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REMOTE SENSING FOR LAND & RESOURCES    2012, Vol. 24 Issue (4) : 163-168     DOI: 10.6046/gtzyyg.2012.04.27
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A Gradient Analysis of Urban Landscape Pattern of Houma City
PEI Gang, LIU Yang-jie, WANG Guo-liang
College of Urban and Environment Sciences, Shanxi Normal University, Linfen 041001, China
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Abstract  With the support of RS and GIS technology,this paper aims to analyze spatial distribution characteristics of the landscape patterns of Houma City as a case study. The results show that the landscape index can well reflect the changing characteristics of landscape patterns of each buffer zone in the study area. The method of making the buffer zone to extract samples has certain advantages in the analysis of gradient change on circle landscape patterns in plain cities of northern China. This study has certain significance and theoretical reference value for reasonably guiding urban expansion and reducing local ecological degradation caused by urban expansion.
Keywords lunar crater      automatic detection      Hough multi-ellipse transform      edge     
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TP 79

 
Issue Date: 13 November 2012
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LI Chao
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LI Chao,WANG Xin-yuan,LUO Lei, et al. A Gradient Analysis of Urban Landscape Pattern of Houma City[J]. REMOTE SENSING FOR LAND & RESOURCES, 2012, 24(4): 163-168.
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https://www.gtzyyg.com/EN/10.6046/gtzyyg.2012.04.27     OR     https://www.gtzyyg.com/EN/Y2012/V24/I4/163
[1] Bockstael N E.Modeling Economics and Ecology:The Importance of a Spatial Perspective[J].American Journal of Agricultural Economics,1996,78(5):1168-1180.

[2] Swenson J J,Franklin J.The Effects of Future Urban Development on Habitat Fragmentation in the Santa Monica Mountains[J].Landscape Ecology,2000,15(8):713-730.

[3] 吴志强,李德华.城市规划原理[M].4版.北京:中国建筑工业出版社,2010.

Wu Z Q,Li D H.Principle of Urban Planning[M].4th ed.Beijing:China Agriculture and Building Press,2010(in Chinese).

[4] 肖笃宁,李秀珍,高俊,等.景观生态学[M].北京:科学出版社,2003:4-13.

Xiao D N,Li X Z,Gao J,et al.Landscape Ecology[M].Beijing:Science Press,2003:4-13(in Chinese).

[5] 李哈滨,Franklin J F.景观生态学——生态学领域里的新概念构架[J].生态学进展,1988,5(1):23-33.

Li H B,Franklin J F.Landscape Ecology:New Concept Structure in the Field of Ecology[J].The Progress of Ecology,1988,5(1):23-33(in Chinese with English Abstract).

[6] Turner M G.Landscape Ecology:The Effect of Pattern on Process[J].Annual Review of Ecology and Systematics,1989,20(1):171-197.

[7] Luck M,Wu J G.A Gradient Analysis of Urban Landscape Pattern:A Case Study from the Phoenix Metropolitan Region,Arizona,USA[J].Landscape Ecology,2002,17(4):327-339.

[8] Zhang L Q,Wu J P,Zhen Y,et al.A GIS-based Gradient Analysis of Urban Landscape Pattern of Shanghai Metropolitan Area,China[J].Landscape and Urban Planning,2004,69:1-16.

[9] 建设部.GBJ 137-90城市用地分类与规划建设用地标准[S].北京:[s.n.] ,1992.

The Minstry of Construction.GBJ 137-90 Standards of City Land Class Fication and Land Use Planming and Construction[S].Beijing:[s.n.] ,1992(in Chinese).

[10] 朱明,徐建刚,李建龙,等.上海市景观格局梯度分析的空间幅度效应[J].生态学杂志,2006,25(10):1214-1217.

Zhu M,Xu J G,Li J L,et al.Effects of Spatial Extent in Gradient Analysis of Shanghai City Landscape Pattern[J].Chinese Journal of Ecology,2006,25(10):1214-1217(in Chinese with English Abstract).

[11] 陈奕兆,黄家生,李建龙.利用景观梯度法分析张家港市城市景观变化[J].生态与农村环境学报,2011,27(1):104-108.

Chen Y Z,Huang J S,Li J L.Gradient Analysis of Landscape Change of Zhangjiagang[J].Journal of Ecology and Rural Environment,2011,27(1):104-108(in Chinese with English Abstract).

[12] 张景华,吴志峰,吕志强,等.城乡样带景观梯度分析的幅度效应[J].生态学杂志,2008,27(6):978-984.

Zhang J H,Wu Z F,Lyu Z Q,et al.Extent Effect of Landscape Gradient Analysis of Urban-rural Transect[J].Chinese Journal of Ecology,2008,27(6):978-984(in Chinese with English Abstract).

[13] 邬建国.景观生态学——格局、过程、尺度和等级[M].北京:高等教育出版社,2001:202-207.

Wu J G.Landscape Ecology:Pattern,Process,Scale and Hierarchy[M].Beijing:Higher Education Press,2001:202-207(in Chinese).

[14] 张康聪.地理信息系统导论[M].陈健飞,张筱林,译.5版.北京:科学出版社,2010:228-229.

Zhang K C.Introduction to Geographic Information Systerms[M].Translated by Cheng J F,Zhang X L.5th ed.Beijing:Science Press,2010:228-229(in Chinese).

[15] 全国城市规划执业制度管理委员会.城市规划原理[M].2011年版.北京:中国计划出版社,2011:11.

National Urban Planning Practice System Management Committee.Principle of Urban Planning[M].2011 ed.Beijing:China Planning Press,2011:11(in Chinese).

[16] 山西省统计局.山西统计年鉴2010[M/CD].北京:中国统计出版社,2010.

Bureau of Statistics of Shanxi Province.Shanxi Statistical Yearbook 2010[M/CD].Beijing:China Statistics Press,2010(in Chinese).
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