平原河网地区水系结构特征及城市化响应研究
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摘要
水网是无价的自然遗产,具有重要的遗产价值和历史价值,河网水系通过水系分叉、河流分级、河网密度、河流频度、河流数目以及河流长度等自然因素,影响着河流形态、水系结构、调蓄能力、水循环过程以及区域景观特征,具有鲜明的地域特点。发达国家在基本完成水环境质量控制后,已开始逐步恢复河流的自然状态。近年来国际上逐步开始将河流形态应用于河流健康评价,澳大利亚、美国、英国、南非等都将河流形态因子加入到河流健康状况评估程序中,河流水系的形态及结构已经成为河流管理和健康评价的重要内容。
河流生态系统是地球上受人类影响最为深刻的生态系统之一,千万年来,按照自然规律形成的水系自有一定的规律形态。但是由于人类活动的长期影响,部分河流水系的自然形态及结构已受到影响乃至破坏,河网水系在人为影响下一定程度上偏离了自然发育规律,这也是导致水灾加剧和水环境恶化的重要原因之一。
长江三角洲平原河网地区水网发达,江南水乡的自然与人文景观典型,保持河网水系的健康以及近自然的河网水系结构,对平原水网地区的生态环境建设至关重要。但为了争夺有限的土地资源,平原河网地区在城市化以及社会经济发展进程中,将河道排水改为管道排水,河流水面被人为侵占、河网末端大量村镇级小河流被填埋,河网水系自然的调蓄功能萎缩,高度城市化地区非主干河道不断减少,河网结构趋于简单,河网有单一化以及主干化的趋势,导致平原河网地区河流水系结构破坏以及功能退化的状况比较突出。
20世纪90年代以来,长江三角洲平原河网地区以上海为代表,已陆续开始实施城市河网水系的规划与整治修复工作,开展平原河网地区水系结构以及城市化响应的研究,是合理恢复和保护河网水系的重要基础工作。在城市化进程的不同阶段,受自然因素和人为干扰双重影响的平原河网地区,如何在河流自然分级的基础上,探讨平原河网地区高密度水系结构特征以及Horton规律表现,从景观、形态、结构、功能等方面界定河网水系结构类型,研究平原河网地区水系结构对调蓄效应的影响,以更好地把握平原河网地区河流水系结构可能出现的演变趋势,是平原河网地区在城市化过程中所面临的重要理论与实践课题。
论文依托国家自然科学基金项目、教育部高校博士点基金项目以及上海市水务局相关研究课题,以长江三角洲城市化的平原河网地区—上海为研究区域,基于自然地理学、河流地貌学以及生态水文学等学科有机联系的综合研究方法,对城市化深刻影响下的平原河网地区水系结构特征开展细致研究,以期为恢复和保护平原河网地区的水面率,保护河网水系的良好结构以及近自然的等级发育规
Rivers are invaluable natural heritage. River networks have their effects on river style, stream structure, flood-control capacity and water cycling process through the factors such as stream bifurcation, stream order, river density, river frequency, stream number and length. After water quality having been extremely improved in developed countries, people now have taken it as important target to restore rivers to their natural situation. River style and structure have now becoming the key contents for river management and river health assessment. River systems are one of the most deeply modified eco-systems in the world. Based on natural laws, river systems have their regular features formed in the evolution process. Under the human modification, part of the natural style and structure of river systems have been affected even been destroyed. This is one of the main courses that caused more and more serious flood and water environment pollution.
Yangtze Delta is a plain with well-developed river networks. To keep the health of river networks and natural-like stream structure, that is the precondition for eco-city construction in such regions. However, urbanization changed the landuse. A large amount of branches were engineered out, the natural flood-control capacity of river systems were weakened, stream structure is becoming more and more simple and the diversity of natural river style is seldom observed in urbanized area. Since 1990s, cities in Yangtze delta had begun to replan and restore urban river systems. Therefore, studying the characteristics of river systems and its urbanization response in Ynagtze Delta, that is academic base for restoring and protecting river systems. The following questions have been faced and need to be answered for realizing health urbanization in river network regions, (a) How to define river basin and stream order? (b) The characteristics of stream structure situation and river systems development;(c) the correlation between stream structure and flood control capacity of a river system; (d) How to classify river systems? Are there any regulations that may guide the evolution of river systems?
河流生态系统是地球上受人类影响最为深刻的生态系统之一,千万年来,按照自然规律形成的水系自有一定的规律形态。但是由于人类活动的长期影响,部分河流水系的自然形态及结构已受到影响乃至破坏,河网水系在人为影响下一定程度上偏离了自然发育规律,这也是导致水灾加剧和水环境恶化的重要原因之一。
长江三角洲平原河网地区水网发达,江南水乡的自然与人文景观典型,保持河网水系的健康以及近自然的河网水系结构,对平原水网地区的生态环境建设至关重要。但为了争夺有限的土地资源,平原河网地区在城市化以及社会经济发展进程中,将河道排水改为管道排水,河流水面被人为侵占、河网末端大量村镇级小河流被填埋,河网水系自然的调蓄功能萎缩,高度城市化地区非主干河道不断减少,河网结构趋于简单,河网有单一化以及主干化的趋势,导致平原河网地区河流水系结构破坏以及功能退化的状况比较突出。
20世纪90年代以来,长江三角洲平原河网地区以上海为代表,已陆续开始实施城市河网水系的规划与整治修复工作,开展平原河网地区水系结构以及城市化响应的研究,是合理恢复和保护河网水系的重要基础工作。在城市化进程的不同阶段,受自然因素和人为干扰双重影响的平原河网地区,如何在河流自然分级的基础上,探讨平原河网地区高密度水系结构特征以及Horton规律表现,从景观、形态、结构、功能等方面界定河网水系结构类型,研究平原河网地区水系结构对调蓄效应的影响,以更好地把握平原河网地区河流水系结构可能出现的演变趋势,是平原河网地区在城市化过程中所面临的重要理论与实践课题。
论文依托国家自然科学基金项目、教育部高校博士点基金项目以及上海市水务局相关研究课题,以长江三角洲城市化的平原河网地区—上海为研究区域,基于自然地理学、河流地貌学以及生态水文学等学科有机联系的综合研究方法,对城市化深刻影响下的平原河网地区水系结构特征开展细致研究,以期为恢复和保护平原河网地区的水面率,保护河网水系的良好结构以及近自然的等级发育规
Rivers are invaluable natural heritage. River networks have their effects on river style, stream structure, flood-control capacity and water cycling process through the factors such as stream bifurcation, stream order, river density, river frequency, stream number and length. After water quality having been extremely improved in developed countries, people now have taken it as important target to restore rivers to their natural situation. River style and structure have now becoming the key contents for river management and river health assessment. River systems are one of the most deeply modified eco-systems in the world. Based on natural laws, river systems have their regular features formed in the evolution process. Under the human modification, part of the natural style and structure of river systems have been affected even been destroyed. This is one of the main courses that caused more and more serious flood and water environment pollution.
Yangtze Delta is a plain with well-developed river networks. To keep the health of river networks and natural-like stream structure, that is the precondition for eco-city construction in such regions. However, urbanization changed the landuse. A large amount of branches were engineered out, the natural flood-control capacity of river systems were weakened, stream structure is becoming more and more simple and the diversity of natural river style is seldom observed in urbanized area. Since 1990s, cities in Yangtze delta had begun to replan and restore urban river systems. Therefore, studying the characteristics of river systems and its urbanization response in Ynagtze Delta, that is academic base for restoring and protecting river systems. The following questions have been faced and need to be answered for realizing health urbanization in river network regions, (a) How to define river basin and stream order? (b) The characteristics of stream structure situation and river systems development;(c) the correlation between stream structure and flood control capacity of a river system; (d) How to classify river systems? Are there any regulations that may guide the evolution of river systems?
引文
[1] Aear D A, M.D.Mewson. Environmental Change in river channel: a neglected element. Towards geomorphological typologies, standards and monitoring [J]. The Science of Total Environment, 2003, 310: 17-23
[2] Agnese C, et al. Scaling properties of topologically random channel networks [J]. Journal of Hydrology, 1996, 187:183-193
[3] Apan A A, Raine S R, Paterson M S. Mapping and analysis of changes in the riparian landscape structure of the Lochyer Valley catchment, Queensland, Australia [J]. Landscape and Urban Planning, 2002, 59: 43-57
[4] Arnaud-Fassetta G River chabbel changes in the Rhone Delta (France) since the end of the Little Ice Age: geomorphological adjustment to hydroclimatic change and natural resource management [J]. Catena, 2003, (51) :141-172
[5] Automated channel ordering and node indexing for raster channel networks. Computers & Geoscience [J]. 1997, 23(9): 961-966
[6] Baina M B, Harigb A L, Loucksc D P, et al. Aquatic ecosystem protection and restoration: advances in methods for assessment and evaluation [J]. Environmental Science & Policy, 2000(3):89-98
[7] Barker J R, Ringold P L, Bollman M. Patterns of the dominance in coniferous riparian forests [J]. Forest Ecology and Management, 2002, 166: 311-329
[8] Barmuta L A. Imperilled rivers of Australia: Challenges for assessment and conservation [J]. Aquatic Ecosystem Health and Management, 2003,6(1) 55-68
[9] Bash J S, Ryan C M. Stream Restoration and Enhancement Projects: Is Anyone Monitoring?[J] Environmental Management, 2002,29(6): 877-885
[10] Bertolini L, Djist M. Mobility environments and network cities [J]. Journal of Urban Design, 2003, 8(1): 27-43
[11] Bertolini L. Spatial development patterns and public transport: the application of an analytical model in the Netherlands [J]. Planning Practice and Research, 1999, 14(2): 199-210[12] Boon P J, Wilkinson J, Martin J. The application of SERCON (System for Evaluating Rivers for Conservation) to a selection of rivers in Britain [J]. Aquatic Conservation: Marine and Freshwater Ecosystems, 1998, 8: 597-616
[13] Boon P J.等编.宁远,沈承珠,谭炳卿,等译.河流保护与管理[M].北京:中国科学技术出版社,1997
[14] Boulton AJ. An overview of river health assessment: philosophies, practice, problems, and prognosis [J]. Freshwater Biology, 1999, 45: 469-479
[15] Breen C M, Biggs H, Dent M C. Designing a research programme to promote river basin management [J]. Water Science and Technology, 1995, 32 (5-6) : 103-109
[16] Brierley G J, Cohen T, Fryirs K. Post-European changes to the fluvial geomorphology of Bega catchment, Australia: implications for river ecology [J]. Freshwater Biology, 1999, 41: 839-848.
[17] Brierley G, Fryirs K, Outhet D, et al. Application of the River Styles framework as a basis for river management in New South Wales. Australia [J]. Applied Geography, 2002, 22: 91-122
[18] Brierley G, Fryirs K, Outhet D, et al. Application of the River Styles framework as a basis for river manaement in New South Wales, Australia[J]. Applied Geography, 2002, 22: 91-122
[19] Carlos E P. , Pablo A C. On the fractal structure of networks and dividers within a watershed [J]. Journal of Hydrology, 1995, 187: 173-181
[20] Carlos E. Puente etc. On the fractal structure of networks and dividers within a watershed [J]. Journal of Hydrology, 1996, 187 (1-2) : 173-181
[21] Claps P. , Oliveto G. Reexamining the determination of the fractal dimension of river networks[J]. Water Resources Research, 1996, 32 (10) : 3123-3135
[22] Costa-Cabral M C, Burges S J. Sensitivity of channel network planform laws and the question of topological randomness [J]. Water Resources Research, 1997, 33 (9) : 2179-2197
[23] Crave A, Davy, P. Scaling relationships of channel networks at large scales: Examples from two large-magnitude watersheds in Brittany, France [J]. Technophysics, 1997, 269: 91-111
[24] David G. Tarboton. Fractal river networks, Horton's laws and Tokunaga cyclicity[J]. Journal of Hydrology, 1996, 187 (1-2) : 105-117
[25] David J. Gilvear, Fluvial geomorphology and river engineering: furore roles utilizing a??fluvial hydrosystems framework [J]. Geomorphology, 1999, (31) : 229-245
[26] David R, MacDonald L H. Diagnostic approach to stream channel assessment and monitoring [J]. Journal of the American Water Resources Association, 2002, 38 (1) : 1-16
[27] David R.Maidment主编.张建云等译.水文学手册[M].北京:科学出版社,2002.10
[28] Deng Z-Q, Singh V. P. . Optimum channel pattern for environmentally sound training and management of alluvial rivers [J]. Ecological Modelling, 2002, 154: 61-74
[29] Desmond J S, Zedler J B, Williams G D. Fish use of tidal creek habitats in two southern California salt marshes [J]. Ecological Modelling, 2000, 14: 233-252.
