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Estimation of light-use efficiency through a combinational use of the photochemical reflectance index and vapor pressure deficit in an evergreen tropical rainforest at Pasoh, Peninsular Malaysia

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Title: Estimation of light-use efficiency through a combinational use of the photochemical reflectance index and vapor pressure deficit in an evergreen tropical rainforest at Pasoh, Peninsular Malaysia
Authors: Nakaji, Tatsuro Browse this author →KAKEN DB
Kosugi, Yoshiko Browse this author →KAKEN DB
Takanashi, Satoru Browse this author →KAKEN DB
Niiyama, Kaoru Browse this author →KAKEN DB
Noguchi, Shoji Browse this author →KAKEN DB
Tani, Makoto Browse this author →KAKEN DB
Oguma, Hiroyuki Browse this author →KAKEN DB
Nik, Abdul Rahim Browse this author
Kassim, Abd Rahman Browse this author
Keywords: lowland dipterocarp forest
phenology
productivity
remote sensing
vegetation index
water conditions
Issue Date: Jul-2014
Publisher: Elsevier
Journal Title: Remote Sensing of Environment
Volume: 150
Start Page: 82
End Page: 92
Publisher DOI: 10.1016/j.rse.2014.04.021
Abstract: In the search for a better method of estimating the light-use efficiency (LUE) of evergreen tropical rainforests, we employed remotely sensed spectral vegetation indices (VIs) to monitor both CO2 flux and canopy spectral reflectance over 3 years in a lowland dipterocarp forest in Peninsular Malaysia. We investigated the sensitivity of five VIs calculated from spectral reflectance: the photochemical reflectance index (PRI), the canopy chlorophyll index (CCI), the normalized difference vegetation index (NDVI), the enhanced vegetation index (EVI) and the water index (WI). During the monitoring period, clear seasonal variations were not found in LUE, the observed Vls or the phenological timing (particularly new leaf flush) of dominant dipterocarp trees. Although leaf phenology tended to correlate with variations in the CCI, the highest correlation coefficient among the relationships between WE and the VIs was observed in PRI (R = 0.341, n = 699). Among the relationships between LUE and meteorological factors, the strongest correlation was found between LUE and vapor pressure deficit (VPD; R = -0580). These results suggest that unseasonal variation in LUE would be more affected by water conditions than leaf phenology or green leaf mass, and that the PRI has lower sensitivity for direct estimation of LUE compared to VPD in this evergreen tropical rainforest. To improve the accuracy in estimating LUE, we examined the potential of combinational use of Vls and meteorological factors. Variable selection by stepwise multiple regression showed that the best variable combination for LUE estimation was the PR! and VPD (R = 0.612). The relative root mean square error (rRMSE) in the simple regression models using PR!, VPD and PRI x VPD, and the multiple regression model using PR! and VPD, was 22.5%, 19.4%, 19.0% and 18.7%, respectively. Based on these results, we concluded that (1) the estimation method solely based on the PRI as in the case of other temperate deciduous forests is not suitable in the tropical evergreen rainforest, and (2) the combinational use of the PRI and VPD offers one of the better models for estimating LUE in tropical evergreen rainforests. (C) 2014 Elsevier Inc. All rights reserved.
Type: article (author version)
URI: http://hdl.handle.net/2115/56859
Appears in Collections:北方生物圏フィールド科学センター (Field Science Center for Northern Biosphere) > 雑誌発表論文等 (Peer-reviewed Journal Articles, etc)

Submitter: 中路 達郎

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