Geographical Detector-Based Identification of the Impact of Major Determinants on Aeolian Desertification Risk

Arid and semi-arid areas in North China are facing the challenge of a rising aeolian desertification risk (ADR) due to the intertwined effects of complex natural processes and intensified anthropogenic activities. An accurate quantitative assessment of the relationship between ADR and its determinan...

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Bibliographic Details
Published in:PloS one 2016-03, Vol.11 (3), p.e0151331-e0151331
Main Authors: Du, Ziqiang, Xu, Xiaoming, Zhang, Hong, Wu, Zhitao, Liu, Yong
Format: Article
Language:English
Subjects:
Anthropogenic factors
Arid regions
Biology and Life Sciences
China
Climate change
Conservation of Natural Resources
Desert Climate
Desertification
Detection equipment
Determinants
Earth Sciences
Ecology and Environmental Sciences
Ecosystems
Environmental Monitoring - methods
Geology
Grasslands
Human factors
Human influences
Humans
Inhabitants
Land degradation
Mountains
People and Places
Precipitation
Precipitation (Meteorology)
Principal components analysis
Rainfall
Remote sensing
Risk
Social Sciences
Soil erosion
Spatial analysis
Spatial discrimination
Studies
Variance analysis
Velocity
Wind
Wind speed
Wind velocities
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Summary:Arid and semi-arid areas in North China are facing the challenge of a rising aeolian desertification risk (ADR) due to the intertwined effects of complex natural processes and intensified anthropogenic activities. An accurate quantitative assessment of the relationship between ADR and its determinants is beneficial for understanding the driving mechanisms of aeolian desertification and for controlling future desertification. Previous studies have failed to quantify the relative role of determinants driving ADR and have been limited in assessing their interactive impacts. In this study, a spatial variance analysis-based geographical detector methodology is used to quantify the effects of geological, physical, and human factors on the occurrence of ADR in an area characterized by mountains and hills in northern China. It is found that soil type, precipitation, and wind velocity are the major determinants of ADR, which implies that geological and physical elements (e.g., soil attribute) and climatic factors (e.g., precipitation and wind velocity) rather than human activities have played a greater role in the incidence of ADR. Particularly, the results show that the interaction of various determinants causes significant non-linearly enhanced impacts on the ADR. The findings of our study will assist local inhabitants and policy makers in developing measures for wind prevention and sand control to mitigate the effects of desertification in the region.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0151331