Arden Burrell scite author profile

Drylands cover 41% of the earth's land surface and include 45% of the world's agricultural land. These regions are among the most vulnerable ecosystems to anthropogenic climate and land use change and are under threat of desertification. Understanding the roles of anthropogenic climate change, which includes the CO 2 fertilization effect, and land use in driving desertification is essential for effective policy responses but remains poorly quantified with methodological differences resulting in large variations in attribution. Here, we perform the first observation-based attribution study of desertification that accounts for climate change, climate variability, CO 2 fertilization as well as both the gradual and rapid ecosystem changes caused by land use. We found that, between 1982 and 2015, 6% of the world's drylands underwent desertification driven by unsustainable land use practices compounded by anthropogenic climate change. Despite an average global greening, anthropogenic climate change has degraded 12.6% (5.43 million km 2) of drylands, contributing to desertification and affecting 213 million people, 93% of who live in developing economies.

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Detecting dryland degradation using Time Series Segmentation and Residual Trend analysis (TSS-RESTREND)

Burrell

Evans

Liu

2017

Remote Sensing of Environment

134

126

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The impact of dataset selection on land degradation assessment

Burrell

Evans

Liu

2018

ISPRS Journal of Photogrammetry and Remote Sensing

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Arden Burrell

Anthropogenic climate change has driven over 5 million km2 of drylands towards desertification

Detecting dryland degradation using Time Series Segmentation and Residual Trend analysis (TSS-RESTREND)

The impact of dataset selection on land degradation assessment

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