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基于证据理论的不透水表面扩张模拟及其生态效应研究()

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《山地学报》[ISSN:1008-2186/CN:51-1516]

卷:
期数:: 2016年05期

页码:: 562-570

栏目:: 山地生态与环境

出版日期:: 2016-09-30

文章信息/Info

Title:: Simulation of Impervious Surface Expansion and Its Environmental Effects

文章编号:: 1008-2786-(2016)5-562-09

作者:: 王桂林¹; 2; 杨昆²; 3*; 王保云²; 3; 1.云南师范大学旅游与地理科学学院;
2.西部资源环境地理信息技术教育部工程研究中心;
3.云南师范大学信息学院,云南昆明 650500

Author(s):: WANG Guilin¹; 2; YANG Kun²; 3; WANG Baoyun²; 3; 1.School of Tourism and Geographic Sciences,Yunnan Normal University Kunming,China;
2.The Engineering Research Center of GIS Technology in Western China of Ministry of Education of China;
3.School of Information Science and Technology, Yunnan Normal University Kunming,China

关键词:: 生态系统; 环境效应; 城市扩张; 人文驱动; 滇池流域

Keywords:: environmental effects; Demspter-Shafer evidence theory; impervious surface expansion; human-induced; ecosystem; Dianchi-Basin

分类号:: K909,P208

DOI:: 10.16089/j.cnki.1008-2786.000163

文献标志码:: A

摘要:: 对不透水表面扩张导致的生态环境问题的探讨。认为,不透水表面扩张是人类改变自然的一个最直接的行为方式,其直接改变地表结构导致区域下垫面结构发生变化,得出“人类活动→土地利用/覆被变化→流域生态系统结构改变和功能退化”链式驱动机制。在该链式驱动模式上,采用D-S(Dempster-Shafer)证据理模型分析了不透水表面扩张的驱动机制,量化人类活动对不透水表面扩张的影响程度,最终预测流域在人文环境驱动下的不透水表面扩张。结果表明:2002年、2009年、2018年的滇池不透水表面覆盖率分别为:7.95%,13.40%,25.95%。2002年滇池流域不透水表面覆盖率＜ 10%,即“生态环境脆弱期”,如果没有其他环境压力,其生态系统结构和功能具有可持续性; 2009年滇池流域不透水表面覆盖率在(10～25%)之间,即“生态系统受影响期”,具有明显的生态系统结构和功能退化迹象; 依照目前的驱动机制和发展模式,到2018年,其不透水表面覆盖率＞25%,即“生态功能退化期”,其将带来不可逆转的生态破坏,如生态系统结构高度不稳定,生物多样性少,生态功能退化等现象。因此,要对滇池流域不透水表面扩张进行合理地规划,统筹经济发展和生态环境保护,以避免其带来不可控制的生态系统破坏。

Abstract:: This study explored the environmental effects of impervious surface expansion, thinking that impervious surface expansion was the most direct way to change natural environment. A drive chain from human activities to land use and land cover change, then to ecosystem structure change and function degradation was found. Based on the drive chain, D-S evidence theory was adopted to simulate the expansion of Dianchi-Basion's impervious surface. The results showed that the impervious surface coverage were 7.95% in 2002,13.40% in 2009, 25.95% in 2018, respectively. Sensitive area has 0 to 10% imperviousness and typically has good water quality, good habitat structure, and diverse biological communities if riparian zones are intact and other areas are absent. Impacted streams have 10 to 25% imperviousness and show clear signs of degradation and only fair in-stream biological diversity. Non-supporting area have ＞25% impervious, a highly unstable channel and poor biological condition supporting only pollutant-tolerant fish and insects. Thus, It should be reasonable to plan urbanization formation of Dianchi,giving consideration to economic development and ecological environmental protection, in order to avoid its uncontrolled destruction of ecosystem.

参考文献/References:

