TY - JOUR
T1 - Multivariate analyses of visible/near infrared (VIS/NIR) absorbance spectra reveal underlying spectral differences among dried, ground conifer needle samples from different growth environments
AU - Richardson, Andrew D.
AU - Reeves, James B.
AU - Gregoire, Timothy G.
PY - 2004/1
Y1 - 2004/1
N2 - • Absorbance of visible and near infrared (400-2500 nm) radiation by plant material is determined primarily by biochemical and structural components. We used three multivariate techniques to explore the spectral differences among dried, ground foliage samples of two conifer species from different montane growth environments (three elevations and two crown positions on three different mountains). • Principal components analysis indicated underlying spectral patterns strongly related to species and crown position, and the derived components were correlated with the chemical composition of the samples. Discriminant analysis showed that it was possible to perfectly separate samples by species, but much more difficult to discriminate among different elevations, using just the spectral information. Samples from low and high elevation were well-separated, but mid elevation samples were frequently misclassified. • Partial least squares regression produced results that were superior to those of discriminant analysis, in that all groups were better separated and there was less within-group variability. • These approaches do not directly reveal the biochemical basis of the spectral differences. However, such methods provide a solid foundation for hypothesizing the overall degree of biochemical similarity among diverse samples. Thus, samples from different growth elevations appeared to be biochemically more similar than samples from different species or crown positions. Other potential applications are discussed.
AB - • Absorbance of visible and near infrared (400-2500 nm) radiation by plant material is determined primarily by biochemical and structural components. We used three multivariate techniques to explore the spectral differences among dried, ground foliage samples of two conifer species from different montane growth environments (three elevations and two crown positions on three different mountains). • Principal components analysis indicated underlying spectral patterns strongly related to species and crown position, and the derived components were correlated with the chemical composition of the samples. Discriminant analysis showed that it was possible to perfectly separate samples by species, but much more difficult to discriminate among different elevations, using just the spectral information. Samples from low and high elevation were well-separated, but mid elevation samples were frequently misclassified. • Partial least squares regression produced results that were superior to those of discriminant analysis, in that all groups were better separated and there was less within-group variability. • These approaches do not directly reveal the biochemical basis of the spectral differences. However, such methods provide a solid foundation for hypothesizing the overall degree of biochemical similarity among diverse samples. Thus, samples from different growth elevations appeared to be biochemically more similar than samples from different species or crown positions. Other potential applications are discussed.
KW - Balsam fir (Abies balsamea)
KW - Conifer foliage
KW - Discriminant analysis
KW - Elevation
KW - Partial least squares (PLS) regression
KW - Principal components analysis
KW - Red spruce (Picea rubens)
KW - Reflectance spectra
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U2 - 10.1046/j.1469-8137.2003.00913.x
DO - 10.1046/j.1469-8137.2003.00913.x
M3 - Article
AN - SCOPUS:0346333418
SN - 0028-646X
VL - 161
SP - 291
EP - 301
JO - New Phytologist
JF - New Phytologist
IS - 1
ER -