8Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS NA 9Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS nicotinic acid (1TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS octadecadienoic acid methyl ester, 9,12-(Z,Z)-, n-Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS octadecadienoic acid, n- (1TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS octadecanoic acid (1TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS octadecenoic acid, 9-(E)- (1TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS ornithine (4TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS phenylalanine (2TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS phosphoric acid (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS phosphoric acid monomethyl ester (2TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS proline [+CO2] (2TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS pyridine, 2-hydroxy- (1TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS pyroglutamic acid (2TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS quinic acid (5TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS raffinose (11TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS serine (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 1Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 10Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 11Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 12Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 13Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 14Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 15Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 16Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 17Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 18Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 2Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 3Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 4Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 5Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 6Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 7Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 8Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS siloxane 9Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS similar to asparagine Derivate 1Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS similar to asparagine Derivate 2Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS similar to cyclohexasiloxane, dodecamethylRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS similar to ditertbutylphenol (1TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS similar to lumichrome (2MeOX)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS similar to octadecanoic acid-2,3-dihydroxypropylester (2TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS sitosterol, beta- (1TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS sucrose (8TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS tagatose (1MEOX) (5TMS) BPRelative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS threonine (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS trehalose, alpha,alpha-, D- (8TMS) 1Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS trehalose, alpha,alpha-, D- (8TMS) 2Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS trehalose-6-phosphate (9TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS tryptophan (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS tyrosine (3TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS unknown#bth-pae-001Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS unknown#sst-cgl-093Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS valine (2TMS)Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
GCMS xylobiose, D- (1MEOX) (6TMS) BP2Relative compound abundance measured by GCMS.0 379607312Relative AbundanceRelative Abundance
Quality: NIR SpectraOntologyDescriptionMinMaxUnitUnit info
NIR beta glucan predictedPredicted beta glucan percentage by SSA NIR.-15 100%Percent
NIR lipid predictedPredicted lipid percentage by SSA NIR.-15 100%Percent
NIR protein predictedPredicted protein percentage by SSA NIR.-19 100%Percent
NIR spectra 1000Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1001Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1002Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1003Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1004Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1005Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1006Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1007Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1008Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1009Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1010Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1011Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1012Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1013Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1014Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1015Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1016Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1017Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1018Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1019Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1020Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1021Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1022Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1023Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1024Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1025Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1026Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1027Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1028Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1029Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1030Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1031Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1032Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1033Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1034Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1035Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1036Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1037Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1038Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1039Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1040Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1041Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1042Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1043Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1044Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1045Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1046Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1047Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1048Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1049Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1050Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1051Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1052Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1053Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1054Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1055Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1056Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1057Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1058Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1059Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1060Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1061Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1062Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1063Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1064Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1065Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1066Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1067Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1068Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1069Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1070Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1071Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1072Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1073Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1074Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1075Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1076Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1077Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1078Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1079Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1080Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1081Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1082Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1083Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1084Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1085Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1086Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1087Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1088Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1089Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1090Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1091Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1092Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1093Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1094Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1095Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1096Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1097Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1098Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1099Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1100Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1101Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1102Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1103Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1104Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1105Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1106Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1107Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1108Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1109Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1110Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1111Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1112Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1113Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1114Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1115Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1116Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1117Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1118Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1119Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1120Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1121Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1122Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1123Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1124Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1125Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1126Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1127Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1128Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1129Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1130Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1131Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1132Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1133Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1134Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1135Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1136Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1137Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1138Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1139Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1140Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1141Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1142Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1143Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1144Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1145Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1146Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1147Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1148Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1149Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1150Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1151Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1152Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1153Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1154Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1155Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1156Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1157Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1158Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1159Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1160Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1161Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1162Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1163Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1164Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1165Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1166Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1167Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1168Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1169Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1170Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1171Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1172Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1173Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1174Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1175Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1176Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1177Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1178Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1179Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1180Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1181Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1182Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1183Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1184Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1185Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1186Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1187Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1188Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1189Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1190Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1191Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1192Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1193Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1194Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1195Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1196Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1197Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1198Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1199Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1200Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1201Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1202Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1203Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1204Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1205Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1206Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1207Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1208Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1209Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1210Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1211Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1212Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1213Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1214Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1215Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1216Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1217Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1218Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1219Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1220Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1221Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1222Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1223Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1224Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1225Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1226Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1227Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1228Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1229Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1230Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1231Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1232Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1233Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1234Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1235Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1236Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1237Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1238Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1239Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1240Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1241Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1242Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1243Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1244Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1245Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1246Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1247Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1248Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1249Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1250Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1251Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1252Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1253Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1254Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1255Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1256Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1257Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1258Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1259Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1260Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1261Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1262Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1263Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1264Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1265Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1266Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1267Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1268Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1269Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1270Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1271Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1272Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1273Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1274Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1275Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1276Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1277Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1278Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1279Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1280Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1281Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1282Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1283Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1284Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1285Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1286Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1287Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1288Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1289Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1290Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1291Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1292Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1293Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1294Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1295Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1296Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1297Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1298Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1299Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1300Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1301Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1302Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1303Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1304Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1305Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1306Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1307Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1308Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1309Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1310Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1311Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1312Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1313Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1314Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1315Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1316Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1317Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1318Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1319Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1320Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1321Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1322Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1323Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1324Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1325Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1326Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1327Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1328Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1329Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1330Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1331Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1332Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1333Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1334Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1335Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1336Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1337Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1338Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1339Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1340Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1341Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1342Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1343Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1344Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1345Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1346Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1347Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1348Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1349Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1350Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1351Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1352Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1353Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1354Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1355Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1356Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1357Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1358Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1359Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1360Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1361Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1362Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1363Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1364Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1365Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1366Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1367Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1368Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1369Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1370Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1371Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1372Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1373Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1374Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1375Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1376Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1377Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1378Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1379Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1380Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1381Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1382Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1383Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1384Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1385Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1386Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1387Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1388Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1389Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1390Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1391Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1392Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1393Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1394Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1395Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1396Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1397Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1398Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1399Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1400Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1401Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1402Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1403Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1404Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1405Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1406Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1407Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1408Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1409Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1410Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1411Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1412Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1413Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1414Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1415Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1416Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1417Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1418Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1419Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1420Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1421Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1422Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1423Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1424Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1425Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1426Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1427Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1428Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1429Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1430Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1431Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1432Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1433Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1434Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1435Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1436Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1437Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1438Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1439Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1440Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1441Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1442Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1443Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1444Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1445Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1446Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1447Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1448Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1449Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1450Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1451Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1452Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1453Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1454Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1455Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1456Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1457Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1458Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1459Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1460Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1461Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1462Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1463Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1464Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1465Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1466Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1467Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1468Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1469Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1470Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1471Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1472Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1473Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1474Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1475Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1476Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1477Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1478Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1479Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1480Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1481Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1482Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1483Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1484Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1485Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1486Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1487Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1488Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1489Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1490Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1491Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1492Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1493Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1494Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1495Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1496Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1497Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1498Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1499Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1500Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1501Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1502Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1503Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1504Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1505Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1506Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1507Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1508Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1509Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1510Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1511Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1512Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1513Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1514Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1515Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1516Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1517Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1518Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1519Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1520Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1521Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1522Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1523Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1524Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1525Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1526Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1527Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1528Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1529Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1530Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1531Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1532Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1533Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1534Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1535Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1536Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1537Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1538Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1539Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1540Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1541Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1542Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1543Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1544Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1545Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1546Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1547Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1548Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1549Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1550Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1551Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1552Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1553Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1554Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1555Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1556Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1557Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1558Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1559Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1560Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1561Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1562Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1563Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1564Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1565Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1566Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1567Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1568Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1569Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1570Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1571Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1572Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1573Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1574Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1575Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1576Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1577Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1578Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1579Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1580Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1581Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1582Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1583Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1584Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1585Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1586Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1587Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1588Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1589Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1590Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1591Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1592Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1593Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1594Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1595Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1596Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1597Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1598Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1599Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1600Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1601Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1602Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1603Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1604Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1605Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1606Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1607Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1608Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1609Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1610Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1611Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1612Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1613Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1614Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1615Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1616Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1617Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1618Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1619Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1620Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1621Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1622Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1623Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1624Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1625Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1626Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1627Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1628Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1629Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1630Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1631Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1632Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1633Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1634Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 1635Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 957Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 958Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 959Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 960Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 961Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 962Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 963Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 964Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 965Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 966Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 967Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 968Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 969Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 970Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 971Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 972Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 973Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 974Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 975Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 976Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 977Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 978Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 979Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 980Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 981Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 982Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 983Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 984Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 985Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 986Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 987Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 988Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 989Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 990Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 991Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 992Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 993Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 994Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 995Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 996Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 997Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 998Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
NIR spectra 999Absorbance spectra: calculated from the seed spectra and the white and dark spectra using: Absorbance = -log [ (seed - dark/white - dark].-0.14 10737419ReflectanceAbsorbance spectra; calculated from the seed spectra and the white and dark spectra using: absorbance= -log[(seed - dark/white - dark].
