Title :
Spectroscopic measurement of leaf water status
Author :
Goetz, Alexander F.H. ; Boardman, Joseph W.
Author_Institution :
Center for the Study of Earth from Space, Colorado Univ., Boulder, CO, USA
Abstract :
A leaf drying experiment was carried out in the laboratory in which simultaneous spectral reflectance in the 350-2450 nm region, and leaf weights, were measured at 10 second intervals over a 40 minute period. As the leaf water weight dropped from approximately 60 to 38%, a nearly-linear rise in reflectance at all wavelengths beyond 1000 nm was observed. A principal components analysis of the time series of spectra in the 2000-2500 nm wavelength region showed that over 99% of the variance in the spectra, that were individually scaled to have a sum equal to that of the mean spectrum and subsequently mean corrected was in the first component. This result shows that it is feasible to determine leaf water content remotely with an imaging spectrometer independent of the surface irradiance effects caused by topography
Keywords :
forestry; geophysical techniques; infrared imaging; moisture measurement; remote sensing; 350 to 2500 nm; agriculture crops; drought; forest forestry; geophysical measurement technique; leaf drying experiment; leaf water content; leaf water status; light reflectance; multispectral remote sensing; optical imaging; plant stress; spectral reflectance; vegetation mapping; visible IR infrared; Absorption; Geologic measurements; Geoscience; Laboratories; Lamps; Principal component analysis; Reflectivity; Spectroscopy; Surface topography; Time measurement; Wavelength measurement; Weight measurement;
Conference_Titel :
Geoscience and Remote Sensing Symposium, 1995. IGARSS '95. 'Quantitative Remote Sensing for Science and Applications', International
Conference_Location :
Firenze
Print_ISBN :
0-7803-2567-2
DOI :
10.1109/IGARSS.1995.521114
