Environmental Research Letters (Jan 2012)

An observational study of the carbon-sink strength of East Asian subtropical evergreen forests

  • Zheng-Hong Tan,
  • Yi-Ping Zhang,
  • Naishen Liang,
  • Yue-Joe Hsia,
  • Yong-Jiang Zhang,
  • Guo-Yi Zhou,
  • Yue-Lin Li,
  • Jehn-Yih Juang,
  • Hou-Sen Chu,
  • Jun-Hua Yan,
  • Gui-Rui Yu,
  • Xiao-Min Sun,
  • Qin-Hai Song,
  • Kun-Fang Cao,
  • D A Schaefer,
  • Yu-Hong Liu

DOI
https://doi.org/10.1088/1748-9326/7/4/044017
Journal volume & issue
Vol. 7, no. 4
p. 044017

Abstract

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Relatively little is known about the effects of regional warming on the carbon cycle of subtropical evergreen forest ecosystems, which are characterized by year-round growing season and cold winters. We investigated the carbon balance in three typical East Asia subtropical evergreen forests, using eddy flux, soil respiration and leaf-level measurements. Subtropical evergreen forests maintain continuous, high rates of photosynthetic activity, even during winter cold periods. Warm summers enhance photosynthetic rates in a limited way, because overall ecosystem productivity is primarily restrained by radiation levels during the warm period. Conversely, warm climates significantly enhance the respiratory carbon efflux. The finding of lower sensitivity of photosynthesis relative to that of respiration suggests that increased temperature will weaken the carbon-sink strength of East Asia subtropical evergreen forests.

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