Long time series of remote sensing to monitor the transformation research of Kubuqi Desert in China
Desertification is one of the major challenges facing humanity. However, there is no effective way to effectively control desertification. China is experiencing serious desertification, and to alleviate this trend, China has implemented a series of major ecological projects since 1978 and has achiev...
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Veröffentlicht in: | Earth science informatics 2020-09, Vol.13 (3), p.795-809 |
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Sprache: | eng |
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Zusammenfassung: | Desertification is one of the major challenges facing humanity. However, there is no effective way to effectively control desertification. China is experiencing serious desertification, and to alleviate this trend, China has implemented a series of major ecological projects since 1978 and has achieved good results. Remote sensing can record changes in surface processes over a long period of time and can play an active role in desertification monitoring and governance. However, there is no systematic remote sensing monitoring method for desertification. In response to this problem, this paper takes a demonstration and reconstruction project of the United Nations desertification in the Kubuqi Desert in China as an example. By using the 30-year time series Landsat data, we propose a new remote sensing monitoring method for the impact of ecological restoration engineering of desert to monitor the spatial and temporal evolution pattern of the Kubuqi Desert in the past 30 years and the impact of the human ecological reconstruction project on the location of land use types in the Kubuqi Desert. In addition, the method analyzes the impact of the Kubuqi Desert Reconstruction Project on the local ecological environment changes from time and space perspectives. The results show the following: (1) During 1991–2017, the Kubuqi Desert Reconstruction Project improved the cultivated land, afforestation, and the Yellow River Drainage to control the sand and in conjunction with other renovation projects improved the ecological environment. The area of the sandy land decreased from 45.76% to 28.66%, while the areas of the waters wetland and artificial forest (shrub), urban construction land, and agricultural land increased; (2) There are obvious time and space differences in the transformation, and the vegetation cover increases as a whole. The obvious change areas are mainly distributed in the riverbank irrigation area of the Yellow River section of the Kubuqi Desert and the torrents such as the Maobula Kong, Buer Taigou and Heilaigou and other mountain gully areas. The relevant experience of the Kubuqi Desert Reconstruction Project in China has important reference significance for world desertification transformation. |
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ISSN: | 1865-0473 1865-0481 |
DOI: | 10.1007/s12145-020-00467-4 |