在亚热带森林中，异养呼吸不会适应持续变暖。

Heterotrophic respiration does not acclimate to continuous warming in a subtropical forest.

作者信息

Wu Chuansheng, Liang Naishen, Sha Liqing, Xu Xingliang, Zhang Yiping, Lu Huazheng, Song Liang, Song Qinghai, Xie Youneng

机构信息

Key laboratory of Tropical Forest Ecology, Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences, Mengla, 666303, China.

Ailaoshan Station for Subtropical Forest Ecosystem Studies, Jingdong, 676209, China.

出版信息

Sci Rep. 2016 Feb 22;6:21561. doi: 10.1038/srep21561.

DOI:10.1038/srep21561

PMID:26900028

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4761939/

Abstract

As heterotrophic respiration (R(H)) has great potential to increase atmospheric CO2 concentrations, it is important to understand warming effects on R(H) for a better prediction of carbon-climate feedbacks. However, it remains unclear how R(H) responds to warming in subtropical forests. Here, we carried out trenching alone and trenching with warming treatments to test the climate warming effect on R(H) in a subtropical forest in southwestern China. During the measurement period, warming increased annual soil temperature by 2.1 °C, and increased annual mean R(H) by 22.9%. Warming effect on soil temperature (WE(T)) showed very similar pattern with warming effect on R(H) (WE(RH)), decreasing yearly. Regression analyses suggest that WE(RH) was controlled by WE(T) and also regulated by the soil water content. These results showed that the decrease of WE(RH) was not caused by acclimation to the warmer temperature, but was instead due to decrease of WE(T). We therefore suggest that global warming will accelerate soil carbon efflux to the atmosphere, regulated by the change in soil water content in subtropical forests.

摘要

由于异养呼吸（R(H)）具有极大的增加大气中二氧化碳浓度的潜力，为了更好地预测碳 - 气候反馈，了解变暖对R(H)的影响至关重要。然而，亚热带森林中R(H)如何响应变暖仍不清楚。在此，我们在中国西南部的亚热带森林中单独进行了开沟以及开沟结合变暖处理的实验，以测试气候变暖对R(H)的影响。在测量期间，变暖使年土壤温度升高了2.1℃，并使年平均R(H)增加了22.9%。变暖对土壤温度的影响（WE(T)）与变暖对R(H)的影响（WE(RH)）呈现非常相似的模式，逐年下降。回归分析表明，WE(RH)受WE(T)控制，并且也受土壤含水量调节。这些结果表明，WE(RH)的下降不是由于对较温暖温度的适应，而是由于WE(T)的降低。因此，我们认为全球变暖将加速土壤碳向大气的排放，这一过程受亚热带森林土壤含水量变化的调节。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42e1/4761939/aa4d91054b8b/srep21561-f1.jpg

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在亚热带森林中，异养呼吸不会适应持续变暖。

Heterotrophic respiration does not acclimate to continuous warming in a subtropical forest.

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