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基于区域土地利用规划的黄河口湿地退缩风险分析
Risk Analysis on the Wetland Shrinkage of the Yellow River Estuary Wetland Based on the Land Use Planning

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田素娟 1   陈为峰 1 *   胡金叶 2   许广永 3   陈龙亮 3   赵娜 3  
文摘 为了解未来15 a土地利用长期规划对湿地变化的影响,明确建设用地扩张对湿地的威胁,揭示湿地丧失的潜在风险,制定积极的湿地保护策略,根据山东省垦利县2005年TM影像和 2005-2020年土地利用规划数据,运用空间分析方法,分析了规划期间建设用地扩展对区域湿地的侵占威胁,并对湿地退缩的潜在风险进行了评估。结果表明:①研究区域现状湿地面积为 107 497.80 hm~2,占全区总面积的46.32%,湿地资源丰富;湿地类型多;②根据现有规划,到 2020年,研究区建设用地平均每年将增长542.50 hm~2;新增建设用地总量中,约29.54%是由湿地转换而来,湿地被建设用地扩展侵占比较严重;③规划期内,湿地面积呈下降趋势,约 5 057.53 hm~2的湿地将转变为建设用地;县域内各乡镇湿地减少的速度和幅度不同,区域差异较明显,其中董集乡和郝家镇变化幅度较大,垦利街道办事处、胜坨镇和永安镇也高于垦利县平均变化水平;在各类湿地类型的变化上,苇地减少幅度最大,15 a期间减少43.87%,灌溉水田面积减少最多,约2 211.75 hm~2;④对湿地被建设侵占的风险分析表明,研究区内处于高风险的湿地面积共有17 024.45 hm~2,低风险湿地面积约为29 846.89 hm~2,无风险湿地面积为60 626.46 hm~2,湿地损失的整体潜在风险较高。
其他语种文摘 With the rapid urban expansion in recent decades, the wetlands and farmlands of China's eastern coastal areas were increasingly destroyed. Many researchers have paid extensive attention to the phenomenon that wetland shrinkage and the landscape patterns change were the results of land-use and urban expansion. Kenli County of Dongying City in Shandong Province is located in the forefront of China's national development strategy named as"efficient ecological economic zone development in Yellow River Delta". As about 60% of the area of International Wetland Nature Reserve is located in the Yellow River Delta, Kenli County has plentiful of wetland resources. In order to know the effects of long-term land use planning on wetland changes, to clarify the threats of construction land expansion to wetland, to discover the potential risk of wetland loss and to develop positive wetland protection strategy, in this study, based on the TM Imagery of Kenli County in 2005 and the land-use planning data from 2005 to 2020, we analyse the threats of construction land expansion to wetland during the planning period by spatial analysis method and evaluate the potential risk of shrinkage wetland. The results showed that: 1) The present wetlands are distributed widely and the types are abundant; the area is 107497.8 hm~2, which is 46.32% of the total study area. 2) According to the plan, the construction land will increase 542.5 hm~2 per year, of which 29.54% will be converted from the wetland, that is to say wetland occupation and encroachment by construction land is very serious. 3) During the planning period, the wetland area tends to decrease and about 5057.53 hm~2 of wetlands will be converted into built-up lands. The rate and extent of wetlands reduction of each village and town are different in Kenli County. In which, greater changes take place in Dongji Village and Haojia Town while changes in Kenli community office, Shengtuo and Yongan towns are above the average level. As for the wetlands type, the reed lands are the fastest in decline with a reduction of 43.87% in 15 years and the area decrease of irrigation fields is the largest, a reduction of approximately 2211.75 hm~2.4) Through the analysis, the high-risk wetland area is 17024.45 hm~2, the low-risk is about 29846.89 hm~2, while the non-risk is 60626.46 hm~2; the overall loss of the wetland has high potential risk.
来源 自然资源学报 ,2011,26(10):1670-1679 【核心库】
关键词 湿地退缩 ; 风险分析 ; 垦利县
地址