[30] Eash D A. A geographic information system procedure to quantify drainage basin hydrological processes [J]. Water Resources Research, 1994, 30: 1-8
[31] Edgar B, Schofield N, Campbell A. Informing river management policies and programs with science [J]. Water Science and Technology, 2001, 43 (9) : 185-195
[32] Ediwards A. M. C. , Freestone R. J. , crockett C. P. . River management in the Humber catchment [J]. The science of the total environment, 1997, 194: 235-246
[33] Ellis J. B. Integrated approaches for achieving sustainable development of urban storm drainage [J]. Water Science Technology, 1995, 32 (1) : 1-6
[34] Fagherazzi S. Tidal networks 1: Automatic network extraction and preliminary scaling features from digital terrain maps [J]. Water Resources Research, 1999, 35 (12) : 3891-3904
[35] Fairweather P G. . State of environment indicators of "river health" : exploring the metaphor [J]. Freshwater Biology, 1999, 41: 211-220
[36] Freedman T G. Calculating catchment areas with divergent flow based on a regular grid [J]. Computers & Geosciences, 1991, 17: 413-432
[37] Frissell C A, Liss W J, Warren C E, et al. A hierarchical framework for stream habitat classification: viewing streams in a watershed context [J]. Environmental Management, 1986, 10: 199-214
[38] Fryirs K. Guiding principles for assessing geomorphic river condition: application of framework in the Bega catchment, South Coast, New South Wales, Australia [J]. Catena, 2003, 53: 17—52
[39] Garbrecht J, Wartz L W. Automated channel ordering and node indexing for raster channel networks [J]. Computers & Geosciences, 1997, 23 (9) : 961-966[40] Gamier J, Billen G, Hannon E, et al. Modelling the transfer and retention of nutrients in the drainage network of the Danube River [J]. Estuaries, Coastal, and Shelf Sciences, 2002, 54: 285-308
[41] Greenwood-Smith S L. The use of rapid environmental assessment techniques to monitor the health of Australian rivers [J]. Water Science and Technology, 2002, 45 (11) : 155-160
[42] Hansen W F. Identifying stream types and management implications. Forest Ecology and Management [J]. 2001, 143: 39-46
[43] Hart BT, Davies PE, Humphrey CL, et al. Application of the Australian river bioassessment system (AUSRIVAS) in the Brantas River, East Java, Indonesia [J]. Journal of Environmental Management 2001 (62) : 93-100
[44] Hitomi Matsuo Kato. Control and conservation of the water environment in the creek region on the Ariake coast of Japan [J]. Ecological engineering, 1998, 11: 261-276
[45] Inland Waterways Amenity Advisory Council. Planning a future for the inland waterways: A good practice guide. 2001. http://www.defra.gov.uk/environment/bw/iwaac/index.htm.
[46] James LD. NSF research in hydrological sciences [J]. Journal of Hydrology, 1995, 172: 314.
[47] Janauer Georg A. . Ecohydrology: fusing concepts and scales [J]. Ecological Engineering, 2000, 16: 9-16
[48] Janusz Niemczynowicz. Urban hydrology and water management——present and future challenges [J]. Urban water, 1999, (1) : 1-14
[49] Karr J K. Bioligical integrity: a long neglected aspect of water resource management[J]. Ecological Applications, 1991, 1 (1) : 66-84
[50] Kirchner J W.,汪兴华译.Horton规律统计的必然性与河网的随机分布[J].世界地质,1994,13(4):107-111
[51] Kirstie Fryirs. Guiding principles for assessing geomorphic river conditioncondition: application of a framework in the Bega catchment, South Coast, New South Wales, Australia [J]. Catena, 2003, (53) : 17-52
[52] Kondolf G M, Micheli E R. Evaluating stream restoration projects [J]. Environmental Management; 1995, 19 (1) : 1-15
[53] La Barbera P, Rosso R. On the fractal dimension of stream newworks [J]. Water Resources Research. , 1989, 25 (4) : 735-741[54] Ladson A R, White L J. An index of stream condition: Reference manual [M], Melbourne, Victorian, Australian: Department of Natural Resources and Environment, 1999. 1-65. http://www.vicwaterdata.net/vicwaterdata/data_warehouse_content.aspx?option=7.
[55] Ladson A R,White L J, Doolan J A, et al. Development and testing of an Index of Stream Condition for waterway management in Australia[J]. Freshwater Biology,1999,41:453 — 468
[56] Langbein W B, Leopold L B. Quasi-equilibrium state in channel morphology [J]. American Journal of Science, 1964, 262: 782-79
[57] Leppard G G, Munawar M. The ultrastructural indicators of aquatic ecosystem health [J]. Journal of Aquatic Ecosystem Health, 1992,1(4):309-317
[58] Levinson D M. Accessibility and the journey to work [J]. Journal of Transport Geography, 1998,6(1): 11-21.
[59] Marani M, Belluco E, D'Alpaos A, et al. On the drainage density of tidal networks[J]. Water Resources Research, 2003,39(2): 1029-1040
[60] Mark A., Wiering, Peter P.J. Driessen. Beyond the art of diking: interactive policy on river management in the Netherlands [J]. Water policy, 2001,(3): 283-296
[61] Mary E. Power, Gary Parker, William E. Dietrich et al. How does floodplain width affect floodplain river ecology? A preliminary exploration using simulations [J]. Geomorphology, 1995, 13:301-317
[62] McNamara J P,Kane D L, Hinzman L D. An analysis of an arctic channel network using a digital elevation model [J]. Geomorphology. 1999, 29: 339-353
[63] Meyckal M, Horowitz A J, Grosbois C. The geochemistry of Seine River basin particulate matter: distribution of an integrated metal pollution index [J]. Science of the Total Environment, 2004, 328: 219-236
[64] Meyer J L. Stream health: incorporating the human dimension to advance stream ecology [J]. Journal North American Benthological Society, 1997,16(2):439-447
[65] Moddock I. The importance of physical habitat assessment for evaluating river health [J]. Freshwater Biology, 1999,(41):373-391
[66] Morisawa M E. Development of drainage system on an Upraised Lake Floor [J]. Amer. Jour. of Science, 1964,262: 341-354[67] Nazrul Islam. The open approach to flood control: the way to the future in Bangladesh [J]. Futures, 2001, 33: 783-802
[68] Nil Pasaogullari, Naciye Doratli. Measuring accessibility and utilization of public spaces in Famagusta [J]. Cities, 2004, 21(3), 225-232
[69] Nu Hoai V. N. et al. Efficiency of a small artificial wetland with an industrial urban catchment [J]. The Science of the Total Environment, 1998, 241: 221-237
[70] Obuya Nishimura, et al. , Novel water facilities for creation of comfortable urban micrometeorology [J]. Solar Energy, 1998, 64 (4-6) : 197-207
[71] Orfeo O, Stevaux J. Hydraulic and morphological characteristics of middle and upper reaches of the parana River (Argentina and Brazil) [J]. Geomorphology, 2002, 44: 309-322
[72] Petersen R C. The RCE: a Riparian, Channel, and Environmental Inventory for small streams in the agricultural landscape [J]. Freshwater Biology, 1992, 27: 295-306.
[73] Qiuming Cheng etc. GIS-based statistical and fractal/multifractal analysis of surface stream patterns in the Oak Ridges Moraine [J]. Computes & Geosciences, 2001, 27: 513-526
[74] R.赫尔曼著.水文学导论[M].北京:高等教育出版社.1985
[75] Rao Z. , Moore I. N. , Connell P. E O etc. An interactive management system for operational control of Kirazdere Reservoir (Turkey) [J]. Water resources management, 2001, 15: 223-234
[76] Rhonda Y. , Brain W. , Roy V. A. . Urban effects on flood plain natural hazards: Wolf River, Tennessee, USA [J]. Engineering Geology, 2003, 70: 1-15
[77] Rinaldo R, Fagherazzi S, Lanzoni S, et al. Tidal networks 2: Watershed delineation and comparative network morphology [J]. Water Resources Research, 1999, 35 (12) : 3905-3917
[78] Rodriguez-Iturbe I. Ecohydrology: a hydrologic perspective of climate-soil-vegetation dynamics [J]. Water resources research, 2000, 36 (1) : 3-10
[79] Rosso R, Bacchi B, La Barbera P. Fractal relation of mainstreams length to catchment area in river networks [J]. Water Resources Research, 1991, 27 (3) : 381-387
[80] Roth G. , La Barbera P. , Greco M. On the description of the basin effective drainage structure [J]. Journal of Hydrology, 1996, 187: 119-135
[81] Sanderson E W, Foin T C, Ustin S L. A simple empirical model of salt marsh plant spatial distributions with respect to a tidal channel network [J]. Ecological Modelling, 2001, 139:??293-307
[82] Schuller D J, Rao A R, Jeong G D. Fractal characteristics of dense stream networks [J]. Journal of Hydrology, 2001, 1-16
[83] Scrimgeour G J, Wicklum D. Aquatic ecosystem health and integrity: problem and potential solution [J]. Journal of North American Benthlogical Society, 1996, 15(2): 254-261
[84] Shoichiro Asakawa, Keisuke Yoshida, Kazuo Yabe. Perceptions of urban stream corridors within the greenway system of Sapporo, Japan [J]. Landscape and Urban Planning, 2004 , 68: 167-182
[85] Shreve R L. Stream length and basin areas in topologically random networks [J]. J. Geol, 1969, 1969, 77:397-414
[86] Smart J S. Topologically properties of channel networks [J]. Geol. Soc. Amer. Bull, 1969, 80:757-774
[87] Smith M.J.,Kay W.R., Edward D.H.D.,et al.. AusRivAS: using macroinvertebrates to assess ecological condition of rivers in Western Australia [J]. Freshwater Biology, 1999(41):269-282
[88] Surian Nicola, Rinaldi Massimo. Morphological response to river engineering and management in alluvial channels in Italy [J]. Geomorphology, 2003,50 (4):307-326
[89] Susan C. Spackman, Jeffrey W. Hughes. Assessment of minium stream corridor width for biological conservation: species richness and distribution along mid-order streams in Vermont, USA [J]. Biological Conservation, 1995,71: 325-332
[90] Talen E. Measuring the public realm: a preliminary assessment of the link between public space and sense of community [J]. Journal of Architectural and Planning Research, 2000, 17(4): 344-359
[91] Tanzhou Luo. Fractal structure and properties of stream network [J]. Water Resources Research, 1992, 28(10): 2981-2988
[92] Tarboton D G., et al. The fractal nature of river networks [J]. Water Resources Research, 1988,24: 1317-1322
[93] Veltri M., Veltri P., Maiolo M. On the fractal description of natural channel networks [J]. Journal of Hydrology, 1996,187: 137-144
[94] Wang X, Yin Z-Y. A comparison drainage networks derived form digital elevation models at??two scales [J]. Journal of Hydrology, 1998, 201: 221-241
[95] Wilchelm L F. Brinkmann, Artur Magnuszewski, Steffen Zober. The structure and function of the Vistual River floodplain near Plock, Poland [J]. Ecological engineering, 2000, 16: 159-166
[96] Wright J F, Furse M T, Moss D. River classification using invertebrates: RIVPACS applications [J]. Aquatic Conservation: Marine and Freshwater Ecosystems, 1998, 8: 617-631
[97] Yutaka T, Juha I U. Evolution of river management in Japan: from focus on economic benefits to a comprehensive view[J]. Global Environmental Change, 2004, 14: 63-70
[98] 艾南山,李后强.从曼德布罗特景观到分形地貌学[J].地理学与国土研究,1993,13-17
[99] 白平良,付明胜.小流域坝系规划中有关技术问题探讨[J].山西水土保持科技,2003,(1):15-16
[100] 蔡庆华,唐涛,刘健康.河流生态学研究中的几个热点问题[J].应用生态学报,2003,14(9):1573-1577
[101] 陈德超,李香萍,杨吉山.上海城市化进程中的河网水系演化[J].城市问题,2002,(5):31-35
[102] 陈浩.陕北黄土高原沟道小流域形态特征分析[J].地理研究,1986,5(1):82-92
[103] 陈美发.上海城市河流治理现状与展望[J].城市道桥与防洪,2003,(1):44-45
[104] 陈庆江,赵敏华.上海市城市区域除涝标准的探讨[J].上海水务,2000,(1):1-5
[105] 陈铁:北京城市中心区水系综合治理工程[J].人民珠江,1998,(4):12-16
[106] 陈彦光,李宝林.吉林省水系构成的分形研究[J].地球科学进展,2003,18(2):178-184
[107] 陈彦光,刘继生.水系结构的分形与分维——Horton水系定律的模型重建及其参数分析[J].地球科学进展,2001,16(2):178-183
[108] 陈永宗.大兴安岭地区河系结构的基本规律[J].地理学报,1980,35(4):325-337
[109] 陈永宗.黄河中游黄土丘陵区的沟谷类型[J].地理科学,1984,4(4):15-20
[110] 陈玉娟.中外城市沿河地带功能开发比较研究[J].城市规划.2000,24(9),23-25.
