基于 MaxEnt 模型和蚁群算法的珍稀动物栖息地生态网络识别研究:以中国大熊猫国家公园为例

IF 3 2区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION
Xiaoling Qiu, Wei He, Shiwei Zheng
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引用次数: 0

摘要

合理构建珍稀动物栖息地生态网络是维持野生物种稳定发展的重要途径,在生物多样性保护中具有重要意义。基于栖息地适宜性视角,采用最大熵(MaxEnt)模型识别大熊猫国家公园生态源,利用最小累积阻力(MCR)模型和水文分析原理提取生态廊道和生态节点,引入蚁群算法和核密度分析确定廊道范围和关键修复点,构建了大熊猫栖息地生态网络。我们对构建的生态网络进行了评估和分析,并指出了生态保护和恢复的重点区域。结果表明,该区域栖息地适宜性整体偏低,空间差异明显。呈现东部和北部高值,西部和南部低值的格局。提取生态源 24 个,总面积 1737.63 平方公里,主要分布在中部和北部地区。提取生态廊道 55 条,总长度 1667.816 千米,总面积 1312.08 平方千米,呈网络状广泛分布于研究区中部。确定了 23 条重点生态廊道和 14 个重点恢复点,这些区域是未来国家公园建设应考虑的区域。根据大熊猫国家公园的生态网络特征,提出了该区域未来生态修复的方向。研究成果有望为大熊猫国家公园建设和生物多样性保护提供参考和依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Research on ecological network identification in rare animal habitats based on the MaxEnt model and ant colony algorithm: a case study of Giant Panda National Park, China

Research on ecological network identification in rare animal habitats based on the MaxEnt model and ant colony algorithm: a case study of Giant Panda National Park, China

The reasonable construction of rare animal habitat ecological networks is an important way to maintain the stable development of wild species, and it is of great significance in biodiversity conservation. Based on the habitat suitability perspective, the maximum entropy (MaxEnt) model was used to identify the ecological sources of the Giant Panda National Park; the minimum cumulative resistance (MCR) model and hydrological analysis principles were used to extract the ecological corridors and ecological nodes; the ant colony algorithm and kernel density analysis were introduced to identify the range of corridors and key restoration points; and the ecological network of giant panda habitat was constructed. We evaluated and analyzed the constructed ecological network and pointed out the key areas for ecological protection and restoration. The results show that the habitat suitability of the region as a whole is low, and the spatial differences are obvious. There is a pattern of high values in the east and north and low values in the west and south. 24 ecological sources were extracted, with a total area of 1737.63 km2, mainly distributed in the central and northern regions. 55 ecological corridors were extracted, with a total length of 1667.816 km and a total area of 1312.08 km2, which were widely distributed in the central part of the study area in a network pattern. 23 key ecological corridors and 14 key restoration points were identified, which are areas that should be considered in the construction of national parks in the future. Based on the ecological network characteristics of Giant Panda National Park, the future direction of future ecological restoration in the region was proposed. The research results are expected to provide a reference and basis for the construction of Giant Panda National Park and biodiversity protection.

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来源期刊
Biodiversity and Conservation
Biodiversity and Conservation 环境科学-环境科学
CiteScore
6.20
自引率
5.90%
发文量
153
审稿时长
9-18 weeks
期刊介绍: Biodiversity and Conservation is an international journal that publishes articles on all aspects of biological diversity-its description, analysis and conservation, and its controlled rational use by humankind. The scope of Biodiversity and Conservation is wide and multidisciplinary, and embraces all life-forms. The journal presents research papers, as well as editorials, comments and research notes on biodiversity and conservation, and contributions dealing with the practicalities of conservation management, economic, social and political issues. The journal provides a forum for examining conflicts between sustainable development and human dependence on biodiversity in agriculture, environmental management and biotechnology, and encourages contributions from developing countries to promote broad global perspectives on matters of biodiversity and conservation.
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