Effects of Farmland Landscape Fragmentation on Agricultural Irrigation in Hotan Oasis

Zhang, Lei; Liu, Yunfei; Yin, Changjun; Xue, Dongping; GUI, Dongwei; Qi, Zhiming

doi:10.3390/agriculture12091503

Cited by 2 publications

(1 citation statement)

References 33 publications

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“…Hotan Oasis located in the southern margin of Tarim Basin and northern foot of the Kunlun Mountains of northwest China ( Zhang et al, 2022 ). The Kalakash River and Yulong Kashi River originated in the Kunlun Mountains supply water to the Hotan oasis.…”

Section: Study Areamentioning

confidence: 99%

Analysis of desertification combating needs based on potential vegetation NDVI—A case in the Hotan Oasis

Zhang

GUI

et al. 2022

Front. Plant Sci.

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Combating desertification is vital for arresting land degradation and ensuring sustainable development of the global ecological environment. This study has analyzed the current desertification status and determined its control needs based on the difference between potential normalized difference vegetation index (PNDVI) and actual normalized difference vegetation index (ANDVI) in the Hotan desertoasis. The MaxEnt model, combined with the distribution point data of natural vegetation with long-term stable normalized difference vegetation index (NDVI) and 24 environmental factors was used to predict the PNDVI spatial distribution of different vegetation coverage grades and compared it with ANDVI. Excluding the areas of intense human activity such as arable land, the simulation results show that PNDVI with high, medium, and low vegetation cover was mainly distributed in the southwest and southeast of Hotan Oasis, in the midstream and downstream of Kalakash River and Yulong Kashi River, and the desert or Gobi area outside the oasis, respectively. The distribution of PNDVI with high, medium, and low vegetation cover accounted for 6.80%, 7.26%, and 9.17% of Hotan oasis, respectively. The comparison between ANDVI and PNDVI shows that 18.04% (ANDVI < PNDVI, about 3900 km2) of the study area is still suffering from desertification, which is mainly distributed in the desert-oasis ecotone in Hotan. The findings of this study implied that PNDVI could be used to assess the desertification status and endorsement of desertification control measures in vulnerable ecosystems. Hence, PNDVI can strengthen the desertification combating efforts at regional and global scales and may serve as a reference point for the policymakers and scientific community towards sustainable land development.

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Section: Study Areamentioning

confidence: 99%