Optimal bands for estimation of mixed canopy chlorophyll content

GAO Yan-hua1; CHEN Liang-fu1; ZHOU Xu4; LI Li1; LIU Qin-huo1; TIAN Guo-liang1 1. State Key Laboratory of Remote Sensing Science; Institute of Remote Sensing Applications; Chinese Academy of Sciences; Beijing 100101; China. Institute of Geographic Sciences and Natural Resources Research. The Center for National Spaceborne Demonstration; 4. National Geomatics Center of China; Beijing 100048

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Optimal bands for estimation of mixed canopy chlorophyll content
Optimal bands for estimation of mixed canopy chlorophyll content
2009年13卷第4期页码：616-622
纸质出版日期： 2009 ，
DOI：

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[1].Optimal bands for estimation of mixed canopy chlorophyll content[J].遥感学报,2009,13(04):616-622.

Optimal bands for estimation of mixed canopy chlorophyll content[J]. Journal of Remote Sensing, 2009,13(4):616-622.
[1].Optimal bands for estimation of mixed canopy chlorophyll content[J].遥感学报,2009,13(04):616-622. DOI：

Optimal bands for estimation of mixed canopy chlorophyll content[J]. Journal of Remote Sensing, 2009,13(4):616-622. DOI：

摘要

A large number of spectral indices have been developed for estimation of leaf chlorophyll content. However

in most cases these indices have been tested for only one or at most a few related species

and thus it is not clear whether they can be applied across species with varying leaf structure characteristics. The main objective of the study is to find spectral bands that are sensitive to variation in chlorophyll content while relatively insensitive to species and leaf structure variation

determine optimal wide bands range for retrieving chlorophyll content of mixed canopies that consist of diverse species

and then develop wide-bands based approach to retrieve chlorophyll content of mixed canopies. We tested and compared 19 chlorophyll indices published on LOPEX93 （Leaf Optical Properties EXperiment 93） database to analyze the feasibility of using each of them as ’’universal’’ chlorophyll indices. Then the correlation between chlorophyll content and reflectance

the first derivative of reflectance spectra were studied based on LOPEX93 database

respectively. The results showed: （1） red edge spectral indices provided relatively good correlation with chlorophyll content when applied across a wide range of species; （2） the optimal band for estimation of chlorophyll content was found at 698-715nm range; （3） for the first derivative of reflectance

the optimal bands for estimation of chlorophyll content were at 720-735nm range and 535-550nm range.

Abstract

A large number of spectral indices have been developed for estimation of leaf chlorophyll content. However

in most cases these indices have been tested for only one or at most a few related species

determine optimal wide bands range for retrieving chlorophyll content of mixed canopies that consist of diverse species

and then develop wide-bands based approach to retrieve chlorophyll content of mixed canopies. We tested and compared 19 chlorophyll indices published on LOPEX93 （Leaf Optical Properties EXperiment 93） database to analyze the feasibility of using each of them as ‘‘universal’’ chlorophyll indices. Then the correlation between chlorophyll content and reflectance

the first derivative of reflectance spectra were studied based on LOPEX93 database

respectively. The results showed: （1） red edge spectral indices provided relatively good correlation with chlorophyll content when applied across a wide range of species; （2） the optimal band for estimation of chlorophyll content was found at 698—715nm range; （3） for the first derivative of reflectance

the optimal bands for estimation of chlorophyll content were at 720—735nm range and 535—550nm range.

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