1. Asian tropical forests assimilating carbon under dry conditions: water stress or light benefits?
- Author
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Yang, Lian-Yan, Yu, Rui, Wu, Jin, Zhang, Yongjiang, Kosugi, Yoshiko, Restrepo-Coupe, Natalia, Huete, Afredo, Zhang, Jie, Liu, Yu-Hai, Zhang, Xiang, Liu, Wen-Jie, Zhao, Jun-Fu, Zeng, Jiye, Song, Qing-Hai, Chen, Ya-Jun, Song, Liang, and Tan, Zheng-Hong
- Subjects
TROPICAL forests ,DECIDUOUS forests ,WATER supply ,PHOTOSYNTHETIC rates ,SOLAR radiation ,LEAF area index - Abstract
Tropical forests are characterized by vast biomass, complex structures and mega-biodiversity. However, the adaptation processes of these forests to seasonal water availability are less understood, especially those located in the monsoonal and mountainous regions of tropical Southeast Asia. This study used four representative tropical forests spanning from 2° N to 22° N in continental Southeast Asia to address dry-condition photosynthesis at the seasonal scale. We first provided novel and reliable estimations of ecosystem photosynthesis (gross primary production; GPP) seasonality at all four sites. As expected, both evergreen and deciduous seasonal forests exhibited higher GPPs during the rainy season than during the dry season. A bimodal pattern corresponding to solar radiation occurred in the GPP of the perhumid forest. The surface conductance (G
s ) was consistently lower both in the dry season and during dry spells (DSPs) than during the wet season and non-dry spells. However, this did not prevent GPP from increasing alongside increasing irradiance in the perhumid forest, suggesting that other ecosystem physiological properties, for example, the light-saturated photosynthetic rate, must have increased, thus surpassing the effect of Gs reduction. Thus, perhumid forests could be defined as light-demanding ecosystems with regard to their seasonal dynamics. Seasonal forests are water-stressed ecosystems in the dry season, as shown by the reductions in GPP, Gs and related ecosystem physiological properties. At all four forest sites, we observed a lack of consistent adaptive strategy to fit the water seasonality due to the diversity in leaf phenology, soil nutrient availability, root depth and other potential factors. [ABSTRACT FROM AUTHOR]- Published
- 2023
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