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基于基尼系数的中国水生态分区研究
引用本文:蒋艳,曾肇京,张建永.基于基尼系数的中国水生态分区研究[J].生态学报,2015,35(7):2177-2183.
作者姓名:蒋艳  曾肇京  张建永
作者单位:中国水利水电科学研究院, 北京 100038,水利部 水利水电规划设计总院, 北京 100011,水利部 水利水电规划设计总院, 北京 100011
基金项目:国家自然科学基金(50709033); 中国水利水电科学研究院专项(水功能区限制纳污红线制度建设对策与措施)
摘    要:提出了反映水生态系统空间分布规律和特征差异的水生态分区方案,并与国家现有的水资源分区、生态功能区划、水功能区划等相关区划成果相互衔接,为水资源综合利用、流域生态保护和经济社会发展规划提供实用的自然基础。以我国自然地理特征的空间变异与地域关联为依据,以流域为基本单元,进行水生态区划的初步研究,提出了分区的指标体系、步骤和区划方法,形成了两级的全国水生态分区体系。首先,划分为东部区、中部区、西北区和西南区4个水生态一级区;进行水生态二级区划时选取水资源量、降雨量、人口密度、NDVI作为分区的评价因子,根据洛伦茨曲线和基尼系数对分区合理性进行了检验。验证结果表明,各个水生态二级区的水资源量与降雨量、人口密度和NDVI值之间的基尼系数均不超过0.4,分区方案比较合理,从而形成34个水生态二级区,分布在东部13个,中部10个,西北6个,西南5个。

关 键 词:水生态系统  水生态区划  指标体系  基尼系数  洛伦茨曲线
收稿时间:2013/6/9 0:00:00
修稿时间:2014/10/13 0:00:00

Establishment of aquatic ecosystem divisions based on the environmental Gini coefficient in China
JIANG Yan,ZENG Zhaojing and ZHANG Jianyong.Establishment of aquatic ecosystem divisions based on the environmental Gini coefficient in China[J].Acta Ecologica Sinica,2015,35(7):2177-2183.
Authors:JIANG Yan  ZENG Zhaojing and ZHANG Jianyong
Institution:China Institute of Water Resources and Hydropower Research, Beijing 100038, China,Water Resources and Hydropower Planning and Design General Institute, MWR, Beijing 100011, China and Water Resources and Hydropower Planning and Design General Institute, MWR, Beijing 100011, China
Abstract:The division scheme discussed in this study is based on the characteristics and spatial distribution of aquatic ecosystems; the scheme takes into account natural geographic features, water resources, hydrological characteristics, ecosystem functions, environmental and socio-economic conditions, and the impact of water conservancy projects on watersheds. It is based on divisions within China based on natural geography, ecological function, water resources, and water functions. This study proposes the establishment of national water eco-region divisions, including an indexing system, specific methods for establishment of divisions, and a sequence of steps for dividing water eco-regions. This study also divided watersheds nationwide into various water eco-regions, which were subsequently evaluated and verified using economic test procedures. The proposed water eco-regions would provide a viable basis for the comprehensive utilization of water resources, ecological protection, and economic and social development, for general planning of nationwide watersheds. There are three landforms extending from west to east in China, together with a dry and wet area stretching from the northwest to the southeast. Water eco-regions take into account existing physical geography, climate, water resources, and ecological conditions, as well as national ecological function zoning and water districts. From the perspective of systems analysis, we propose an indicator system that includes three layers, namely target, feature, and index layers; these provide a reflection of the spatial distribution of regional natural geographical and climatic conditions, water resources, aquatic ecosystems, human activities, the layout of economic and social structures, and ecological differences. The index layer included 11 indices; the key indicators among these for division of water eco-regions are landform, vegetation cover, and depth of annual runoff. A set of secondary indicators was used to adjust and correct the preliminary subdivisions; this included altitude, the status of aquatic systems, important protected species, the distribution of rivers and lakes, the location of reservoirs, administrative divisions, population density, and the distribution of large cities. The Gini coefficient (also known as the Lorenz factor) for economic income distribution was applied to evaluate the rationality of the proposed aquatic ecosystems division scheme. The eco-region scheme was adjusted and corrected according to evaluation results. The method took into account total water resources of each eco-region as an evaluation index, as well as rainfall, population density, and the NDVI value of each eco-region as distribution indices; these were used to verify the division schemes using the Gini coefficient and Lorenz curves. Results indicated that the division scheme was reasonable when the Gini coefficient for water resources and amount of rainfall was 0.10, when the coefficient for water resources and population density was 0.40, and when that for water resources and NDVI was 0.32. We propose a two-grade eco-region division system for national aquatic ecosystems. This includes four first-grade aquatic eco-regions, namely the east eco-region, middle eco-region, northwest eco-region, and southwest eco-region. These serve macro-economic management purposes, as well as fulfilling overall layout needs for the development and utilization of water resources and aquatic ecosystems protection. Based on water resource management and facilities for ecological protection and restoration in watersheds, 34 second-grade aquatic eco-regions are proposed, including 13 in the east eco-region, 10 in the middle eco-region, 6 in the northwest eco-region, and 5 in the southeast eco-region. The proposed national water eco-division scheme provides a scientific basis for national ecological protection and construction planning, for maintaining regional ecological security and promoting sustainable social and economic development, and for providing management information and tools for environmental management and decision-making departments.
Keywords:aquatic ecosystem  water eco-region division  indexing system  Gini coefficient  Lorenz curve
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