Suppression of Nitrogen Deposition on Global Forest Soil CH4 Uptake Depends on Nitrogen Status

IF 5.4 2区 地球科学 Q1 ENVIRONMENTAL SCIENCES
Xiaoyu Cen, Nianpeng He, Mingxu Li, Li Xu, Xueying Yu, Weixiang Cai, Xin Li, Klaus Butterbach-Bahl
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Abstract

Methane (CH4) is the second most important atmospheric greenhouse gas (GHG) and forest soils are a significant sink for atmospheric CH4. Uptake of CH4 by global forest soils is affected by nitrogen (N) deposition; clarifying the effect of N deposition helps to reduce uncertainties of the global CH4 budget. However, it remains an unsolved puzzle why N input stimulates soil CH4 uptake in some forests while suppressing it in others. Combining previous findings and data from N addition experiments conducted in global forests, we proposed and tested a “stimulating-suppressing-weakened effect” (“three stages”) hypothesis on the changing responses of soil CH4 flux (RCH4) to N input. Specifically, we calculated the response factors (f) of RCH4 to N input for N-limited and N-saturated forests across biomes; the phased changes in f values supported our hypothesis. We also estimated the global forest soil CH4 uptake budget to be approximately 11.2 Tg yr−1. CH4 uptake hotspots were predominantly located in temperate forests. Furthermore, we quantified that the current level of N deposition reduced global forest soil CH4 uptake by ∼3%. This suppression effect was more pronounced in temperate forests than in tropical or boreal forests, likely due to differences in N status. The proposed “three stages” hypothesis in this study generalizes the diverse effects of N input on RCH4, which could help improve experimental design. Additionally, our findings imply that by regulating N pollution and reducing N deposition, soil CH4 uptake can be significantly increased in the N-saturated forests in tropical and temperate biomes.

氮沉降对全球森林土壤甲烷吸收的抑制作用取决于氮状况
甲烷(CH4)是大气中第二大温室气体(GHG),森林土壤是大气中 CH4 的重要吸收汇。全球森林土壤对 CH4 的吸收受氮(N)沉积的影响;澄清氮沉积的影响有助于减少全球 CH4 预算的不确定性。然而,为什么氮的输入会刺激一些森林土壤对 CH4 的吸收,而在另一些森林中却会抑制这种吸收,这仍然是一个未解之谜。结合以往的研究结果和在全球森林中进行的氮添加实验数据,我们提出并检验了土壤CH4通量(RCH4)对氮输入的响应变化的 "刺激-抑制-减弱效应"("三个阶段")假说。具体而言,我们计算了不同生物群落中氮限制森林和氮饱和森林的 RCH4 对氮输入的响应因子(f);f 值的阶段性变化支持了我们的假设。我们还估计全球森林土壤的CH4吸收预算约为11.2 Tg yr-1。CH4吸收热点主要位于温带森林。此外,我们还量化了当前的氮沉积水平,它使全球森林土壤的CH4吸收量减少了3%。这种抑制作用在温带森林中比在热带或北方森林中更为明显,这可能是由于氮状况的差异造成的。本研究提出的 "三阶段 "假说概括了氮输入对 RCH4 的不同影响,有助于改进实验设计。此外,我们的研究结果表明,通过调节氮污染和减少氮沉积,可以显著提高热带和温带生物群落中氮饱和森林的土壤对CH4的吸收。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Global Biogeochemical Cycles
Global Biogeochemical Cycles 环境科学-地球科学综合
CiteScore
8.90
自引率
7.70%
发文量
141
审稿时长
8-16 weeks
期刊介绍: Global Biogeochemical Cycles (GBC) features research on regional to global biogeochemical interactions, as well as more local studies that demonstrate fundamental implications for biogeochemical processing at regional or global scales. Published papers draw on a wide array of methods and knowledge and extend in time from the deep geologic past to recent historical and potential future interactions. This broad scope includes studies that elucidate human activities as interactive components of biogeochemical cycles and physical Earth Systems including climate. Authors are required to make their work accessible to a broad interdisciplinary range of scientists.
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