热带稀树草原和森林作为替代生物群落状态的全球范围和决定因素。

The global extent and determinants of savanna and forest as alternative biome states.

机构信息

Department of Ecology and Evolutionary Biology, Princeton University, Princeton, NJ 08544, USA.

出版信息

Science. 2011 Oct 14;334(6053):230-2. doi: 10.1126/science.1210465.

PMID:21998389

Abstract

Theoretically, fire-tree cover feedbacks can maintain savanna and forest as alternative stable states. However, the global extent of fire-driven discontinuities in tree cover is unknown, especially accounting for seasonality and soils. We use tree cover, climate, fire, and soils data sets to show that tree cover is globally discontinuous. Climate influences tree cover globally but, at intermediate rainfall (1000 to 2500 millimeters) with mild seasonality (less than 7 months), tree cover is bimodal, and only fire differentiates between savanna and forest. These may be alternative states over large areas, including parts of Amazonia and the Congo. Changes in biome distributions, whether at the cost of savanna (due to fragmentation) or forest (due to climate), will be neither smooth nor easily reversible.

摘要

从理论上讲，火树覆盖反馈可以将稀树草原和森林维持为两种替代稳定状态。然而，全球范围内由火灾驱动的树木覆盖不连续性的程度尚不清楚，特别是考虑到季节性和土壤因素。我们利用树木覆盖、气候、火灾和土壤数据集表明，树木覆盖在全球范围内是不连续的。气候对树木覆盖的分布有全球性的影响，但在中等降雨量（1000 至 2500 毫米）和温和季节性（少于 7 个月）的情况下，树木覆盖呈双峰型，只有火灾可以区分稀树草原和森林。这些可能是在较大区域（包括亚马逊地区和刚果地区的部分地区）的替代状态。生物群落分布的变化，无论是以稀树草原（由于破碎化）还是森林（由于气候）为代价，都不会是平滑的，也不容易逆转。

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热带稀树草原和森林作为替代生物群落状态的全球范围和决定因素。

The global extent and determinants of savanna and forest as alternative biome states.

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