The human–environment nexus and vegetation–rainfall sensitivity in tropical drylands

植被(病理学) 生态系统 气候变化 人口 干旱 地理 热带 环境科学 土地退化 生产力 全球变化 人口增长 环境变化 热带植被 自然地理学 生态学 气候学 土地利用 地质学 宏观经济学 病理 社会学 人口学 经济 生物 医学
作者
Christin Abel,Stéphanie Horion,Torbern Tagesson,Wanda De Keersmaecker,Alistair W. R. Seddon,Abdulhakim M. Abdi,Rasmus Fensholt
出处
期刊:Nature sustainability [Nature Portfolio]
卷期号:4 (1): 25-32 被引量:129
标识
DOI:10.1038/s41893-020-00597-z
摘要

Global climate change is projected to lead to an increase in both the areal extent and degree of aridity in the world’s drylands. At the same time, the majority of drylands are located in developing countries where high population densities and rapid population growth place additional pressure on the ecosystem. Thus, drylands are particularly vulnerable to environmental changes and large-scale environmental degradation. However, little is known about the long-term functional response of vegetation to such changes induced by the interplay of complex human–environmental interactions. Here we use time series of satellite data to show how vegetation productivity in relation to water availability, which is a major aspect of vegetation functioning in tropical drylands, has changed over the past two decades. In total, one-third of tropical dryland ecosystems show significant (P < 0.05) changes in vegetation–rainfall sensitivity with pronounced differences between regions and continents. We identify population as the main driver of negative changes, especially for developing countries. This is contrasted by positive changes in vegetation–rainfall sensitivity in richer countries, probably resulting from favourable climatic conditions and/or caused by an intensification and expansion of human land management. Our results highlight geographic and economic differences in the relationship between vegetation–rainfall sensitivity and associated drivers in tropical drylands, marking an important step towards the identification, understanding and mitigation of potential negative effects from a changing world on ecosystems and human well-being. Drylands are under pressure from climate change and population growth. This study finds the sensitivity of dryland vegetation to rainfall changing, with opposite effects in poorer and richer nations.
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