[111] 陈征琳,邹逸麟,刘君德.上海地名志[M].上海:上海社会科学院出版,1998:59-85
[112] 陈祖军,黄士力,周建国.关于区域水务规划若干问题的探讨[J].中国给水排??水,2003,19(11):29-31
[113] 承继成,江美球.流域地貌数学模型[M].北京:科学出版社,1986
[114] 地理学词典编辑委员会.地理学词典[M].上海:上海辞书出版社,1982
[115] 北京大学,南京大学等.地貌学[M].北京:人民教育出版社,1978
[116] 董连科.分形理论及其应用[M].沈阳:辽宁科学出版社,1991
[117] 董宇,路秀琴.分流水道类型特征及意义[J].沉积学报,1996,14(3):162-167
[118] 董哲仁.河流生态恢复的目标[J].中国水利,2004(10):56-58
[119] 董哲仁.河流形态多样性与生物群落多样性[J].水利学报,2003(11):1-7
[120] 段武舰.水系对城市化作用的再认识[J].中国勘察设计,2003,(7):77-78
[121] 方子云,汪达.国际水资源保护和管理的最近动态——水与可持续发展[J].水资源保护,2000(1):1-6
[122] 冯金良,张稳.海滦河流域水系分形[J].泥沙研究,1999,(1):62-65
[123] 冯平,冯焱:河流形态特征的分维计算方法[J].地理学报,1997,52(4):324-330
[124] 弗雷德里克.斯坦纳著.周年兴等译.生命的景观—景观规划的生态学途径[M].北京:中国建筑工业出版社,2004
[125] 付明胜,任兆选,白平良.地貌几何数学模型在黄土高原沟道分级和坝系规划中的应用[J].中国水土保持科学,2003,1(4):25-28
[126] 傅军,丁晶,邓育仁.嘉陵江流域形态及流量过程分维研究[J].成都科技大学学报,1995,(1):1-9
[127] 高华端,杨世逸.乌江流域水系结构分析[J].贵州农学院丛刊,1994,23(1):104-114
[128] 高华中,姚亦锋.近50年来人类活动对博斯腾湖水位影响的量化研究[J].地理科学,2005,25(2):305-309
[129] 高鹏,李后强,艾南山.流域地貌的分形研究[J].地球科学进展,1993,8(5):63-70
[130] 龚家栋,李吉钧.黑河流域水系发育特征[J].中国沙漠,20(4):389-392
[131] 顾慰祖.水文学基础[M].水利电力出版社,1984
[132] 郭跃.沟谷系统结构理论和实践意义的探讨[J].重庆师范学院学报,1995,12(2):4-13
[133] 韩昌来,毛锐.太湖水系结构特点及其功能的变化[J].湖泊科学,1997,9(4):300-306[134] 韩龙喜,朱羿,杨积德.水系局部改变对河网水情及水质影响的分析[J].水资源保护,2004,(4):31-41
[135] 韩宇平,阮本清.区域水安全评价指标体系初步研究[J].环境科学学报,2003,23(2):267-272
[136] 郝明龙,深圳水文特征与影响因素简介[J].人民珠江,1998,(4):13-16
[137] 郝振纯,李丽.基于DEM的数字水系生成[J].水文,2002,22(4):8-10
[138] 河海大学环境科学与工程学院.苏州市城市中心区河道整治近期规划研究报告[R].2003
[139] 何隆华,赵宏.水系的分形维数及其含义[J].地理科学,1996,16(2):124-128
[140] 华东师范大学资源与环境学院,上海市河道管理处.基于遥感和GIS的上海市河道变化调查项目报告[R].2005
[141] 黄光宇,陈勇.论城市生态化与生态城市[J].城市环境与城市生态,1999,12(6):28-31
[142] 黄淑玲,骆高远.平原水体气候效应及合理利用初探——以嘉兴市为例.地域研究与开发[J].1996,15(2):94-96
[143] 黄锡荃.水文学[M].北京:高等教育出版社,1993
[144] 黄奕龙,傅伯杰,陈利顶.生态水文过程研究进展[J].生态学报,2003,23(3):580-587
[145] 季永兴,何刚强.城市河道整治与生态城市建设[J].水土保持研究,2004,11(3):245-247
[146] 贾绍凤,王国,夏军,等.社会经济系统水循环研究进展[J].地理学报,2003,58(2):255-262
[147] 姜永清,邵明安,李占斌,等.黄土高原流域水系的Horton级比数和分形特性[J].山地学报,2002,20(2):206-211
[148] 姜跃良,王美敬,李然,罗麟.生态水力学原理在城市河流保护及修复中的应用[J].水利学报,2003,(8):75-78
[149] 金德生,陈浩,郭庆伍.流域物质与水系及产沙间非线性实验研究[J].地理学报,2000,55(4):439-448
[150] 金德生,张欧阳,陈浩.侵蚀基准面下降对水系发育与产沙影响的实验研究[J].地理研究,2003,22(5):560-570
[151] 金卫斌,刘章勇.围湖垦殖对湖泊调蓄功能的累加效应分析[J].长江流域资源与环境,2003,12(1):74-77[152] 靳长兴.Γ型地貌瞬时单位线探讨[J].地理研究,1990,9(4):61-69
[153] 靳长兴.流域地貌结构中的定量关系及理论解释[J].陕西机械学院学报,1993,9(1):45-51
[154] 黎安田.长江1998洪水与防汛抗洪[J].人民长江,1999,30(1):1-8
[155] 李昌峰,张鸿辉.建国以来人类活动对湖北省四湖地区水环境的影响研究[J].国土与自然资源研究,2003,4:68-70
[156] 李长安,殷鸿福,俞立中等.关于长江流域生态环境系统演变与调控研究的思考[J],长江流域资源与环境,2001,(10)6:550-557
[157] 李长兴.城市水文的研究现状与发展趋势[J].人民珠江,1998,(4):9-12
[158] 李国英.黄河治理的终极目标是“维持黄河健康生命”[J].中国水利,2004(1):6—7
[159] 李后强,艾南山.分形地貌学及地貌发育的分形模型[J].自然杂志,1991,15(7):516-519
[160] 李丽娟,郑红星.海滦河流域河流生态系统环境需量计算[J].地理学报,2000,55(4):495-500
[161] 李茂田,丁霞,陈中原.40年来长江九江河段河道演变及其趋势预测[J].地理科学,2004,24(1):76-82
[162] 李平华,陆玉麒.可达性研究的回顾与展望[J].地理科学进展,2005,24(3):69-78
[163] 李天杰.上海市区城市化对降水的影响初探[J].水文,1995,15(3):34~41.
[164] 李义天,何用,邓金运等.多因素作用下洞庭湖洪水调蓄量的变化[J].安全与环境学报,2001,1(6):26-30
[165] 梁虹,卢娟.喀斯特流域水系分形、熵及其地貌意义[J].地理科学,1997,17(4):310-315
[166] 刘昌明主编.21世纪中国水文科学研究的新问题新技术和新方法[M].北京:科学出版社.2001
[167] 刘昌明,孙睿.水循环的生态学方面:土壤/植被/大气系统水分能量平衡研究进展[J].水科学进展,1999,10(3):251-259
[168] 刘俊.城市雨洪模型研究[J].河海大学学报,1997,25(6):20-24
[169] 刘鹏飞,骆广梁.头道沟小流域侵蚀地貌的数学统计模型[J].内蒙古林学院学报,1992,(1):82-85
[170] 刘树坤.国外防洪减灾发展趋势分析[J].水利水电科技进展,2000,20(1):2-9[171] 刘苏峡.世纪之交的水文研究[J].水科学进展,2001,12(1):113-116
[172] 刘晓涛.关于城市河流治理若干问题的探讨[J].上海水务,2001,(3):1~5
[173] 刘毅,贾若祥,侯晓丽.中国区域水资源可持续利用评价及类型划分[J].环境科学,2005,26(1):42-46
[174] 鲁春霞,谢高地,成升魁.河流生态系统的休闲娱乐功能及其价值评估[J].资源科学,2001,23(5):77-81
[175] 陆静依编译,美国环保署水生生物资源生态恢复指导性原则[J].上海水务,2001,(3):50-53
[176] 陆中臣.流域地貌系统[M].大连:大连出版社,1987
[177] 罗文锋.Horton定律及分枝网络结构的分形描述[J].水科学进展,1998,9(2):118-123
[178] 罗新正,孙广友.河堤环境效应略论[J].环境科学研究,2001,14(2):11-13
[179] 毛锐.建国以来太湖流域三次大洪水的比较及对今后治理洪涝的意见[J].湖泊科学,2000,12(1):12-18.
