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Forest ecosystem chlorophyll, content: implications for remotely sensed estimates of net primary productivity, 2003

Forest ecosystem chlorophyll, content: implications for remotely sensed estimates of net primary productivity, 2003
Forest ecosystem chlorophyll, content: implications for remotely sensed estimates of net primary productivity, 2003
Current methods for estimating photosynthesis and hence net primary productivity (NPP) of forest ecosystems from remote sensing are based on the relationship between (i) the fraction of incident photosynthetically-active radiation absorbed by the canopy (fPAR) and (ii) spectral indices (e.g. NDVI). However, ground-based estimates of fPAR used to quantify this relationship for a specific vegetation type are derived from measurements of canopy structure only (e.g. using light interception methods such as hemispherical photography). Using a coupled leaf-canopy model of radiative transfer, we demonstrated that NDVI is highly sensitive to both canopy foliar and understorey chlorophyll content, which could account for significant errors in remotely sensed estimates of fPAR and hence NPP
0143-1161
611-617
Dawson, T.P.
e85a1b83-5770-4fcb-bc16-c09338b40e19
North, P.R.J.
11afffc7-4d00-4392-94e0-46818b16a6f1
Plummer, S.E.
8e1f29b1-656a-4319-a99c-f0e18d1182e5
Curran, P.J.
3f5c1422-c154-4533-9c84-f2afb77df2de
Dawson, T.P.
e85a1b83-5770-4fcb-bc16-c09338b40e19
North, P.R.J.
11afffc7-4d00-4392-94e0-46818b16a6f1
Plummer, S.E.
8e1f29b1-656a-4319-a99c-f0e18d1182e5
Curran, P.J.
3f5c1422-c154-4533-9c84-f2afb77df2de

Dawson, T.P., North, P.R.J., Plummer, S.E. and Curran, P.J. (2003) Forest ecosystem chlorophyll, content: implications for remotely sensed estimates of net primary productivity, 2003. International Journal of Remote Sensing, 24 (3), 611-617. (doi:10.1080/01431160304984).

Record type: Article

Abstract

Current methods for estimating photosynthesis and hence net primary productivity (NPP) of forest ecosystems from remote sensing are based on the relationship between (i) the fraction of incident photosynthetically-active radiation absorbed by the canopy (fPAR) and (ii) spectral indices (e.g. NDVI). However, ground-based estimates of fPAR used to quantify this relationship for a specific vegetation type are derived from measurements of canopy structure only (e.g. using light interception methods such as hemispherical photography). Using a coupled leaf-canopy model of radiative transfer, we demonstrated that NDVI is highly sensitive to both canopy foliar and understorey chlorophyll content, which could account for significant errors in remotely sensed estimates of fPAR and hence NPP

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Published date: February 2003
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Local EPrints ID: 14790
URI: http://eprints.soton.ac.uk/id/eprint/14790
DOI: doi:10.1080/01431160304984
ISSN: 0143-1161
PURE UUID: f9f0c698-542d-4b8b-a22c-3b3c19e90c73

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Date deposited: 01 Mar 2005
Last modified: 15 Mar 2024 05:31

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Contributors

Author: T.P. Dawson
Author: P.R.J. North
Author: S.E. Plummer
Author: P.J. Curran

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