河北太行山区土地利用变化及其景观生态风险分析
Analysis of Land Use Change and Landscape Ecological Risk in Taihang Mountain, Hebei Province
DOI: 10.12677/AG.2013.36047, PDF, HTML, 下载: 2,956  浏览: 6,820  国家自然科学基金支持
作者: 许 宁, 王秋贤:中国科学院烟台海岸带研究所,烟台;中国科学院大学,北京;张广录:中国科学院遗传与发育生物学研究所农业资源研究中心,石家庄;高志强:中国科学院烟台海岸带研究所,烟台
关键词: 土地利用变化景观生态风险GIS空间分析河北太行山区Land Use Change; Landscape Ecological Risk Assessment; GIS Spatial Analyst; Taihang Mountain in Hebei Province
摘要: 本文以河北太行山区为研究区,定量研究了1990年、2000年和2008年该区土地利用变化情况,并从土地利用变化和景观结构角度构建景观生态风险评价模型,定量分析了该区景观生态风险的时空动态变化特征。结果表明:18年间,河北太行山区土地利用结构变化明显,各地类之间的转化复杂、频繁,土地利用结构的变化导致景观生态风险指数发生显著的时空差异。研究区景观生态风险总体呈下降趋势,总的分布规律是从西部亚高山区到东部平原区依次升高,呈明显的条带状分布。较低和低生态风险区分布在研究区西部的亚高山和中山区,中生态风险区分布在山区和平原的过渡地区,城乡交错带和湖泊水库区生态风险较高在黄壁庄水库和沙河市的中东部生态风险最高。应加强中级以上景观生态风险区域的生态保护与建设,以实现河北太行山区的生态环境与社会经济的可持续发展。
Abstract: Land use change and landscape ecological risk analysis serve as the basis for realizing regional land ecological security and sustainable development. In this paper, Taihang Mountain in Hebei Province was chosen as the study area. GIS spatial analysis was employed to make the layer algebra operation of the interpretation data of the TM remote sensing images in 1990, 2000 and 2008, quantitatively study the change of land use and the transformation of land use type in this region. Additionally, the ecological security assessment model comprising a landscape disturbance index and a land use sensitivity was established by the respect of land use change and landscape structure to quantitatively analyze spatial-temporal variation character of landscape ecological risk. Results showed that the change of land use and the transformation of land use type showed comparatively complex among the 18 years. What’s more, the main types of transformations of land use are focused among farm land, woodland and grassland. Besides, obvious spatial- temporal difference was found in the distribution of ecological risk associated with the intensity and pattern of land use change. As a whole, the landscape ecological risk showed a downward trend in the past 18 years, with the main principle that distribution increased successively from the western high mountains to the eastern plains, in the obvious zonal structure. Low and lower risk areas distributed mainly in the western mountainous areas; Medium risk areas was mainly in the mountain-plain-transition-belt; The higher and highest risk areas distributed in the rural-urban ecotone, land around lakes and reservoirs; The Huangbizhuang reservoir and the east-central part of Shahe City were highest. To promote sustainable development of the ecological environment and the social economy, ecological protection and construction should be strengthened in the areas with intermediate ecological risk in the Taihang Mountains in Hebei Province.
文章引用:许宁, 张广录, 高志强, 王秋贤. 河北太行山区土地利用变化及其景观生态风险分析[J]. 地球科学前沿, 2013, 3(6): 353-360. http://dx.doi.org/10.12677/AG.2013.36047

参考文献

[1] 吴次芳, 宋戈 (2009) 土地利用学. 科学出版社, 北京, 420- 431.
[2] Bartell, S.M., Gardner, R.H. and O’Neill, R.V. (1992) Ecological risk estimation. Lewis Publishers Inc., Chelsea.
[3] 王娟, 崔保山, 刘杰等 (2008) 云南澜沧江流域土地利用及其变化对景观生态风险的影响. 环境科学学报, 2, 269-277.
[4] 邬建国 (2000) 景观生态学——格局、过程、尺度与等级. 高等教育出版社, 北京, 24-26.
[5] 王根绪, 程国栋 (1999) 荒漠绿洲生态系统的景观格局分析: 景观空间方法与应用. 干旱区研究, 3, 6-11.
[6] 曾辉, 刘国军 (1999) 基于景观结构的区域生态风险分析. 中国环境科学, 5, 454-457.
[7] 陈鹏, 潘晓玲 (2003) 干旱区内陆流域区域景观生态风险分析——以阜康三工河流域为例. 生态学杂志, 4, 116-120.
[8] 李晓燕, 张树文 (2005) 基于景观结构的吉林西部生态安全动态分析. 干旱区研究, 1, 57-62.
[9] Manfred W. (1999) The landscape-ecology risk information system for Namilia concept, methodology and examples of ap- plication. Applied Geography and Development, 53, 7-25.
[10] 孙丽娜, 宋戈 (2012) 松嫩高平原黑土区土地利用/覆被变化及其景观生态风险分析. 水土保持研究, 1, 148-153, 158.
[11] 高宾, 李小玉, 李志刚等 (2011) 基于景观格局的锦州湾沿海经济开发区生态风险分析. 生态学报, 12, 3441-3450.
[12] 李谢辉, 谭灵芝 (2009) 基于景观结构的渭河下游河流沿线区域生态风险分析. 地域研究与开发, 6, 100-105.
[13] Kapustka, L.A., Galbraith, H., Luxon, M., et al. (2001) Using landscape ecology to focus ecological risk assessment and guide risk management decision-making. Toxicology and Industrial Health, 17, 236-246.
[14] 荆玉平, 张树文, 李颖 (2008) 基于景观结构的城乡交错带生态风险分析. 生态学杂志, 2, 229-234.
[15] 谢花林 (2008) 基于景观结构和空间统计学的区域生态风险分析. 生态学报, 10, 911-919.
[16] 曾勇 (2010) 区域生态风险评价——以呼和浩特市区为例. 生态学报, 3, 668-673.
[17] 李谢辉, 李景宜 (2008) 基于GIS的区域景观生态风险分析——以渭河下游河流沿线区域为例. 干旱区研究, 6, 899-903.
[18] Wu, L. and Huang, L. (2005) Landscape ecological risk assess- ment of Dongshan Island. Journal of oceanography in Taiwan Strait/Taiwan Haixia, 24, 35-42.
[19] 李月臣 (2008) 中国北方13省市区生态安全动态变化分析. 地理研究, 5, 1150-1160.