4.7 Article

Construction and optimization of ecological security pattern in Ebinur Lake Basin based on MSPA-MCR models

Journal

ECOLOGICAL INDICATORS
Volume 138, Issue -, Pages 1-13

Publisher

ELSEVIER
DOI: 10.1016/j.ecolind.2022.108857

Keywords

Ebinur lake basin; Ecological security pattern; Ecological sources; Ecological corridors; Morphological spatial pattern analysis model

Funding

  1. National Natural Science Foundation of China [42161049, 41761019, 41061052]
  2. Special Project for Talent Development in the Western Region [201408655089]

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This study examines the ecological fragility of inland river basins in arid zones and the potential impact on ecological protection. It proposes a method for determining ecological source areas that considers landscape connectivity, using the Ebinur lake basin as a case study. The study also constructs an ecological security pattern, which can serve as a reference for the protection and restoration of the ecological environment in arid inland basins.
The ecological environment of inland river basins in arid zones is extremely fragile, and even small changes in the ecosystem may greatly influence the ecological protection of the basin. Most of the previous studies on the construction and optimization of ecological safety patterns, directly used large areas of water, grassland, and woodland as ecological source sites without considering the connectivity between landscapes. In this study, the large landscape connectivity index and the probability of connectivity values were used to determine the ecological source areas, taking landscape connectivity into account. Ebinur lake basin is an important barrier in northwest China. Taking Ebinur lake basin as a research object, the results show that: (1) there are 20 important ecological sources in the Ebinur Lake basin, mainly in the water and forest-grassland areas, including two waters ecological source areas in Ebinur Lake and Sayram Lake; (2) 190 ecological corridors were estimated by the minimum cumulative resistance model, and 59 level 1 ecological corridors were mainly located in the western part of Ebinur Lake, and 70 level 2 ecological corridors were also mainly located in the western part of Ebinur Lake by the gravity model after removing the redundant ecological corridors. (3) Based on hotspot and spatial directional analyses of ecological resistance and habitat quality, the ecological security pattern of 'four zones and two belts' was constructed. This can provide a reference for the protection and restoration of the ecological environment in the inland basin of the arid zone.

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