21世纪气候变化预测下热带树木覆盖的确定性变化。

Committed changes in tropical tree cover under the projected 21st century climate change.

作者信息

Zeng Zhenzhong, Piao Shilong, Chen Anping, Lin Xin, Nan Huijuan, Li Junsheng, Ciais Philippe

机构信息

College of Urban and Environmental Sciences, Peking University, Beijing 100871, China.

出版信息

Sci Rep. 2013;3:1951. doi: 10.1038/srep01951.

DOI:10.1038/srep01951

PMID:23739583

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3674425/

Abstract

Warming and drought pose a serious threat to tropical forest. Yet the extent of this threat is uncertain, given the lack of methods to evaluate the forest tree cover changes under future climate predicted by complex dynamic vegetation models. Here we develop an empirical approach based on the observed climate space of tropical trees to estimate the maximum potential tropical tree cover (MPTC) in equilibrium with a given climate. We show that compared to present-day (2000-2009) conditions, MPTC will be reduced by 1 to 15% in the tropical band under equilibrium future (2090-2099) climate conditions predicted by 19 IPCC climate models. Tropical forests are found to regress or disappear mainly in the current transition zones between forest and savanna ecosystems. This climate pressure on tropical forests, added to human-caused land use pressure, poses a grand challenge to the sustainability of the world's largest biomass carbon pool.

摘要

气候变暖和干旱对热带森林构成了严重威胁。然而，鉴于缺乏评估复杂动态植被模型预测的未来气候下森林树木覆盖变化的方法，这种威胁的程度尚不确定。在此，我们基于热带树木的观测气候空间开发了一种实证方法，以估计与给定气候处于平衡状态下的最大潜在热带树木覆盖面积（MPTC）。我们发现，与当前（2000 - 2009年）状况相比，在19个IPCC气候模型预测的未来平衡气候条件（2090 - 2099年）下，热带地区的MPTC将减少1%至15%。热带森林主要在目前森林和稀树草原生态系统的过渡地带退化或消失。这种对热带森林的气候压力，再加上人为的土地利用压力，对世界上最大的生物量碳库的可持续性构成了巨大挑战。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/317d/3674425/d444ab2d1d3e/srep01951-f1.jpg

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21世纪气候变化预测下热带树木覆盖的确定性变化。

Committed changes in tropical tree cover under the projected 21st century climate change.

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