[180] 宁祥葆.追求和谐——塑造上海江河新形象[J].上海水利,2002,5(2):26-27
[181] 牛文元.现代应用地理[M].北京:科学出版社,1987
[182] 彭文成.安宁河流域水道级别的重新划分[J].四川水利,1995,15(2):34-39
[183] 任立良,刘新仁.数字高程模型信息提取与数字水文模型研究进展[J].水科学进展,2000,11(4):463-469
[184] 阮仁良.平原河网地区水资源调度改善水质的机理和实践研究[D].上海:华东师范大学博士学位论文,2003
[185] 芮孝芳.水文学原理[M].北京:中国水利水电出版社,2004
[186] 上海市宝山区人民政府.上海市宝山区地名志[M].上海:上海市科学技术文献出版社,1995
[187] 上海市长宁区人民政府.上海市长宁区地名志[M].上海:学林出版社,1988
[188] 上海市防汛指挥部.上海市城市防洪排水规划汇编[R].,1999
[189] 上海市河道管理处.上海市河道普查报告(研究报告)[R].2001
[190] 上海市河道污染综合治理联席会议办公室.碧水清波映申城—上海中小河道三年综合整治成果[R].2001[191] 上海市虹口区志编篡委员会.上海市虹口区志[M].上海:上海社会科学院出版社,1999
[192] 上海市黄浦区人民政府.上海市黄浦区地名志[M].上海:上海社会科学院出版社,1989
[193] 上海市静安区人民政府.上海市静安区地名志[M].上海:上海社会科学院出版社,1988
[194] 上海市卢湾区人民政府.上海市卢湾区地名志[M].上海:上海社会科学院出版社,1990
[195] 上海市闵行区人民政府.上海市闵行区地名志[M].上海:中国大百科全书出版社上海分社,1991
[196] 上海市南市区志编篡委员会.上海市南市区志[M].上海:上海社会科学院出版社,1987
[197] 上海市农业区划委员会办公室.上海市地表水资源和水利区划[R].上海市农业区划委员会,1984
[198] 上海市普陀区人民政府.普陀区地名志[M].上海:学林出版社,1988
[199] 上海市人民政府.上海市城市总体规划(1999-2020)[R].1999
[200] 上海市水利局规划室.上海市水利总体规划说明[R].上海市水利局规划室,1994
[201] 上海市水文总站.上海市径流系数及其地表径流单位污染负荷普查分析报告[R].2000
[202] 上海市水务规划设计研究院.宝山区水利规划[R].2004
[203] 上海市水务局.上海市水面积变化调查暨水生态功能初步调研报告[R].2002
[204] 上海市水务局.上海市水环境功能区划[R].2004
[205] 上海市水务局.上海市城镇雨水系统专业规划[R].2002
[206] 上海市水务局.上海市污水系统专业规划[R].2002
[207] 上海市徐汇区人民政府.上海市徐汇区地名志[M].上海:上海社会科学院出版社,1989
[208] 上海市杨浦区人民政府.上海市杨浦区地名志[M].上海:学林出版社,1989
[209] 上海市闸北区志编篡委员会.上海市闸北区志[M].上海:上海社会科学院出版社,1998
[210] 上海水利志编纂委员会.上海水利志[M].上海:上海社会科学院出版社,1997
[211] 上海图书馆.老上海地图[M].上海:上海画报出版社,2001
[212] 上海徐汇区水资源办公室.上海徐汇区水资源普查报告[R].2001
[213] 尚宏琦,鲁小新.国内外典型江河治理经验及水利发展理论研究[M].北京:黄河水利出版社,2003[214] 沈玉昌,龚国元.河流地貌学[M],北京:科学出版社,1986
[215] 宋庆辉,杨志峰.对我国城市河流综合管理的思考[J].水科学进展,2002,13(3):377-382
[216] 孙鹏,王志芳.遵从自然过程的城市河流和滨水区景观设计[J].城市规划,2000,24(9):19-22
[217] 孙鹏森,刘世荣.大尺度生态水文模型的构建及其与GIS集成[J].生态学报,2003,(10):2115-2124
[218] 谭炳卿,孔令金,尚化庄.河流保护与管理综述[J].水资源保护,2002,18(3):54-57
[219] 唐敏.上海城市化过程中的河网水系保护及相关环境效应研究[D].上海:华东师范大学硕士学位论文,2004
[220] 唐涛,蔡庆华,刘健康.河流生态系统健康及其评价[J].应用生态学报,2002,13(9):1191-1194
[221] 汪富泉.河流网络的分形与自组织及其物理机制[J].水科学进展,2002,13(3):368-376
[222] 汪松年,阮仁良.上海市水资源普查报告[M].上海:上海科学技术出版社,2001
[223] 汪松年.上海水生态修复调查与研究[M].上海:上海科学技术出版社,2005
[224] 汪耀武.太湖流域水环境恶化的思考[J].污染与防治,1999,(1):12-18
[225] 王栋,史运良,王腊春.浅析太湖流域水资源系统退化与修复对策[J].水资源保护,2003,(6):41-42
[226] 王根绪,刘桂民,常娟.流域尺度生态水文研究评述[J].生态学报,2005,25(4):892-903
[227] 王国安.关于我国水库的防洪标准问题[J].水利学报,2002,(12):22-25
[228] 王国安.水文定理、定律和假说初探口[M].郑州:黄河水利出版社,2002
[229]王华杰.城市圩区雨水的排放模式探讨[J].中国给水排水,2002,18(11):33-35
[230] 王慧玲,梁杏.洞庭湖调蓄作用分析[J].地理与地理信息科学,2003,19(3):63-66
[231] 王建国.吕志鹏.世界城市滨水区开发建设的历史进程及其经验.城市规划.2001,25(7),41-46.
[232] 王开元.浅谈德法荷三国防洪减灾的主要做法和经验[J].人民珠江.2001,(1):33-35
[233] 王克林,章春华,易爱军.洞庭湖区洪涝灾害形成机理与生态减灾和流域管理对策[J].应用生态学报,1998,9(6):561-568[234] 王腊春,谢顺平,周寅康,都金康,潘华良.太湖流域洪涝灾害淹没范围模拟[J].地理学报,2000,55(1):46-54
[235] 王腊春,许有鹏,周寅康等.太湖水网地区河网调蓄能力分析[J].南京大学学报(自然科学版),1999,35(6):712-718
[236] 王玲,吴道喜.从莱茵河管理看西方河流管理理念的转变[J].水利水电快报,2001,22(18):27-28
[237] 王倩,邹欣庆,朱大奎.基于GIS技术的秦淮河流域水系分维研究[J].水科学进展,2002,13(6):751-756
[238] 王少平,俞立中,许世远,程声通.基于GIS的苏州河非点源污染的总量控制[J],中国环境科学,2002,(22)6:520-524
[239] 王随继,谢小平,程东升.网状河流研究进展述评[J].地理科学进展,2002,21(5):440-448
[240] 王薇,李传奇.河流廊道与生态修复[J].水利水电技术,2003,34(9):56-58
[241] 王协康,方铎.流域地貌系统定量研究的新指标[J].山地研究,1998,16(1):8-12
[242] 王学雷,William A Gough,吴宜进.江汉平原典型区域洪涝调蓄能力估算研究.武汉大学学报(理科版),2002,48(4):461-465
[243] 王彦成,李宁,王弋.用TM影像对罕台川流域水系特征的分析[J].内蒙古水利,1994,(4):45-46.
[244] 王颖,盛静芬.滨水环境与城市发展的初步研究[J].地理科学,2002,22(1):12-17
[245] 王颖,王腊春,王栋,陈文瑞.长江三角洲水资源水环境承载力、发展变化规律与永续利用之对策研究[J].水资源保护,2003,(6):34-40
[246] 王永兴.绿洲生态系统及其环境特征.新疆玛纳斯湖的干涸对周围植被影响初探[J].干旱区地理,1987,10(4):30-36.
[247] 王准.上海河道新型河岸绿化种植建设[J].上海交通大学学报(农业科学版),2002,20(1):53-57
[248] 卫明.恢复城市水环境的自然生态[J].上海建设科技,2002,(3):15-17
[249] 魏梓兴,蔡恭杰,吴阿娜,等.河流管理中引入河流健康状况评价的意义与思考[J].中国水利,2004,(17):18-19
[250] 吴阿娜,车越,杨凯,赵军.城市内河综合整治效益的后评估方法及实证.水利学报.2005,36 (9):1088-1093[251] 吴阿娜,杨凯,车越,等.河流健康状况的表征及其评价[J].水科学进展,2005,16(4):602-608
[252] 吴阿娜.河流健康状况评价及其在河流管理中的应用[D].上海:华东师范大学硕士学位论文,2005
[253] 吴保生,陈红刚,马吉明.美国基西米河生态修复工程的经验[J].水利学报,2005,36(4):473-477
[254] 吴文敏,戴淑英,王长新.天山北坡河流的数学地貌特征及河流产沙分析初探[J].八一农学院学报,1990,13(2):21-30
[255] 西北师范学院地理系.中国自然地理图集[M].北京:地图出版社,1984
[256] 夏军,风华丽,谈戈,等.生态水文学概念、框架和体系[J].灌溉排水学报,2003,22(1):4-10
[257] 夏军,孙雪涛,朱一中.中国西部流域水循环研究进展与展望[J].地球科学进展,2003,18(1):58-67
[258] 夏军,朱一中.水资源安全的度量:水资源承载力的研究与挑战[J].自然资源学报,2002,17(3):262-269
[259] 徐家良.近百余年来上海两次增暖期的特征对比及其成因[J].地理学报,2000,55(4):501~506.
[260] 徐建华.现代地理学中的数学方法[M].北京:高等教育出版社,1994
[261] 徐启新,杨凯,许世远.上海高速城市化进程对水环境的影响及对策探讨[J].世界地理研究,2003,12(1):54-59
[262] 徐欣,张虎,浅谈山水城市建设中水系的治理[J].人民珠江,2001,(1):11-12
[263] 徐怡曾.水文资料整编[M].北京:水利电力出版社,1988
[264] 许木启,黄玉瑶.受损水域生态系统恢复与重建研究[J].生态学报,1998,18(4):547-558.
[265] 许有鹏,葛小平,张立峰,都金康.东南沿海中小流域平原区洪水淹没模拟[J].地理研究,2005,24(1):38-45.
[266] 严登华,何岩,邓伟,王春梅,等.生态水文学研究进展[J].地理科学,2001,(5):467-473
[267] 严登华,何岩,邓伟.流域生态水文格局与水环境安全调控[J].科技导报,2001,(9):55-57
[268] 严济远,徐家良.上海气候[M].北京:气象出版社,1996.
[269] 阎水玉,王祥荣.城市河流在城市生态建设中的意义和应用方法[J].城市环境与城市生??态,1999,12(6):36-38
[270] 阎水玉,王祥荣.泰晤士河在伦敦城市规划中的功能定位、保证措施及其特征的分析[J].国外城市规划,1999,(1):34-36
[271] 杨凯,赵军.城市河流生态系统服务的CVM估值及其偏差分析.生态学报.2005,25(6): 1391-1396.
