Vogt, J., Puumalainen, J., Kennedy, P., et al. Integrating information on river networks, catchments and major forest types: towards the characterization and analysis of European landscapes. Landscape and Urban Planning, 2004, 67: 27~41.
Mensing, D.M., Galatowitsch, S.M., Tester J.R. Anthropogenic effects on the biodiversity of riparian wetlands of a northern temperate landscape. Journal of Environmental Management, 1998, 53: 349~377.
[12]
Smart, R.P., Soulsby, C., Cresser, M.S., et al. Riparian zone influence on stream water chemistry at different spatial scales: a GIS-based modeling approach, an example for the Dee, NE Scotland. The Science of the Total Environment, 2001, 280: 173~193.
[13]
Paine, L.K., Ribic, C.A. Comparison of riparian plant communities under four land management systems in southwestern Wisconsin. Agriculture, Ecosystems and Environment, 2002, 92: 93~105.
[14]
Baudry, J., Thenail, C. Interaction between farming systems, riparian zones, and landscape patterns: a case study in western France. Landscape and Urban Planning, 2004, 67: 121~129.
[15]
Muller, E. Mapping riparian vegetation along rivers: old concepts and new methods. Aquatic Botany, 1997, 58: 411~437.
[16]
Apan, A.A., Raine, S.R., Paterson, M.S. Mapping and analysis of changes in the riparian landscape structure of the Lockyer Valley catchment Queensland, Australia. Landscape and Urban Planning, 2002, 59: 43~57.
[17]
Congalton, R.G., Birch, K., Jones, R., et al. Evaluation remotely sensed techniques for mapping riparian vegetation. Computers and Electronics in Agriculture, 2002, 37: 113~126.
[18]
Gutierrez, M., Johnson, E., Mickus, K. Watershed assessment along a segment of the Rio Conchos in Northern Mexico using satellite images. Journal of Arid Environments, 2004, 56: 395~412.
[19]
Xiang, W.N. Application of a GIS-based stream buffer generation model to environmental policy evaluation. Environmental Management, 1993, 17: 817~827.
[20]
Xiang, W.N. GIS-based riparian buffer analysis: injecting geographic information into landscape planning. Landscape and Urban Planning, 1996, 34: 1~10.
[21]
Sparovek, G., Simone Beatriz Lima Ranieri, Anja Gassner, et.al. A conceptual framework for the definition of the optimal width of riparian forests. Agriculture, Ecosystems and Environment, 2002, 90: 169~175.
[22]
Moffatt, S.E., McLachlan, S.M. Understorey indicators of disturbance for riparian forests along an urban–rural gradient in Manitoba. Ecological Indicators, 2004, 4: 1~16.
[23]
Freeman, R.E., Ray, R.O. Landscape ecology practice by small scale river conservation groups. Landscape and Urban Planning, 2001, 56: 171~184.
[24]
Forman, R.T.T. Land Mosaics: the ecology of landscapes and regions. Cambridge University Press. Cambridge, 1997, 208, 213~246.
[25]
X.Wang. Integrating water-quality management and land-use planning in a watershed context. Journal of Environmental Management, 2001, 61: 25~36.
[26]
Naiman, R.J., Decamps, H., Pollpck, M. The role of riparian corridors in maintaining regional biodiversity. Ecological Application, 1993, 3:12~209.
[27]
Narumalani, S., Zhou, Y., Jensen, J. R. Application of remote sensing and geographic information systems to the delineation and analysis of riparian buffer zones. Aquatic Botany,1997, 58: 393~409.
Johnson, W.C., Dixon, M.D., Simons, R., et al. Mapping the response of riparian vegetation to possible flow reductions in the Snake River, Idaho. Geomorphology, 1995, 13:159~173.
[44]
Miller, J.R., Schulz, T.T., Thompson Hobbs, N., et al. Changes in the landscape structure of a southeastern Wyoming riparian zone following shifts in stream dynamics. Biological Conservation, 1995, 72: 371~379.
[45]
Maekawa, Masa-aki., Nakagoshi, Nobukazu. Riparian landscape changes over a period of 46 years, on the Azusa River in Central Japan. Landscape and Urban Planning, 1997, 37: 37~43.
[46]
Qi, J., Marsett, R.C., Moran, M.S., et al. Spatial and temporal dynamics of vegetation in the San Pedro River basin area. Agricultural and Forest Meteorology, 2000, 105: 55~68.
[47]
Inoue, Masahito., Nakagoshi, Nobukazu. The effects of human impact on spatial structure of the riparian vegetation along the Ashida river, Japan. Landscape and Urban Planning, 2001, 53: 111~121.
[48]
Qureshi, M. E., Harrison, S.R. A decision support process to compare riparian revegetation options in Scheu Creek catchment in North Queensland. Journal of Environmental Management, 2001, 62: 101~112.
[49]
Baschak, L.A., Brown, R.D. An ecological framework for the planning, design and management of urban river greenways. Landscape and Urban Planning, 1995, 33: 211~225.
[50]
Asakawa, Shoichiro., Yoshida, Keisuke., Yabe, Kazuo. Perceptions of urban stream corridors within the greenway system of Sapporo, Japan. Landscape and Urban Planning, 2004, 68: 167~182.
[51]
He, C.S., Malcolm, S.B., Dahlberg, K.A., et al. A conceptual framework for integrating hydrological and biological indicators into watershed management. Landscape and Urban Planning, 2000, 49:25~34.
[52]
Aspinall, R., Pearson, D. Integrated geographical assessment of environmental condition in water catchments: Linking landscape ecology, environmental modeling and GIS.Journal of Environmental Management,2000, 59: 299~319.
[53]
Baschak, L.A., Brown, R.D. An ecological framework for the planning, design and management of urban river greenways. Landscape and Urban Planning, 1995, 33: 211~225.
