机构地区:[1]中国矿业大学(北京),煤炭资源与安全开采国家重点实验室,北京100083 [2]中国矿业大学(北京),土地复垦与生态重建研究所,北京100083 [3]北京大学经济学院,北京100083
出 处:《生态学报》2016年第17期5611-5619,共9页Acta Ecologica Sinica
基 金:国家自然科学基金项目资助(41401609);中国矿业大学煤炭资源与安全开采国家重点实验室开放基金项目(SKLCRSM13KFB07)
摘 要:生态风险评价是生态环境保护与管理的重要研究内容,并广泛运用于流域与较大范围的区域尺度的研究。以区域生态风险评价理论为基础,结合高潜水位煤矿区生态环境以及煤炭开采对生态系统造成的危害的特点,通过分析风险源、风险受体、生态终点以及暴露—响应过程,对高潜水位煤矿区生态风险的识别与评价方法进行了研究,构建了典型高潜水位煤矿区的生态风险识别与评价概念模型与空间分析框架,分析了煤矿区生态风险识别的主要技术手段与方法,并构建了以缓冲为主要手段的综合生态风险评价方法。选择山东东滩煤矿作为研究对象,针对研究区内存在的采煤塌陷、洪涝、污染、景观及社会等生态风险类型,定量评价其空间差异,并提出相应的风险防范措施。案例分析结果表明,研究区综合生态风险重度、中度、一般、轻度分别占到研究区的4.70%,64.00%,24.09%,7.20%。生态风险较高的区域主要位于矿区中西部,为煤矸石山、裸露煤炭堆积与发电厂分布区域;中度风险是研究区主要的风险类型。从降低生态风险保障矿区生态安全角度,在未来矿区规划与生态治理过程中,提出了具体的应对措施,包括:(1)注重源头控制;(2)建立高生态风险区域阻隔带;(3)加强污染的监测与控制;(4)采用边开采边治理技术。建议加强生态风险高区域的阻隔,建立生态缓冲带,减缓对整个矿区的综合影响,构建东滩煤矿生态风险防范的空间结构。Ecological risk assessment is one of the most important subdivisions in eco-environmental protection and management, and it is widely used to evaluate ecological risks on both watershed and regional scales. In this study, we conducted identification and ecological assessment by analyzing risk sources, bearer, ecological endpoints, and the exposure-response process on the basis of regional ecological risk assessment coupled with the unique characteristics of mining ecosystems in high groundwater table areas. The identification and evaluation method for ecological risk was studied, and an ecological assessment conceptual model and spatial analysis framework for a coal mine with high ground water were proposed. Furthermore, a comprehensive ecological risk assessment method was proposed on the basis of the spatial buffering theory. The proposed model identifies and assesses mining-induced ecological risks. The Dongtan coal mine in Shandong Province was selected to test this model and framework. The major ecological risks in this mine include land subsidence, floods, water pollution, landscape, and social issues. The degrees of single and comprehensive ecological risk were evaluated. On the basis of the analysis, ecological risk was quantitatively analyzed and spatial strategies for ecological planning in the coal mine were broached. Severe, moderate, general, and mild comprehensive ecological risks were 4.7%, 64%, 24.09%, and 7.2%, respectively. The high ecological risk was located mid-west of the coal mine with sites for coal waste piles, exposed coal, and power plants. Despite the small area occupied, enough attention should be paid to high ecological-risk areas because of their high potential of air, water, and soil pollution. The moderate ecological risk was the dominant risk-type and was present in 64% of the whole region, where most of the mining subsidence is distributed. Mining subsidence triggers flood, farmland loss, and related social issues. The general and low ecological risks were located in the mining
关 键 词:生态风险 高潜水位 煤矿区 风险识别 风险防范 Landsat-8
分 类 号:TD167[矿业工程—矿山地质测量]
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