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Linking foliage spectral responses to canopy-level ecosystem photosynthetic light-use efficiency at a Douglas-fir forest in Canada

Linking foliage spectral responses to canopy-level ecosystem photosynthetic light-use efficiency at a Douglas-fir forest in Canada
Linking foliage spectral responses to canopy-level ecosystem photosynthetic light-use efficiency at a Douglas-fir forest in Canada
The light-use efficiency (LUE) of a mature Canadian Douglas-fir forest (DF49) was studied using high-resolution in situ temporal, spatial, and spectral measurements in conjunction with fluxes acquired from an instrumented tower. We examined the photochemical reflectance index (PRI), a spectral index responsive to high light conditions that alters reflectance at 531 nm, in combination with several alternative reference bands at 551, 570, and 488 nm. These indices were derived from directional reflectance spectra acquired by a hyperspectral radiometer system mounted on the DF49 tower, viewing the canopy through almost 360° rotations multiple times an hour daily throughout the 2006 growing season. From canopy structure information, three foliage sectors within the canopy were delineated according to instantaneous illumination conditions (sunlit, shaded, and mixed shaded-sunlit). On sunny days, the PRI indices for the sunlit foliage sector captured high light-induced stress responses, expressed as significantly different PRI values for sunlit versus shaded foliage. This difference was not observed on highly diffuse or overcast days. PRIs on sunny days tracked the diurnal photoregulation responses throughout the growing season in concert with illumination intensity. We computed the effective instantaneous LUE for the three foliage groups (LUE foliage) using modeled and measured information. We provide convincing evidence that LUE foliage can be well described and strongly related to all variations of the PRI within this coniferous forest under relatively clear skies (0.59 > r 2 > 0.80, P < 0.0001). LUE foliage varied through the growing season between 0.015 and 0.075 $\mu$mol C $\mu$mol -1 absorbed photosynthetically active radiation (APAR), and the lowest daily values were associated with the sunlit foliage group. The mixed sunlit-shaded foliage was the only group to exhibit monthly averages close to the maximum ecosystem LUE parameter ($\epsilon$ max) used in LUE models for evergreen needle forests (0.0196 $\mu$mol C $\mu$mol -1 APAR). Implications for remote sensing of carbon uptake dynamics and the interaction of canopy structure and physiology are discussed. © 2009 CASI.
0703-8992
166-188
Middleton, Elizabeth M.
e434273d-c675-42d4-8f6c-fa3509e74167
Cheng, Yen-Ben Ben
d7bc95b4-f736-4574-8c8f-33ee247adc0f
Hilker, Thomas
c7fb75b8-320d-49df-84ba-96c9ee523d40
Black, T. Andrew
f6187e30-d043-4094-b5ef-372c60de403b
Krishnan, Praveena
279566d8-8be0-4b0b-bf46-4b447df3229d
Coops, Nicholas C.
5511e778-fec2-4f54-8708-de65ba5a0992
Huemmrich, Karl Fred
20d9744b-a8ac-4e5f-a21a-aad8ec598445
Middleton, Elizabeth M.
e434273d-c675-42d4-8f6c-fa3509e74167
Cheng, Yen-Ben Ben
d7bc95b4-f736-4574-8c8f-33ee247adc0f
Hilker, Thomas
c7fb75b8-320d-49df-84ba-96c9ee523d40
Black, T. Andrew
f6187e30-d043-4094-b5ef-372c60de403b
Krishnan, Praveena
279566d8-8be0-4b0b-bf46-4b447df3229d
Coops, Nicholas C.
5511e778-fec2-4f54-8708-de65ba5a0992
Huemmrich, Karl Fred
20d9744b-a8ac-4e5f-a21a-aad8ec598445

Middleton, Elizabeth M., Cheng, Yen-Ben Ben, Hilker, Thomas, Black, T. Andrew, Krishnan, Praveena, Coops, Nicholas C. and Huemmrich, Karl Fred (2009) Linking foliage spectral responses to canopy-level ecosystem photosynthetic light-use efficiency at a Douglas-fir forest in Canada. Canadian Journal of Remote Sensing: Journal canadien de télédétection, 35 (2), 166-188. (doi:10.5589/m09-008).

Record type: Article

Abstract

The light-use efficiency (LUE) of a mature Canadian Douglas-fir forest (DF49) was studied using high-resolution in situ temporal, spatial, and spectral measurements in conjunction with fluxes acquired from an instrumented tower. We examined the photochemical reflectance index (PRI), a spectral index responsive to high light conditions that alters reflectance at 531 nm, in combination with several alternative reference bands at 551, 570, and 488 nm. These indices were derived from directional reflectance spectra acquired by a hyperspectral radiometer system mounted on the DF49 tower, viewing the canopy through almost 360° rotations multiple times an hour daily throughout the 2006 growing season. From canopy structure information, three foliage sectors within the canopy were delineated according to instantaneous illumination conditions (sunlit, shaded, and mixed shaded-sunlit). On sunny days, the PRI indices for the sunlit foliage sector captured high light-induced stress responses, expressed as significantly different PRI values for sunlit versus shaded foliage. This difference was not observed on highly diffuse or overcast days. PRIs on sunny days tracked the diurnal photoregulation responses throughout the growing season in concert with illumination intensity. We computed the effective instantaneous LUE for the three foliage groups (LUE foliage) using modeled and measured information. We provide convincing evidence that LUE foliage can be well described and strongly related to all variations of the PRI within this coniferous forest under relatively clear skies (0.59 > r 2 > 0.80, P < 0.0001). LUE foliage varied through the growing season between 0.015 and 0.075 $\mu$mol C $\mu$mol -1 absorbed photosynthetically active radiation (APAR), and the lowest daily values were associated with the sunlit foliage group. The mixed sunlit-shaded foliage was the only group to exhibit monthly averages close to the maximum ecosystem LUE parameter ($\epsilon$ max) used in LUE models for evergreen needle forests (0.0196 $\mu$mol C $\mu$mol -1 APAR). Implications for remote sensing of carbon uptake dynamics and the interaction of canopy structure and physiology are discussed. © 2009 CASI.

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Published date: 2009
Organisations: Earth Surface Dynamics

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Local EPrints ID: 384668
URI: http://eprints.soton.ac.uk/id/eprint/384668
ISSN: 0703-8992
PURE UUID: d7cc7a61-b9ce-4484-97d1-fe45ec89626b

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Date deposited: 15 Apr 2016 15:07
Last modified: 14 Mar 2024 22:02

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Contributors

Author: Elizabeth M. Middleton
Author: Yen-Ben Ben Cheng
Author: Thomas Hilker
Author: T. Andrew Black
Author: Praveena Krishnan
Author: Nicholas C. Coops
Author: Karl Fred Huemmrich

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