期刊论文

Yan, WD;Chen, XY

英文

Forests

1999-4907

2024

15

1

183-

10.3390/f15010183

Conceptualization, Z.L., Q.W., S.L., W.Y. and X.C.; methodology, Z.L., Y.P. and W.Y.; validation, Z.L., Q.W., C.M. and X.L.; formal analysis, J.L., Y.P. and J.W.; investigation, Z.L., Q.W., J.L., C.M. and X.L.; resources, J.L., Q.W., C.M. and X.L.; writing—original draft preparation, Z.L., Q.W. and Y.P.; writing—review and editing, Z.L., Y.P., W.Y. and X.C.; visualization, J.L. and J.W.; supervision, S.L., W.Y. and X.C.; project administration, Z.L. and W.Y.; funding acquisition, S.L. and W.Y. All authors have read and agreed to the published version of the manuscript. This study was funded by the National Key R&D Program of China (grant number: 2020YFA0608100), Joint Funds of the National Natural Science Foundation of China (grant number: U21A20187), and the Key Research and Development Program of Hunan Province (2020NK2022).

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The increase in the global atmospheric CO2 concentration is expected to increase the productivity of forests, but the dynamic processes of such increased productivity in the forest canopy remain unclear. In this study, diurnal and seasonal variations and vertical changes in photosynthetic rates were investigated in Camphor tree (Cinnamomum camphora) forests in subtropical China. The effect of photosynthetically active radiation (PAR) and CO2 concentrations on photosynthetic rates were also examined in the studied forests. Results showed the diurnal patterns of photosynthesis exhibited two peak...