Multi‐scenario simulation of desertification in North China for 2030

Since desertification threatens the global environment and the security of societies, predicting its patterns and trends across space and time would inform policy‐making strategies for desertification control and sustainable development. China is among the countries most severely affected by deserti...

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Veröffentlicht in:	Land degradation & development 2021-01, Vol.32 (2), p.1060-1074
Hauptverfasser:	Xu, Duanyang, Zhang, Xiaoyu
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Sprache:	eng
Schlagworte:	2030 Arid regions Climate prediction Climatic conditions Desertification Ecological effects Environmental policy Human factors Humid climates Model accuracy North China Policies Rainfall Security Simulation Sustainable development System dynamics
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container_title	Land degradation & development
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creator	Xu, Duanyang Zhang, Xiaoyu
description	Since desertification threatens the global environment and the security of societies, predicting its patterns and trends across space and time would inform policy‐making strategies for desertification control and sustainable development. China is among the countries most severely affected by desertification, representing 17.93% of its total land area. To better understand the future dynamics of desertification in China, a spatial system dynamics model that coupled natural and human factors was developed to simulate the desertification process in North China in 2030 under nine scenarios. The results showed the model had good applicability and satisfactory accuracy for desertification simulation at the national scale, for which temperature and rainfall were the most sensitive factors driving the process. Current ecological projects and policies were found to be effective for desertification control, which would lead to reversal of desertification in 2030 when coupled with average predicted climate conditions; further, this reversal trend would be accelerated under a humid climate scenario. Although positive ecological policies would promote the reversal of desertification, only a 5% increase of rehabilitated area was obtained when it was coupled with an arid climatic conditions. The latter (aridity) and a passive ecological protection policy would together accelerate desertification expansion, especially in the Yili Basin, in the Houshan region of Inner Mongolia and the Yinchuan Plain. Thus, the ecological projects and policies should be carried on in the long‐term to achieve sustainable control and help prevent desertification.
doi_str_mv	10.1002/ldr.3746
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China is among the countries most severely affected by desertification, representing 17.93% of its total land area. To better understand the future dynamics of desertification in China, a spatial system dynamics model that coupled natural and human factors was developed to simulate the desertification process in North China in 2030 under nine scenarios. The results showed the model had good applicability and satisfactory accuracy for desertification simulation at the national scale, for which temperature and rainfall were the most sensitive factors driving the process. Current ecological projects and policies were found to be effective for desertification control, which would lead to reversal of desertification in 2030 when coupled with average predicted climate conditions; further, this reversal trend would be accelerated under a humid climate scenario. 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subjects	2030 Arid regions Climate prediction Climatic conditions Desertification Ecological effects Environmental policy Human factors Humid climates Model accuracy North China Policies Rainfall Security Simulation Sustainable development System dynamics
title	Multi‐scenario simulation of desertification in North China for 2030
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