[1] Zheng Binghui,Zhi Yongkuan,Zheng Fandong,et al.Dynamic change of ecological environment in Dianchi Lake Basin[J].Environmental Sciences,2002,15(2):16-18[郑丙辉,郅永宽,郑凡东,等.滇池流域生态环境动态变化研究[J].环境科学研究,2002,15(2):16-18]
[2] Zhang hong, Li Hailin, Chen Zhen.Analysis on land use dynamic change and its impact on the water environment in Dianchi Lake drainage area[J].Reaearch of Soil and Water Conservation,2012,19(1):92-97[张洪,黎海林,陈震.滇池流域土地利用动态变化及对流域水环境的影响分析[J].水土保持研究,2012,19(1):92-97]
[3] Shi Feng,Du Pengfei,Zhang Dawei,et al.Nonpoint source pollution simulation in greenhouse region of Dianchi Basin[J]. J T Singh ua Univ(Sci & Tech),2005,45(3):363-366[石峰,杜鹏飞,张大伟,等.滇池流域大棚种植区面源污染模拟[J].清华大学学报(自然科学版),2005,45(3):363-366]
[4] Pu Huijuan.The effect of accumulation of farmland soil nitrogen on the water environment in BaoXiang river basin of Dianchi Lake[D].Kunming:Yunnan Agricultural University,2009:56[普惠娟.滇池宝象河流域农田土壤氮素累积对水环境的影响[D].昆明:云南农业大学,2009:56]
[5] Yang Zisheng.The factor of soil and water conservation measures of soil erosion on sloping cultivated land in the northeast Mountain region of Yunnan province[J].Mountain Research,1999,17(A05):22-24[杨子生.滇东北山区坡耕地土壤侵蚀的水土保持措施因子[J].山地学报,1999,17(A05):22-24]
[6] Zhang Naiming,Yu Yang,Hong Bo,et al. The factor of farmland soil runoff phosphorus pollution load in Dianchi Lake[J].Environmental Science,2003,24(3):155-157[张乃明,余扬,洪波,等.滇池流域农田土壤径流磷污染负荷影响因素[J].环境科学,2003,24(3):155-157]
[7] Yang Shuhua,He Bin.Landscape pattern and non-point source pollution control in Dianchi Lake Basin[M]. Yunnan:Yunnan Science and Technology Press,1998:85[杨树华,贺彬.滇池流域的景观格局与面源污染控制[M].云南:云南科技出版社,1998:85]
[8] Li Jianguo,Dao Hongying, Zhang Liang,et al.Soil and water loss monitoring in the Dianchi watershed[J].Research of Soil and Water Conservation,2004,11(2):75-77[李建国,刀红英,张亮,等.滇池流域水土流失监测[J].水土保持研究,2004,11(2):75-77]
[9] Wu Deling.The causes of Dianchi Lake eutrophication[J]. Environmental Sciences,1992,5(5):26-28[吴德玲.滇池富营养化成因分析[J].环境科学研究,1992,5(5):26-28]
[10] Dempster A P. New methods for reasoning towards posterior distributions based on sample data[J]. The Annals of Mathematical Statistics, 1966: 355-374
[11] Shafer G. A mathematical theory of evidence[M]. Princeton: Princeton university press, 1976.
[12] Ran Y.H,Lia X,Lu L,et al. Large-scale land cover mapping with the integration of multi-source information based on the Dempster-Shafer theory[J].International Journal of Geographical Information Science,2012,26:169-191
[13] Chen Dingyue. Application of D-S evidential theory to compound vibration recognition[J].Chinese Mechanical Engineering,2004,15(18):1610-1613[陈丁跃.D-S理论在复合振动识别中的应用[J].中国机械工程,2004,15(18):1610-1613]
[14] Wahab O A, Otrok H, Mourad A. A cooperative watchdog model based on Dempster-Shafer for detecting misbehaving vehicles[J]. Computer Communications, 2014, 41: 43-54
[15] Liu Xiaoguang,Hu Xuegang. Application of D-S evidence theory to DSS[J].Computer Systems Applications,2010,19(10):112-116[刘晓光,胡学钢.D-S证据理论在决策支持系统中的应用[J].计算机系统应用,2010,19(10):112-116]
[16] Malpica J A, Alonso M C, Sanz M A. Dempster–Shafer Theory in geographic information systems: A survey [J]. Expert Systems with Applications, 2007, 32(1): 47-55
[17] Park N W. Application of Dempster-Shafer theory of evidence to GIS-based landslide susceptibility analysis[J]. Environmental Earth Sciences, 2011, 62(2): 367-376
[18] Li Te,Feng Qi,Zhang Kun. Threat assessment based on entropy weight grey incidence and D-S theory of evidence[J].Application Research of Computers,2013,30(2):380-382[李特,冯琦,张堃. 基于熵权灰色关联和D-S证据理论的威胁评估[J].计算机应用研究,2013,30(2):380-382]
[19] Shao Yi xi,Li Manchun,Chen Zhenjie,et al.Simulationon regional spatial land use patterns using geographically weighted regression:A case study of MengheTown, Changzhou [J].Scientia geography scinica,2010,30(1):92-97[邵一希,李满春,陈振杰,等.地理加权回归在区域土地利用格局模拟中的应用—以常州市孟河镇为例[J].地理科学,2010,30(1):92-97]
[20] Xiong Heigang,Zhang Ya.Study on the driving forces of the land–use change in ShiHezi city[J].Human Geography,2008,103(5):32-36[熊黑钢,张雅.石河子市土地利用变化及主要地类驱动力研究[J].人文地理,2008,103(5):32-36]
[21] Feng Yan,He Daming,Gan Shu. The mian factors to effect the ecological changes in Nujiang drainage basin of longitudinal range-gorge region[J]. Mountain Research, 2008, 26(5): 538-545[冯彦, 何大明, 甘淑. 纵向岭谷区怒江流域生态变化之驱动力分析[J]. 山地学报, 2008, 26(5): 538-545]
[22] Wu F. Calibration of stochastic cellular automata: the application to rural-urban land conversions[J]. International Journal of Geographical Information Science, 2002, 16(8): 795-818
[23] Exum L R, Bird S H, Harrison J, Perkins C A. Estimating and projecting impervious cover in the southeastern United States. EPA Report No.EPA,2005,600/R-05/061(EPA, Washington, DC).

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备注/Memo

备注/Memo:: 收稿日期(Received date):2014-12-11; 改回日期( Accepted):2016-03-02。
基金项目(Foundation item):国家863项目(2012AA121402),高等学校博士学科点专项科研基金(20115303110002)资助。[National 863 project(2012AA121402); Specialized Research Fund for the Doctoral program(20115303110002)。]
作者简介(Biography):王桂林(1986-),女,江西上饶市人,博士,主要从事资源环境信息系统。[Wang Guilin(1986-),female, Shangrao, Jiangxi province, Ph.D, major in resources and environment information system.] E-mail:kawgl@126.com
*通信作者(Author for correspondence):杨昆(1963-),男,云南昆明人,博导,主要从事资源环境信息系统.[Yang Kun(1963-),male,Kunming, Yunnan province,Ph.D supervisor, major in resources and environment information system.] E-mail:kmdcynu@163.com

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更新日期/Last Update: 2016-09-30