1. 山东农业大学资源与环境学院, 山东, 泰安, 271018  

2. 垦利县环境保护局, 山东, 东营, 257500  

3. 垦利县国土资源局, 山东, 东营, 257500

语种 中文
文献类型 研究性论文
ISSN 1000-3037
学科 社会科学总论
基金 山东省优秀中青年科学家科研奖励基金 ;  山东农业大学博士后科研基金
文献收藏号 CSCD:4338341

参考文献 共 20 共1页

1.  Yu X J. Spatial and temporal dynamics of urban sprawl along two urban-rural transects: A case study of Guangzhou, China. Landscape and Urban Planning,2007,79(1):96-109 CSCD被引 55    
2.  HookD D. Wetlands: History, current status, and future. Environmental Toxicology and Chemistry,1993,12:2147-2166 CSCD被引 1    
3.  Herath G. Incorporating community objectives in improved wetland management: The use of the analytic hierarchy process. Journal of Environmental Management,2004,70:263-273 CSCD被引 15    
4.  Jones D. Institutional and landowner perspectives on wetland management in New Zealand. Journal of Environmental Management,1995,45:143-161 CSCD被引 4    
5.  Raharimahefa T. Environmental monitoring of Bombetoka Bay and the Betsiboka Estuary, Madagascar, using multi-temporal satellite data. Journal of Earth Science,2010,21:210-226 CSCD被引 3    
6.  MarfaiM A. Coastal dynamic and shoreline mapping: Multi-sources spatial data analysis in Semarang Indonesia. Environmental Monitoring and Assessment,2008,142:297-308 CSCD被引 1    
7.  郝敬锋. 基于转移矩阵模型的江苏海滨湿地资源时空演变特征及驱动机制分析. 自然资源学报,2010,25(11):1918-1927 CSCD被引 16    
8.  余莉. 基于Landsat-TM影像的鄱阳湖典型湿地动态变化研究. 遥感信息,2010(6):48-54 CSCD被引 11    
9.  于洋. 基于遥感信息的滨海新区湿地变化的分析. 微计算机信息,2010,26(31):187-188 CSCD被引 1    
10.  刘艳芬. 1995--1999年黄河三角洲东部自然保护区湿地景观格局变化. 应用生态学报,2010,21(11):2904-2911 CSCD被引 23    
11.  赵锐锋. 塔里木河中下游地区湿地景观格局变化. 生态学报,2006,26(10):3470-3478 CSCD被引 21    
12.  丁圣彦. 近20年来河南沿黄湿地景观格局演化. 地理学报,2004,59(5):653-661 CSCD被引 74    
13.  黄方. 20世纪70年代以来松嫩平原乌裕尔河中下游流域的湿地演变. 自然资源学报,2006,21(6):949-956 CSCD被引 11    
14.  王志强. 近50年来富锦湿地景观遥感与GIS的时空动态分析. 地球信息科学,2006,8(1):21-29 CSCD被引 10    
15.  宁龙梅. 武汉市湿地景观格局变化研究. 长江流域资源与环境,2005,14(1):44-49 CSCD被引 32    
16.  侯伟. 三江平原挠力河流域50年代以来湿地退缩过程及驱动力分析. 自然资源学报,2004,19(6):725-731 CSCD被引 45    
17.  任丽燕. 环杭州湾城市规划及产业发展对湿地保护的影响. 地理学报,2008,63(10):1055-1062 CSCD被引 11    
18.  Li Yangfan. Landscape effects of environmental impact on bay-area wetlands under rapid urban expansion and development policy: A case study of Lianyungang. Landscape and Urban Planning,2010(94):218-227 CSCD被引 1    
19.  张晓龙. 黄河三角洲滨海湿地的区域自然灾害风险. 自然灾害学报,2006,15(1):160-165 CSCD被引 1    
20.  王根绪. 黑河流域典型区土地利用格局变化及影响比较. 地理学报,2006,61(4):339-348 CSCD被引 50    
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CSCD被引 15

2 陈阳 空间约束背景下海岸带湿地保护边界研究 生态学报,2018,38(3):900-908
CSCD被引 3

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