[272] 杨冬辉.城市空间扩展对河流自然演进的影响——因循自然的城市规划方法初探[J].城市规划,2001,25(11):39-43
[273] 杨桂山,王建德.太湖流域经济发展·水环境·水灾害[M].北京:科学出版社,2003
[274] 杨吉山.上海地区近五十年来河网水系、水质演变及对浦东新区水环境治理的建议[D].上海:华东师范大学硕士学位论文,2001
[275] 杨凯,袁雯,赵军等.河网地区水系结构特征及城市化响应[J].地理学报,2004,59(4): 557-564
[276] 杨凯,程江,赵军,等.上海中心城区百年河流水系变化及影响因素分析[OL].中国科技论文在线(No.200511-389),2005
[277] 杨凯,唐敏,刘源,吴阿娜.上海中心城区河流及水体周边小气候效应分析[J].华东师范大学学报(自然科学版),2004(3):105-114
[278] 杨凯,唐敏,周丽英.上海近30年来蒸发变化及其城郊差异分析[J].地理科学.2004,24(5):557-561
[279] 杨凯,唐敏.上海感潮水网地区河网调蓄效应分析[OL].中国科技论文在线(No. 200405-661,2004
[280] 杨凯.沿江感潮水闸环境引水量的计算方法及实例[J].上海环境科学,2002,21(7), 429-431
[281] 杨凯.城市河岸形态开发过程中的公众可达性研究[OL].中国科技论文在线(No.200503-130),2005
[282] 杨荣金,傅伯杰,刘国华.生态系统可持续管理的原理和方法[J].生态学杂志,2004,23(3): 103-108
[283] 杨太华等,黔南曹渡河流域水系的分形分维研究[J].贵州科学,1992,10(1):60-66
[284] 杨晓平.奉化江流域地貌形态计量分析[J].宁波师范学院学报,1992,(6):59-65
[285] 易波琳,李晓斌,梅金华.洞庭湖面积容积与水位关系及调蓄能力评估[J].湖南地??质,2000,19(4):267-270
[286] 易红伟,汤国安,刘咏梅.河网径流节点及其基于DEM的自动提取.2003.17(3): 108-111
[287] 尹国康.汉江流域地貌结构与土地资源[J].地理科学,1993,13(2):146-154
[288] 尹国康.汉江三角洲结构与时空过程[J].地理学报,1992,47(6):516-525
[289] 尹国康.流域地貌系统[M].南京:南京大学出版社.1991
[290] 袁静秀.太湖水情特征[J].湖泊科学,1992,4(4):14-22
[291] 袁雯,杨凯,唐敏,徐启新.平原河网地区河流结构特征及其对调蓄能力的影响[J].地理研究,2006,24(5):717-724
[292] 袁雯,杨凯,徐启新.城市化对上海河网结构和功能的发育影响[J].长江流域资源与环境,2005,14(2):133-138
[293] 袁作新.工程水文学[M].北京:水利电力出版社 1990
[294] 岳隽,王仰麟,彭建.城市河流的景观生态学研究:概念框架[J].生态学报,2005, 25(6):1421-1429
[295] 曾庆祝.浅谈城市河湖的生态作用及建设[J].江苏水利,2001,(12):12-13
[296] 曾维华,程声通,杨志峰.流域水资源集成管理[J].中国环境科学,2001,21(2):173-176
[297] 张建春,彭补拙.河岸带及其生态重建研究[J].地理研究,2002,21(3):373-383
[298] 张丽萍.祖宁河流域侵蚀地貌的数理分析[J].中国水土保持,2004,(3):12-13
[299] 张修桂.中国历史地貌与古地图研究[M].北京:社会科学文献出版社,2006
[300] 张勇,王云,叶文虎.上海市地表水水质近20年的变化[J].环境科学学报,2002, 22(2):247-251
[301] 张芸,朱诚,于世永.长江三峡大宁河流域3000年来的环境演变与人类活动[J].地理科学,2001,21(3):267-271
[302] 赵军,杨凯,邰俊,吴阿娜.上海城市河流生态系统服务的支付意愿.环境科学.2005,26(2):5-10.
[303] 赵锐等.地理现象分形研究[J].地理科学,1994,14(1):9-15
[304] 赵文智,程国栋.生态水文学——揭示生态格局和生态过程水文学机制的科学[J].冰川冻土,2001,(4).[305] 赵彦伟,杨志峰.河流健康:概念、评价方法与方向[J].地理科学,2005,25(1):119-124
[306] 郑晓阳,俞立中,杨萌.基于SDSS的上海城市防汛决策支持研究[J].华东师范大学学报(自然科学版),2004(3):99-104
[307] 郑肇经主编.太湖水利技术史[M].北京:农业出版社,1987
[308] 周孚明,张丽萍.关川河流域数理地貌分析[J].中国水土保持,1993,(11):30-32
[309] 周家维等.北盘江流域水系结构特征及分析[J].贵州林业科技,1997,25(1):42-49
[310] 周丽英,杨凯.上海降水百年变化趋势及其城郊的差异[J].地理学报,2001,56(4): 467-476
[311] 周丽英.近百年来上海降水与暴雨变化趋势及其城郊差异的探讨[D].上海:华东师范大学硕士学位论文,2002
[312] 周乃晟,贺宝根编译.城市水文学概论[M].上海:华东师范大学出版社,1995
[313] 周淑贞.上海城市气候中的“五岛”效应[J].中国科学(B辑),1988,18(11):1226~1234.
[314] 周淑贞.上海大气湿度的城、郊对比分析[J].海洋湖沼通报,1994,(2):13~25.
[315] 周淑贞.上海近数十年城市发展对气候的影响[J].华东师范大学学报(自然科学版),1990,(4):64~72.
[316] 朱晓华,蔡运龙.中国水系的盒维数及其关系[J].水科学进展,2003,14(6):731-735
[2] Agnese C, et al. Scaling properties of topologically random channel networks [J]. Journal of Hydrology, 1996, 187:183-193
[3] Apan A A, Raine S R, Paterson M S. Mapping and analysis of changes in the riparian landscape structure of the Lochyer Valley catchment, Queensland, Australia [J]. Landscape and Urban Planning, 2002, 59: 43-57
[4] Arnaud-Fassetta G River chabbel changes in the Rhone Delta (France) since the end of the Little Ice Age: geomorphological adjustment to hydroclimatic change and natural resource management [J]. Catena, 2003, (51) :141-172
[5] Automated channel ordering and node indexing for raster channel networks. Computers & Geoscience [J]. 1997, 23(9): 961-966
[6] Baina M B, Harigb A L, Loucksc D P, et al. Aquatic ecosystem protection and restoration: advances in methods for assessment and evaluation [J]. Environmental Science & Policy, 2000(3):89-98
[7] Barker J R, Ringold P L, Bollman M. Patterns of the dominance in coniferous riparian forests [J]. Forest Ecology and Management, 2002, 166: 311-329
[8] Barmuta L A. Imperilled rivers of Australia: Challenges for assessment and conservation [J]. Aquatic Ecosystem Health and Management, 2003,6(1) 55-68
[9] Bash J S, Ryan C M. Stream Restoration and Enhancement Projects: Is Anyone Monitoring?[J] Environmental Management, 2002,29(6): 877-885
[10] Bertolini L, Djist M. Mobility environments and network cities [J]. Journal of Urban Design, 2003, 8(1): 27-43
[11] Bertolini L. Spatial development patterns and public transport: the application of an analytical model in the Netherlands [J]. Planning Practice and Research, 1999, 14(2): 199-210[12] Boon P J, Wilkinson J, Martin J. The application of SERCON (System for Evaluating Rivers for Conservation) to a selection of rivers in Britain [J]. Aquatic Conservation: Marine and Freshwater Ecosystems, 1998, 8: 597-616
[13] Boon P J.等编.宁远,沈承珠,谭炳卿,等译.河流保护与管理[M].北京:中国科学技术出版社,1997
[14] Boulton AJ. An overview of river health assessment: philosophies, practice, problems, and prognosis [J]. Freshwater Biology, 1999, 45: 469-479
[15] Breen C M, Biggs H, Dent M C. Designing a research programme to promote river basin management [J]. Water Science and Technology, 1995, 32 (5-6) : 103-109
[16] Brierley G J, Cohen T, Fryirs K. Post-European changes to the fluvial geomorphology of Bega catchment, Australia: implications for river ecology [J]. Freshwater Biology, 1999, 41: 839-848.
[17] Brierley G, Fryirs K, Outhet D, et al. Application of the River Styles framework as a basis for river management in New South Wales. Australia [J]. Applied Geography, 2002, 22: 91-122
[18] Brierley G, Fryirs K, Outhet D, et al. Application of the River Styles framework as a basis for river manaement in New South Wales, Australia[J]. Applied Geography, 2002, 22: 91-122
[19] Carlos E P. , Pablo A C. On the fractal structure of networks and dividers within a watershed [J]. Journal of Hydrology, 1995, 187: 173-181
[20] Carlos E. Puente etc. On the fractal structure of networks and dividers within a watershed [J]. Journal of Hydrology, 1996, 187 (1-2) : 173-181
[21] Claps P. , Oliveto G. Reexamining the determination of the fractal dimension of river networks[J]. Water Resources Research, 1996, 32 (10) : 3123-3135
[22] Costa-Cabral M C, Burges S J. Sensitivity of channel network planform laws and the question of topological randomness [J]. Water Resources Research, 1997, 33 (9) : 2179-2197
[23] Crave A, Davy, P. Scaling relationships of channel networks at large scales: Examples from two large-magnitude watersheds in Brittany, France [J]. Technophysics, 1997, 269: 91-111
[24] David G. Tarboton. Fractal river networks, Horton's laws and Tokunaga cyclicity[J]. Journal of Hydrology, 1996, 187 (1-2) : 105-117
[25] David J. Gilvear, Fluvial geomorphology and river engineering: furore roles utilizing a??fluvial hydrosystems framework [J]. Geomorphology, 1999, (31) : 229-245
[26] David R, MacDonald L H. Diagnostic approach to stream channel assessment and monitoring [J]. Journal of the American Water Resources Association, 2002, 38 (1) : 1-16
[27] David R.Maidment主编.张建云等译.水文学手册[M].北京:科学出版社,2002.10
[28] Deng Z-Q, Singh V. P. . Optimum channel pattern for environmentally sound training and management of alluvial rivers [J]. Ecological Modelling, 2002, 154: 61-74
[29] Desmond J S, Zedler J B, Williams G D. Fish use of tidal creek habitats in two southern California salt marshes [J]. Ecological Modelling, 2000, 14: 233-252.
[30] Eash D A. A geographic information system procedure to quantify drainage basin hydrological processes [J]. Water Resources Research, 1994, 30: 1-8
[31] Edgar B, Schofield N, Campbell A. Informing river management policies and programs with science [J]. Water Science and Technology, 2001, 43 (9) : 185-195
[32] Ediwards A. M. C. , Freestone R. J. , crockett C. P. . River management in the Humber catchment [J]. The science of the total environment, 1997, 194: 235-246
[33] Ellis J. B. Integrated approaches for achieving sustainable development of urban storm drainage [J]. Water Science Technology, 1995, 32 (1) : 1-6
[34] Fagherazzi S. Tidal networks 1: Automatic network extraction and preliminary scaling features from digital terrain maps [J]. Water Resources Research, 1999, 35 (12) : 3891-3904
[35] Fairweather P G. . State of environment indicators of "river health" : exploring the metaphor [J]. Freshwater Biology, 1999, 41: 211-220
[36] Freedman T G. Calculating catchment areas with divergent flow based on a regular grid [J]. Computers & Geosciences, 1991, 17: 413-432
[37] Frissell C A, Liss W J, Warren C E, et al. A hierarchical framework for stream habitat classification: viewing streams in a watershed context [J]. Environmental Management, 1986, 10: 199-214
[38] Fryirs K. Guiding principles for assessing geomorphic river condition: application of framework in the Bega catchment, South Coast, New South Wales, Australia [J]. Catena, 2003, 53: 17—52
[39] Garbrecht J, Wartz L W. Automated channel ordering and node indexing for raster channel networks [J]. Computers & Geosciences, 1997, 23 (9) : 961-966[40] Gamier J, Billen G, Hannon E, et al. Modelling the transfer and retention of nutrients in the drainage network of the Danube River [J]. Estuaries, Coastal, and Shelf Sciences, 2002, 54: 285-308
[41] Greenwood-Smith S L. The use of rapid environmental assessment techniques to monitor the health of Australian rivers [J]. Water Science and Technology, 2002, 45 (11) : 155-160
[42] Hansen W F. Identifying stream types and management implications. Forest Ecology and Management [J]. 2001, 143: 39-46
[43] Hart BT, Davies PE, Humphrey CL, et al. Application of the Australian river bioassessment system (AUSRIVAS) in the Brantas River, East Java, Indonesia [J]. Journal of Environmental Management 2001 (62) : 93-100
[44] Hitomi Matsuo Kato. Control and conservation of the water environment in the creek region on the Ariake coast of Japan [J]. Ecological engineering, 1998, 11: 261-276
[45] Inland Waterways Amenity Advisory Council. Planning a future for the inland waterways: A good practice guide. 2001. http://www.defra.gov.uk/environment/bw/iwaac/index.htm.
[46] James LD. NSF research in hydrological sciences [J]. Journal of Hydrology, 1995, 172: 314.