Quality: UPLCOntologyDescriptionMinMaxUnitUnit info
UPLC C1Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C10Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C100Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C101Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C102Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C103Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C104Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C105Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C106Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C107Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C108Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C109Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C11Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C110Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C111Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C112Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C113Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C114Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C115Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C116Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C117Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C118Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C119Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C12Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C120Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C121Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C122Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C123Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C124Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C125Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C126Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C127Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C128Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C129Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C13Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C130Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C131Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C132Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C133Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C134Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C135Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C136Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C137Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C138Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C139Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C14Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C140Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C141Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C142Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C143Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C144Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C145Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C146Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C147Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C148Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C149Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C15Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C150Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C151Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C152Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C153Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C154Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C155Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C156Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C157Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C158Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C159Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C16Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C160Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C161Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C162Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C163Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C164Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C165Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C166Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C167Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C168Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C169Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C17Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C170Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C171Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C172Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C173Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C174Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C175Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C176Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C177Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C179Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C18Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C180Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C181Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C182Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C183Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C184Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C185Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C186Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C187Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C188Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C189Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C19Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C190Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C191Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C192Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C193Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C194Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C195Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C196Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C197Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C198Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C199Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C2Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C20Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C200Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C201Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C202Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C203Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C204Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C205Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C206Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C207Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C208Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C209Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C21Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C210Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C211Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C212Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C213Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C214Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C215Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C216Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C217Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C218Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C219Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C22Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C220Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C221Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C222Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C223Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C224Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C225Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C226Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C227Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C228Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C229Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C23Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C230Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C231Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C232Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C233Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C235Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C236Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C237Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C238Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C239Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C24Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C240Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C241Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C242Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C243Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C244Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C245Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C246Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C247Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C248Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C249Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C25Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C26Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C27Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C28Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C29Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C3Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C30Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C31Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C32Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C33Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C34Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C35Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C36Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C38Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C39Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C4Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C40Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C41Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C42Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C43Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C44Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C45Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C46Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C47Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C48Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C49Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C5Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C50Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C51Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C52Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C53Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C54Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C55Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C56Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C57Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C58Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C59Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C6Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C60Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C61Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C62Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C63Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C64Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C65Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C66Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C67Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C68Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C69Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C7Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C70Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C71Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C72Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C73Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C74Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C75Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C76Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C77Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C78Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C79Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C8Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C80Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C81Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C82Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C83Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C84Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C85Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C86Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C87Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C88Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C89Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C9Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C90Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C91Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C92Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C93Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C94Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C95Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C96Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C97Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C98Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance
UPLC C99Relative abundance of an unidentified compound estimated by UPLC0 2788612Relative AbundanceRelative Abundance

In 2009 the Toronto International Data Release Workshop agreed on a policy statement about prepublication data sharing. Accordingly, the data producers are making many of the datasets in T3 available prior to publication of a global analysis. Guidelines for appropriate sharing of these data are given in the excerpt from the Toronto Statement.

I agree to the Data Usage Policy as specified in Toronto Statement.