土地利用与气候变化对若尔盖泥炭地碳循环的影响

Paul P. J. Gaffney, Qiuhong Tang, Quanwen Li, Ruiyang Zhang, Junxiao Pan, Ximeng Xu, Yuan Li, Shuli Niu
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摘要

若尔盖泥炭地是中国最大的泥炭地,也是世界上最大的高海拔泥炭地。与世界上许多泥炭地一样,土地管理和气候变化导致的退化意味着完整的若尔盖泥炭地面积减少,潜在地降低了碳汇功能和生态系统服务。本文从全球视角总结了土地利用和气候变化对若尔盖泥炭地C循环的影响,并指出了未来的研究和管理方向。现有文献表明,为降低地下水位和改善放牧而进行的人工排水对泥炭地C循环有显著影响。尽管若尔盖泥炭地的总体碳平衡可能仍是碳汇,但通过增加二氧化碳排放,排水和退化地区可能成为净碳源。未来的气候变化也可能影响泥炭地C循环。升温2°C可能显著降低完整泥炭地C汇强度,使若尔盖泥炭地整体C循环平衡向净C源转变。变暖对若尔盖泥炭地退化的影响是一个主要的不确定性,尽管全球文献表明,变暖对退化泥炭地的影响可能更大。(通过堵塞排水)恢复退化的泥炭地可能有助于扭转退化的一些影响,并逐渐恢复碳汇功能。然而,在若尔盖泥炭地的研究比其他地方少。最后,对今后泥炭地碳循环研究提出了几点建议。本文分类如下:古气候和当前趋势;现代气候变化对气候变化影响的评估>气候变化对气候、生态与自然保护的观测影响观察到的生态变化
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The impacts of land‐use and climate change on the Zoige peatland carbon cycle: A review
Abstract The Zoige peatlands are the largest peatland area in China, and the largest high‐altitude peatland in the world. As with many peatlands worldwide, degradation from land management and climate change mean that the intact Zoige peatland area has decreased, potentially reducing the carbon (C) sink function and ecosystem services. This review summarizes current knowledge of the impacts of land‐use and climate change on the Zoige peatland C cycle in a global perspective and identifies future research and management directions. The existing literature suggests that artificial drainage carried out to lower water tables and improve grazing has a significant impact on the peatland C cycle. Drained and degraded areas may act as a net C source, through increased CO 2 emissions, although the overall C balance of the Zoige peatlands is likely still a net C sink. Future climate change may also impact upon the peatland C cycle. Warming of 2°C may significantly reduce the strength of the C sink of intact peatland areas, which may shift the overall Zoige peatland C cycle balance to a net C source. The effect of warming on degraded Zoige peatlands is a major uncertainty, although the global literature suggests warming effects may be greater in degraded peatlands. Restoration of degraded peatlands (by blocking drains) may help reverse some of the impacts of degradation and gradually recover C sink function. However, there are fewer studies in Zoige peatlands than elsewhere. We conclude with several specific suggestions for future research on the peatland C cycle. This article is categorized under: Paleoclimates and Current Trends > Modern Climate Change Assessing Impacts of Climate Change > Observed Impacts of Climate Change Climate, Ecology, and Conservation > Observed Ecological Changes
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