[47] Janauer Georg A. . Ecohydrology: fusing concepts and scales [J]. Ecological Engineering, 2000, 16: 9-16
[48] Janusz Niemczynowicz. Urban hydrology and water management——present and future challenges [J]. Urban water, 1999, (1) : 1-14
[49] Karr J K. Bioligical integrity: a long neglected aspect of water resource management[J]. Ecological Applications, 1991, 1 (1) : 66-84
[50] Kirchner J W.,汪兴华译.Horton规律统计的必然性与河网的随机分布[J].世界地质,1994,13(4):107-111
[51] Kirstie Fryirs. Guiding principles for assessing geomorphic river conditioncondition: application of a framework in the Bega catchment, South Coast, New South Wales, Australia [J]. Catena, 2003, (53) : 17-52
[52] Kondolf G M, Micheli E R. Evaluating stream restoration projects [J]. Environmental Management; 1995, 19 (1) : 1-15
[53] La Barbera P, Rosso R. On the fractal dimension of stream newworks [J]. Water Resources Research. , 1989, 25 (4) : 735-741[54] Ladson A R, White L J. An index of stream condition: Reference manual [M], Melbourne, Victorian, Australian: Department of Natural Resources and Environment, 1999. 1-65. http://www.vicwaterdata.net/vicwaterdata/data_warehouse_content.aspx?option=7.
[55] Ladson A R,White L J, Doolan J A, et al. Development and testing of an Index of Stream Condition for waterway management in Australia[J]. Freshwater Biology,1999,41:453 — 468
[56] Langbein W B, Leopold L B. Quasi-equilibrium state in channel morphology [J]. American Journal of Science, 1964, 262: 782-79
[57] Leppard G G, Munawar M. The ultrastructural indicators of aquatic ecosystem health [J]. Journal of Aquatic Ecosystem Health, 1992,1(4):309-317
[58] Levinson D M. Accessibility and the journey to work [J]. Journal of Transport Geography, 1998,6(1): 11-21.
[59] Marani M, Belluco E, D'Alpaos A, et al. On the drainage density of tidal networks[J]. Water Resources Research, 2003,39(2): 1029-1040
[60] Mark A., Wiering, Peter P.J. Driessen. Beyond the art of diking: interactive policy on river management in the Netherlands [J]. Water policy, 2001,(3): 283-296
[61] Mary E. Power, Gary Parker, William E. Dietrich et al. How does floodplain width affect floodplain river ecology? A preliminary exploration using simulations [J]. Geomorphology, 1995, 13:301-317
[62] McNamara J P,Kane D L, Hinzman L D. An analysis of an arctic channel network using a digital elevation model [J]. Geomorphology. 1999, 29: 339-353
[63] Meyckal M, Horowitz A J, Grosbois C. The geochemistry of Seine River basin particulate matter: distribution of an integrated metal pollution index [J]. Science of the Total Environment, 2004, 328: 219-236
[64] Meyer J L. Stream health: incorporating the human dimension to advance stream ecology [J]. Journal North American Benthological Society, 1997,16(2):439-447
[65] Moddock I. The importance of physical habitat assessment for evaluating river health [J]. Freshwater Biology, 1999,(41):373-391
[66] Morisawa M E. Development of drainage system on an Upraised Lake Floor [J]. Amer. Jour. of Science, 1964,262: 341-354[67] Nazrul Islam. The open approach to flood control: the way to the future in Bangladesh [J]. Futures, 2001, 33: 783-802
[68] Nil Pasaogullari, Naciye Doratli. Measuring accessibility and utilization of public spaces in Famagusta [J]. Cities, 2004, 21(3), 225-232
[69] Nu Hoai V. N. et al. Efficiency of a small artificial wetland with an industrial urban catchment [J]. The Science of the Total Environment, 1998, 241: 221-237
[70] Obuya Nishimura, et al. , Novel water facilities for creation of comfortable urban micrometeorology [J]. Solar Energy, 1998, 64 (4-6) : 197-207
[71] Orfeo O, Stevaux J. Hydraulic and morphological characteristics of middle and upper reaches of the parana River (Argentina and Brazil) [J]. Geomorphology, 2002, 44: 309-322
[72] Petersen R C. The RCE: a Riparian, Channel, and Environmental Inventory for small streams in the agricultural landscape [J]. Freshwater Biology, 1992, 27: 295-306.
[73] Qiuming Cheng etc. GIS-based statistical and fractal/multifractal analysis of surface stream patterns in the Oak Ridges Moraine [J]. Computes & Geosciences, 2001, 27: 513-526
[74] R.赫尔曼著.水文学导论[M].北京:高等教育出版社.1985
[75] Rao Z. , Moore I. N. , Connell P. E O etc. An interactive management system for operational control of Kirazdere Reservoir (Turkey) [J]. Water resources management, 2001, 15: 223-234
[76] Rhonda Y. , Brain W. , Roy V. A. . Urban effects on flood plain natural hazards: Wolf River, Tennessee, USA [J]. Engineering Geology, 2003, 70: 1-15
[77] Rinaldo R, Fagherazzi S, Lanzoni S, et al. Tidal networks 2: Watershed delineation and comparative network morphology [J]. Water Resources Research, 1999, 35 (12) : 3905-3917
[78] Rodriguez-Iturbe I. Ecohydrology: a hydrologic perspective of climate-soil-vegetation dynamics [J]. Water resources research, 2000, 36 (1) : 3-10
[79] Rosso R, Bacchi B, La Barbera P. Fractal relation of mainstreams length to catchment area in river networks [J]. Water Resources Research, 1991, 27 (3) : 381-387
[80] Roth G. , La Barbera P. , Greco M. On the description of the basin effective drainage structure [J]. Journal of Hydrology, 1996, 187: 119-135
[81] Sanderson E W, Foin T C, Ustin S L. A simple empirical model of salt marsh plant spatial distributions with respect to a tidal channel network [J]. Ecological Modelling, 2001, 139:??293-307
[82] Schuller D J, Rao A R, Jeong G D. Fractal characteristics of dense stream networks [J]. Journal of Hydrology, 2001, 1-16
[83] Scrimgeour G J, Wicklum D. Aquatic ecosystem health and integrity: problem and potential solution [J]. Journal of North American Benthlogical Society, 1996, 15(2): 254-261
[84] Shoichiro Asakawa, Keisuke Yoshida, Kazuo Yabe. Perceptions of urban stream corridors within the greenway system of Sapporo, Japan [J]. Landscape and Urban Planning, 2004 , 68: 167-182
[85] Shreve R L. Stream length and basin areas in topologically random networks [J]. J. Geol, 1969, 1969, 77:397-414
[86] Smart J S. Topologically properties of channel networks [J]. Geol. Soc. Amer. Bull, 1969, 80:757-774
[87] Smith M.J.,Kay W.R., Edward D.H.D.,et al.. AusRivAS: using macroinvertebrates to assess ecological condition of rivers in Western Australia [J]. Freshwater Biology, 1999(41):269-282
[88] Surian Nicola, Rinaldi Massimo. Morphological response to river engineering and management in alluvial channels in Italy [J]. Geomorphology, 2003,50 (4):307-326
[89] Susan C. Spackman, Jeffrey W. Hughes. Assessment of minium stream corridor width for biological conservation: species richness and distribution along mid-order streams in Vermont, USA [J]. Biological Conservation, 1995,71: 325-332
[90] Talen E. Measuring the public realm: a preliminary assessment of the link between public space and sense of community [J]. Journal of Architectural and Planning Research, 2000, 17(4): 344-359
[91] Tanzhou Luo. Fractal structure and properties of stream network [J]. Water Resources Research, 1992, 28(10): 2981-2988
[92] Tarboton D G., et al. The fractal nature of river networks [J]. Water Resources Research, 1988,24: 1317-1322
[93] Veltri M., Veltri P., Maiolo M. On the fractal description of natural channel networks [J]. Journal of Hydrology, 1996,187: 137-144
[94] Wang X, Yin Z-Y. A comparison drainage networks derived form digital elevation models at??two scales [J]. Journal of Hydrology, 1998, 201: 221-241
[95] Wilchelm L F. Brinkmann, Artur Magnuszewski, Steffen Zober. The structure and function of the Vistual River floodplain near Plock, Poland [J]. Ecological engineering, 2000, 16: 159-166
[96] Wright J F, Furse M T, Moss D. River classification using invertebrates: RIVPACS applications [J]. Aquatic Conservation: Marine and Freshwater Ecosystems, 1998, 8: 617-631
[97] Yutaka T, Juha I U. Evolution of river management in Japan: from focus on economic benefits to a comprehensive view[J]. Global Environmental Change, 2004, 14: 63-70
[98] 艾南山,李后强.从曼德布罗特景观到分形地貌学[J].地理学与国土研究,1993,13-17
[99] 白平良,付明胜.小流域坝系规划中有关技术问题探讨[J].山西水土保持科技,2003,(1):15-16
[100] 蔡庆华,唐涛,刘健康.河流生态学研究中的几个热点问题[J].应用生态学报,2003,14(9):1573-1577
[101] 陈德超,李香萍,杨吉山.上海城市化进程中的河网水系演化[J].城市问题,2002,(5):31-35
[102] 陈浩.陕北黄土高原沟道小流域形态特征分析[J].地理研究,1986,5(1):82-92
[103] 陈美发.上海城市河流治理现状与展望[J].城市道桥与防洪,2003,(1):44-45
[104] 陈庆江,赵敏华.上海市城市区域除涝标准的探讨[J].上海水务,2000,(1):1-5
[105] 陈铁:北京城市中心区水系综合治理工程[J].人民珠江,1998,(4):12-16
[106] 陈彦光,李宝林.吉林省水系构成的分形研究[J].地球科学进展,2003,18(2):178-184
[107] 陈彦光,刘继生.水系结构的分形与分维——Horton水系定律的模型重建及其参数分析[J].地球科学进展,2001,16(2):178-183
[108] 陈永宗.大兴安岭地区河系结构的基本规律[J].地理学报,1980,35(4):325-337
[109] 陈永宗.黄河中游黄土丘陵区的沟谷类型[J].地理科学,1984,4(4):15-20
[110] 陈玉娟.中外城市沿河地带功能开发比较研究[J].城市规划.2000,24(9),23-25.
