Affiliation:
1. Urban Construction College,Eastern Liaoning University,Dandong,China
2. Eastern Liaoning University
Abstract
Three phases of remote sensing image data of Yalu-river estuary wetland taken respectively in 1983、1995 and 2007 were interpreted though ARCGIS software and the change of landscape pattern was analyzed with three categories of indices from the landscape pattern and landscape levels by means of using FRAGSTATS software. Results show that the 1983-2007, the research area of wetland landscape changes drastically, wetland landscape made of natural wetlands to artificial wetland, wetland fragmentation degree deepening, artificial wetland distribution area expanded. During the study period, the influence of human activities on the wetland increase and increase in area of sea aquaculture is the main cause of the yalu estuary wetland area reducing, is also one of the main reasons for the region function of wetland degradation.
Publisher
Trans Tech Publications, Ltd.
Reference8 articles.
1. Jian-guo Wu. Landscape ecology: Pattern, process, scale and hierarchy. Beijing: Higher Education Press, (2000).
2. Qiu-ju Zhang, Bo-jie Fu and Li-xiang Chen, Several problems about landscape pattern change research, Scientia Geographica Sinica, vol. 3, pp.264-270, (2003).
3. GrifithsGH, MatherPM. Remote sensing and landscape ecology: Landscape patterns and landscape change. International Journal of Remote Sensing, 2000, 21: 2537-2539.
4. Maingi JK, Marsh SE. Assessmentof environmental impacts of riverbasin developmenton the riverine forests of eastern Kenya usingmult-i temporal satellite data. International Journal of Remote Sensing, 2001, 22: 2701-2729.
5. Li S N, Wang G X, Deng W and Hu Y M. 2009. Effects of runoff and sediment variation on landscape pattern in the Yellow River Delta of China. Advances in Water Science, 20(3): 325–331.