Zhou Guoyi, Liu Shuguang, Li Zhian, Zhang Deqiang, Tang Xuli, Zhou Chuanyan, Yan Junhua, Mo Jiangming
South China Botanical Garden, Chinese Academy of Sciences, Guangzhou, 510650, China.
Science. 2006 Dec 1;314(5804):1417. doi: 10.1126/science.1130168.
Old-growth forests have traditionally been considered negligible as carbon sinks because carbon uptake has been thought to be balanced by respiration. We show that the top 20-centimeter soil layer in preserved old-growth forests in southern China accumulated atmospheric carbon at an unexpectedly high average rate of 0.61 megagrams of carbon hectare-1 year-1 from 1979 to 2003. This study suggests that the carbon cycle processes in the belowground system of these forests are changing in response to the changing environment. The result directly challenges the prevailing belief in ecosystem ecology regarding carbon budget in old-growth forests and supports the establishment of a new, nonequilibrium conceptual framework to study soil carbon dynamics.
传统上,老龄林一直被认为作为碳汇可忽略不计,因为人们认为碳吸收与呼吸作用相平衡。我们发现,1979年至2003年期间,中国南方保存完好的老龄林中,顶部20厘米的土壤层以每年每公顷0.61兆克碳的意外高平均速率积累大气碳。这项研究表明,这些森林地下系统中的碳循环过程正在随着环境变化而改变。这一结果直接挑战了生态系统生态学中关于老龄林碳预算的普遍观点,并支持建立一个新的非平衡概念框架来研究土壤碳动态。