[111] 陈征琳,邹逸麟,刘君德.上海地名志[M].上海:上海社会科学院出版,1998:59-85
[112] 陈祖军,黄士力,周建国.关于区域水务规划若干问题的探讨[J].中国给水排??水,2003,19(11):29-31
[113] 承继成,江美球.流域地貌数学模型[M].北京:科学出版社,1986
[114] 地理学词典编辑委员会.地理学词典[M].上海:上海辞书出版社,1982
[115] 北京大学,南京大学等.地貌学[M].北京:人民教育出版社,1978
[116] 董连科.分形理论及其应用[M].沈阳:辽宁科学出版社,1991
[117] 董宇,路秀琴.分流水道类型特征及意义[J].沉积学报,1996,14(3):162-167
[118] 董哲仁.河流生态恢复的目标[J].中国水利,2004(10):56-58
[119] 董哲仁.河流形态多样性与生物群落多样性[J].水利学报,2003(11):1-7
[120] 段武舰.水系对城市化作用的再认识[J].中国勘察设计,2003,(7):77-78
[121] 方子云,汪达.国际水资源保护和管理的最近动态——水与可持续发展[J].水资源保护,2000(1):1-6
[122] 冯金良,张稳.海滦河流域水系分形[J].泥沙研究,1999,(1):62-65
[123] 冯平,冯焱:河流形态特征的分维计算方法[J].地理学报,1997,52(4):324-330
[124] 弗雷德里克.斯坦纳著.周年兴等译.生命的景观—景观规划的生态学途径[M].北京:中国建筑工业出版社,2004
[125] 付明胜,任兆选,白平良.地貌几何数学模型在黄土高原沟道分级和坝系规划中的应用[J].中国水土保持科学,2003,1(4):25-28
[126] 傅军,丁晶,邓育仁.嘉陵江流域形态及流量过程分维研究[J].成都科技大学学报,1995,(1):1-9
[127] 高华端,杨世逸.乌江流域水系结构分析[J].贵州农学院丛刊,1994,23(1):104-114
[128] 高华中,姚亦锋.近50年来人类活动对博斯腾湖水位影响的量化研究[J].地理科学,2005,25(2):305-309
[129] 高鹏,李后强,艾南山.流域地貌的分形研究[J].地球科学进展,1993,8(5):63-70
[130] 龚家栋,李吉钧.黑河流域水系发育特征[J].中国沙漠,20(4):389-392
[131] 顾慰祖.水文学基础[M].水利电力出版社,1984
[132] 郭跃.沟谷系统结构理论和实践意义的探讨[J].重庆师范学院学报,1995,12(2):4-13
[133] 韩昌来,毛锐.太湖水系结构特点及其功能的变化[J].湖泊科学,1997,9(4):300-306[134] 韩龙喜,朱羿,杨积德.水系局部改变对河网水情及水质影响的分析[J].水资源保护,2004,(4):31-41
[135] 韩宇平,阮本清.区域水安全评价指标体系初步研究[J].环境科学学报,2003,23(2):267-272
[136] 郝明龙,深圳水文特征与影响因素简介[J].人民珠江,1998,(4):13-16
[137] 郝振纯,李丽.基于DEM的数字水系生成[J].水文,2002,22(4):8-10
[138] 河海大学环境科学与工程学院.苏州市城市中心区河道整治近期规划研究报告[R].2003
[139] 何隆华,赵宏.水系的分形维数及其含义[J].地理科学,1996,16(2):124-128
[140] 华东师范大学资源与环境学院,上海市河道管理处.基于遥感和GIS的上海市河道变化调查项目报告[R].2005
[141] 黄光宇,陈勇.论城市生态化与生态城市[J].城市环境与城市生态,1999,12(6):28-31
[142] 黄淑玲,骆高远.平原水体气候效应及合理利用初探——以嘉兴市为例.地域研究与开发[J].1996,15(2):94-96
[143] 黄锡荃.水文学[M].北京:高等教育出版社,1993
[144] 黄奕龙,傅伯杰,陈利顶.生态水文过程研究进展[J].生态学报,2003,23(3):580-587
[145] 季永兴,何刚强.城市河道整治与生态城市建设[J].水土保持研究,2004,11(3):245-247
[146] 贾绍凤,王国,夏军,等.社会经济系统水循环研究进展[J].地理学报,2003,58(2):255-262
[147] 姜永清,邵明安,李占斌,等.黄土高原流域水系的Horton级比数和分形特性[J].山地学报,2002,20(2):206-211
[148] 姜跃良,王美敬,李然,罗麟.生态水力学原理在城市河流保护及修复中的应用[J].水利学报,2003,(8):75-78
[149] 金德生,陈浩,郭庆伍.流域物质与水系及产沙间非线性实验研究[J].地理学报,2000,55(4):439-448
[150] 金德生,张欧阳,陈浩.侵蚀基准面下降对水系发育与产沙影响的实验研究[J].地理研究,2003,22(5):560-570
[151] 金卫斌,刘章勇.围湖垦殖对湖泊调蓄功能的累加效应分析[J].长江流域资源与环境,2003,12(1):74-77[152] 靳长兴.Γ型地貌瞬时单位线探讨[J].地理研究,1990,9(4):61-69
[153] 靳长兴.流域地貌结构中的定量关系及理论解释[J].陕西机械学院学报,1993,9(1):45-51
[154] 黎安田.长江1998洪水与防汛抗洪[J].人民长江,1999,30(1):1-8
[155] 李昌峰,张鸿辉.建国以来人类活动对湖北省四湖地区水环境的影响研究[J].国土与自然资源研究,2003,4:68-70
[156] 李长安,殷鸿福,俞立中等.关于长江流域生态环境系统演变与调控研究的思考[J],长江流域资源与环境,2001,(10)6:550-557
[157] 李长兴.城市水文的研究现状与发展趋势[J].人民珠江,1998,(4):9-12
[158] 李国英.黄河治理的终极目标是“维持黄河健康生命”[J].中国水利,2004(1):6—7
[159] 李后强,艾南山.分形地貌学及地貌发育的分形模型[J].自然杂志,1991,15(7):516-519
[160] 李丽娟,郑红星.海滦河流域河流生态系统环境需量计算[J].地理学报,2000,55(4):495-500
[161] 李茂田,丁霞,陈中原.40年来长江九江河段河道演变及其趋势预测[J].地理科学,2004,24(1):76-82
[162] 李平华,陆玉麒.可达性研究的回顾与展望[J].地理科学进展,2005,24(3):69-78
[163] 李天杰.上海市区城市化对降水的影响初探[J].水文,1995,15(3):34~41.
[164] 李义天,何用,邓金运等.多因素作用下洞庭湖洪水调蓄量的变化[J].安全与环境学报,2001,1(6):26-30
[165] 梁虹,卢娟.喀斯特流域水系分形、熵及其地貌意义[J].地理科学,1997,17(4):310-315
[166] 刘昌明主编.21世纪中国水文科学研究的新问题新技术和新方法[M].北京:科学出版社.2001
[167] 刘昌明,孙睿.水循环的生态学方面:土壤/植被/大气系统水分能量平衡研究进展[J].水科学进展,1999,10(3):251-259
[168] 刘俊.城市雨洪模型研究[J].河海大学学报,1997,25(6):20-24
[169] 刘鹏飞,骆广梁.头道沟小流域侵蚀地貌的数学统计模型[J].内蒙古林学院学报,1992,(1):82-85
[170] 刘树坤.国外防洪减灾发展趋势分析[J].水利水电科技进展,2000,20(1):2-9[171] 刘苏峡.世纪之交的水文研究[J].水科学进展,2001,12(1):113-116
[172] 刘晓涛.关于城市河流治理若干问题的探讨[J].上海水务,2001,(3):1~5
[173] 刘毅,贾若祥,侯晓丽.中国区域水资源可持续利用评价及类型划分[J].环境科学,2005,26(1):42-46
[174] 鲁春霞,谢高地,成升魁.河流生态系统的休闲娱乐功能及其价值评估[J].资源科学,2001,23(5):77-81
[175] 陆静依编译,美国环保署水生生物资源生态恢复指导性原则[J].上海水务,2001,(3):50-53
[176] 陆中臣.流域地貌系统[M].大连:大连出版社,1987
[177] 罗文锋.Horton定律及分枝网络结构的分形描述[J].水科学进展,1998,9(2):118-123
[178] 罗新正,孙广友.河堤环境效应略论[J].环境科学研究,2001,14(2):11-13
[179] 毛锐.建国以来太湖流域三次大洪水的比较及对今后治理洪涝的意见[J].湖泊科学,2000,12(1):12-18.
[180] 宁祥葆.追求和谐——塑造上海江河新形象[J].上海水利,2002,5(2):26-27
[181] 牛文元.现代应用地理[M].北京:科学出版社,1987
[182] 彭文成.安宁河流域水道级别的重新划分[J].四川水利,1995,15(2):34-39
[183] 任立良,刘新仁.数字高程模型信息提取与数字水文模型研究进展[J].水科学进展,2000,11(4):463-469
[184] 阮仁良.平原河网地区水资源调度改善水质的机理和实践研究[D].上海:华东师范大学博士学位论文,2003
[185] 芮孝芳.水文学原理[M].北京:中国水利水电出版社,2004
[186] 上海市宝山区人民政府.上海市宝山区地名志[M].上海:上海市科学技术文献出版社,1995
[187] 上海市长宁区人民政府.上海市长宁区地名志[M].上海:学林出版社,1988
[188] 上海市防汛指挥部.上海市城市防洪排水规划汇编[R].,1999
[189] 上海市河道管理处.上海市河道普查报告(研究报告)[R].2001
[190] 上海市河道污染综合治理联席会议办公室.碧水清波映申城—上海中小河道三年综合整治成果[R].2001[191] 上海市虹口区志编篡委员会.上海市虹口区志[M].上海:上海社会科学院出版社,1999
[192] 上海市黄浦区人民政府.上海市黄浦区地名志[M].上海:上海社会科学院出版社,1989
[193] 上海市静安区人民政府.上海市静安区地名志[M].上海:上海社会科学院出版社,1988
[194] 上海市卢湾区人民政府.上海市卢湾区地名志[M].上海:上海社会科学院出版社,1990
[195] 上海市闵行区人民政府.上海市闵行区地名志[M].上海:中国大百科全书出版社上海分社,1991
[196] 上海市南市区志编篡委员会.上海市南市区志[M].上海:上海社会科学院出版社,1987
[197] 上海市农业区划委员会办公室.上海市地表水资源和水利区划[R].上海市农业区划委员会,1984
[198] 上海市普陀区人民政府.普陀区地名志[M].上海:学林出版社,1988
[199] 上海市人民政府.上海市城市总体规划(1999-2020)[R].1999
[200] 上海市水利局规划室.上海市水利总体规划说明[R].上海市水利局规划室,1994
[201] 上海市水文总站.上海市径流系数及其地表径流单位污染负荷普查分析报告[R].2000
[202] 上海市水务规划设计研究院.宝山区水利规划[R].2004
[203] 上海市水务局.上海市水面积变化调查暨水生态功能初步调研报告[R].2002
[204] 上海市水务局.上海市水环境功能区划[R].2004
[205] 上海市水务局.上海市城镇雨水系统专业规划[R].2002
[206] 上海市水务局.上海市污水系统专业规划[R].2002
[207] 上海市徐汇区人民政府.上海市徐汇区地名志[M].上海:上海社会科学院出版社,1989
[208] 上海市杨浦区人民政府.上海市杨浦区地名志[M].上海:学林出版社,1989
[209] 上海市闸北区志编篡委员会.上海市闸北区志[M].上海:上海社会科学院出版社,1998
[210] 上海水利志编纂委员会.上海水利志[M].上海:上海社会科学院出版社,1997
[211] 上海图书馆.老上海地图[M].上海:上海画报出版社,2001
[212] 上海徐汇区水资源办公室.上海徐汇区水资源普查报告[R].2001
[213] 尚宏琦,鲁小新.国内外典型江河治理经验及水利发展理论研究[M].北京:黄河水利出版社,2003[214] 沈玉昌,龚国元.河流地貌学[M],北京:科学出版社,1986
[215] 宋庆辉,杨志峰.对我国城市河流综合管理的思考[J].水科学进展,2002,13(3):377-382
[216] 孙鹏,王志芳.遵从自然过程的城市河流和滨水区景观设计[J].城市规划,2000,24(9):19-22
[217] 孙鹏森,刘世荣.大尺度生态水文模型的构建及其与GIS集成[J].生态学报,2003,(10):2115-2124
[218] 谭炳卿,孔令金,尚化庄.河流保护与管理综述[J].水资源保护,2002,18(3):54-57
[219] 唐敏.上海城市化过程中的河网水系保护及相关环境效应研究[D].上海:华东师范大学硕士学位论文,2004
[220] 唐涛,蔡庆华,刘健康.河流生态系统健康及其评价[J].应用生态学报,2002,13(9):1191-1194
[221] 汪富泉.河流网络的分形与自组织及其物理机制[J].水科学进展,2002,13(3):368-376
[222] 汪松年,阮仁良.上海市水资源普查报告[M].上海:上海科学技术出版社,2001
[223] 汪松年.上海水生态修复调查与研究[M].上海:上海科学技术出版社,2005
[224] 汪耀武.太湖流域水环境恶化的思考[J].污染与防治,1999,(1):12-18
[225] 王栋,史运良,王腊春.浅析太湖流域水资源系统退化与修复对策[J].水资源保护,2003,(6):41-42
[226] 王根绪,刘桂民,常娟.流域尺度生态水文研究评述[J].生态学报,2005,25(4):892-903
[227] 王国安.关于我国水库的防洪标准问题[J].水利学报,2002,(12):22-25
[228] 王国安.水文定理、定律和假说初探口[M].郑州:黄河水利出版社,2002
[229]王华杰.城市圩区雨水的排放模式探讨[J].中国给水排水,2002,18(11):33-35
[230] 王慧玲,梁杏.洞庭湖调蓄作用分析[J].地理与地理信息科学,2003,19(3):63-66
[231] 王建国.吕志鹏.世界城市滨水区开发建设的历史进程及其经验.城市规划.2001,25(7),41-46.
[232] 王开元.浅谈德法荷三国防洪减灾的主要做法和经验[J].人民珠江.2001,(1):33-35
[233] 王克林,章春华,易爱军.洞庭湖区洪涝灾害形成机理与生态减灾和流域管理对策[J].应用生态学报,1998,9(6):561-568[234] 王腊春,谢顺平,周寅康,都金康,潘华良.太湖流域洪涝灾害淹没范围模拟[J].地理学报,2000,55(1):46-54
[235] 王腊春,许有鹏,周寅康等.太湖水网地区河网调蓄能力分析[J].南京大学学报(自然科学版),1999,35(6):712-718
[236] 王玲,吴道喜.从莱茵河管理看西方河流管理理念的转变[J].水利水电快报,2001,22(18):27-28
[237] 王倩,邹欣庆,朱大奎.基于GIS技术的秦淮河流域水系分维研究[J].水科学进展,2002,13(6):751-756
[238] 王少平,俞立中,许世远,程声通.基于GIS的苏州河非点源污染的总量控制[J],中国环境科学,2002,(22)6:520-524
[239] 王随继,谢小平,程东升.网状河流研究进展述评[J].地理科学进展,2002,21(5):440-448
[240] 王薇,李传奇.河流廊道与生态修复[J].水利水电技术,2003,34(9):56-58
[241] 王协康,方铎.流域地貌系统定量研究的新指标[J].山地研究,1998,16(1):8-12
[242] 王学雷,William A Gough,吴宜进.江汉平原典型区域洪涝调蓄能力估算研究.武汉大学学报(理科版),2002,48(4):461-465
[243] 王彦成,李宁,王弋.用TM影像对罕台川流域水系特征的分析[J].内蒙古水利,1994,(4):45-46.
[244] 王颖,盛静芬.滨水环境与城市发展的初步研究[J].地理科学,2002,22(1):12-17
[245] 王颖,王腊春,王栋,陈文瑞.长江三角洲水资源水环境承载力、发展变化规律与永续利用之对策研究[J].水资源保护,2003,(6):34-40
[246] 王永兴.绿洲生态系统及其环境特征.新疆玛纳斯湖的干涸对周围植被影响初探[J].干旱区地理,1987,10(4):30-36.
[247] 王准.上海河道新型河岸绿化种植建设[J].上海交通大学学报(农业科学版),2002,20(1):53-57
[248] 卫明.恢复城市水环境的自然生态[J].上海建设科技,2002,(3):15-17
[249] 魏梓兴,蔡恭杰,吴阿娜,等.河流管理中引入河流健康状况评价的意义与思考[J].中国水利,2004,(17):18-19
[250] 吴阿娜,车越,杨凯,赵军.城市内河综合整治效益的后评估方法及实证.水利学报.2005,36 (9):1088-1093[251] 吴阿娜,杨凯,车越,等.河流健康状况的表征及其评价[J].水科学进展,2005,16(4):602-608
[252] 吴阿娜.河流健康状况评价及其在河流管理中的应用[D].上海:华东师范大学硕士学位论文,2005
[253] 吴保生,陈红刚,马吉明.美国基西米河生态修复工程的经验[J].水利学报,2005,36(4):473-477
[254] 吴文敏,戴淑英,王长新.天山北坡河流的数学地貌特征及河流产沙分析初探[J].八一农学院学报,1990,13(2):21-30
[255] 西北师范学院地理系.中国自然地理图集[M].北京:地图出版社,1984
[256] 夏军,风华丽,谈戈,等.生态水文学概念、框架和体系[J].灌溉排水学报,2003,22(1):4-10
[257] 夏军,孙雪涛,朱一中.中国西部流域水循环研究进展与展望[J].地球科学进展,2003,18(1):58-67
[258] 夏军,朱一中.水资源安全的度量:水资源承载力的研究与挑战[J].自然资源学报,2002,17(3):262-269
[259] 徐家良.近百余年来上海两次增暖期的特征对比及其成因[J].地理学报,2000,55(4):501~506.
[260] 徐建华.现代地理学中的数学方法[M].北京:高等教育出版社,1994
[261] 徐启新,杨凯,许世远.上海高速城市化进程对水环境的影响及对策探讨[J].世界地理研究,2003,12(1):54-59
[262] 徐欣,张虎,浅谈山水城市建设中水系的治理[J].人民珠江,2001,(1):11-12
[263] 徐怡曾.水文资料整编[M].北京:水利电力出版社,1988
[264] 许木启,黄玉瑶.受损水域生态系统恢复与重建研究[J].生态学报,1998,18(4):547-558.
[265] 许有鹏,葛小平,张立峰,都金康.东南沿海中小流域平原区洪水淹没模拟[J].地理研究,2005,24(1):38-45.
[266] 严登华,何岩,邓伟,王春梅,等.生态水文学研究进展[J].地理科学,2001,(5):467-473
[267] 严登华,何岩,邓伟.流域生态水文格局与水环境安全调控[J].科技导报,2001,(9):55-57
[268] 严济远,徐家良.上海气候[M].北京:气象出版社,1996.
[269] 阎水玉,王祥荣.城市河流在城市生态建设中的意义和应用方法[J].城市环境与城市生??态,1999,12(6):36-38
[270] 阎水玉,王祥荣.泰晤士河在伦敦城市规划中的功能定位、保证措施及其特征的分析[J].国外城市规划,1999,(1):34-36
[271] 杨凯,赵军.城市河流生态系统服务的CVM估值及其偏差分析.生态学报.2005,25(6): 1391-1396.
[272] 杨冬辉.城市空间扩展对河流自然演进的影响——因循自然的城市规划方法初探[J].城市规划,2001,25(11):39-43
[273] 杨桂山,王建德.太湖流域经济发展·水环境·水灾害[M].北京:科学出版社,2003
[274] 杨吉山.上海地区近五十年来河网水系、水质演变及对浦东新区水环境治理的建议[D].上海:华东师范大学硕士学位论文,2001
[275] 杨凯,袁雯,赵军等.河网地区水系结构特征及城市化响应[J].地理学报,2004,59(4): 557-564
[276] 杨凯,程江,赵军,等.上海中心城区百年河流水系变化及影响因素分析[OL].中国科技论文在线(No.200511-389),2005
[277] 杨凯,唐敏,刘源,吴阿娜.上海中心城区河流及水体周边小气候效应分析[J].华东师范大学学报(自然科学版),2004(3):105-114
[278] 杨凯,唐敏,周丽英.上海近30年来蒸发变化及其城郊差异分析[J].地理科学.2004,24(5):557-561
[279] 杨凯,唐敏.上海感潮水网地区河网调蓄效应分析[OL].中国科技论文在线(No. 200405-661,2004
[280] 杨凯.沿江感潮水闸环境引水量的计算方法及实例[J].上海环境科学,2002,21(7), 429-431
[281] 杨凯.城市河岸形态开发过程中的公众可达性研究[OL].中国科技论文在线(No.200503-130),2005
[282] 杨荣金,傅伯杰,刘国华.生态系统可持续管理的原理和方法[J].生态学杂志,2004,23(3): 103-108
[283] 杨太华等,黔南曹渡河流域水系的分形分维研究[J].贵州科学,1992,10(1):60-66
[284] 杨晓平.奉化江流域地貌形态计量分析[J].宁波师范学院学报,1992,(6):59-65
[285] 易波琳,李晓斌,梅金华.洞庭湖面积容积与水位关系及调蓄能力评估[J].湖南地??质,2000,19(4):267-270
[286] 易红伟,汤国安,刘咏梅.河网径流节点及其基于DEM的自动提取.2003.17(3): 108-111
[287] 尹国康.汉江流域地貌结构与土地资源[J].地理科学,1993,13(2):146-154
[288] 尹国康.汉江三角洲结构与时空过程[J].地理学报,1992,47(6):516-525
[289] 尹国康.流域地貌系统[M].南京:南京大学出版社.1991
[290] 袁静秀.太湖水情特征[J].湖泊科学,1992,4(4):14-22
[291] 袁雯,杨凯,唐敏,徐启新.平原河网地区河流结构特征及其对调蓄能力的影响[J].地理研究,2006,24(5):717-724
[292] 袁雯,杨凯,徐启新.城市化对上海河网结构和功能的发育影响[J].长江流域资源与环境,2005,14(2):133-138
[293] 袁作新.工程水文学[M].北京:水利电力出版社 1990
[294] 岳隽,王仰麟,彭建.城市河流的景观生态学研究:概念框架[J].生态学报,2005, 25(6):1421-1429
[295] 曾庆祝.浅谈城市河湖的生态作用及建设[J].江苏水利,2001,(12):12-13
[296] 曾维华,程声通,杨志峰.流域水资源集成管理[J].中国环境科学,2001,21(2):173-176
[297] 张建春,彭补拙.河岸带及其生态重建研究[J].地理研究,2002,21(3):373-383
[298] 张丽萍.祖宁河流域侵蚀地貌的数理分析[J].中国水土保持,2004,(3):12-13
[299] 张修桂.中国历史地貌与古地图研究[M].北京:社会科学文献出版社,2006
[300] 张勇,王云,叶文虎.上海市地表水水质近20年的变化[J].环境科学学报,2002, 22(2):247-251
[301] 张芸,朱诚,于世永.长江三峡大宁河流域3000年来的环境演变与人类活动[J].地理科学,2001,21(3):267-271
[302] 赵军,杨凯,邰俊,吴阿娜.上海城市河流生态系统服务的支付意愿.环境科学.2005,26(2):5-10.
[303] 赵锐等.地理现象分形研究[J].地理科学,1994,14(1):9-15
[304] 赵文智,程国栋.生态水文学——揭示生态格局和生态过程水文学机制的科学[J].冰川冻土,2001,(4).[305] 赵彦伟,杨志峰.河流健康:概念、评价方法与方向[J].地理科学,2005,25(1):119-124
[306] 郑晓阳,俞立中,杨萌.基于SDSS的上海城市防汛决策支持研究[J].华东师范大学学报(自然科学版),2004(3):99-104
[307] 郑肇经主编.太湖水利技术史[M].北京:农业出版社,1987
[308] 周孚明,张丽萍.关川河流域数理地貌分析[J].中国水土保持,1993,(11):30-32
[309] 周家维等.北盘江流域水系结构特征及分析[J].贵州林业科技,1997,25(1):42-49
[310] 周丽英,杨凯.上海降水百年变化趋势及其城郊的差异[J].地理学报,2001,56(4): 467-476
[311] 周丽英.近百年来上海降水与暴雨变化趋势及其城郊差异的探讨[D].上海:华东师范大学硕士学位论文,2002
[312] 周乃晟,贺宝根编译.城市水文学概论[M].上海:华东师范大学出版社,1995
[313] 周淑贞.上海城市气候中的“五岛”效应[J].中国科学(B辑),1988,18(11):1226~1234.
[314] 周淑贞.上海大气湿度的城、郊对比分析[J].海洋湖沼通报,1994,(2):13~25.
[315] 周淑贞.上海近数十年城市发展对气候的影响[J].华东师范大学学报(自然科学版),1990,(4):64~72.
[316] 朱晓华,蔡运龙.中国水系的盒维数及其关系[J].水科学进展,2003,14(6):731-735