平原河网地区河流结构发育受到自然条件和城市化的双重影响。依据遥感解译数据,围绕城市化水平、河流形态、河流结构和河流调蓄功能四个维度,就建成区面积比例、河流长宽分布、河系分维、河流调蓄能力等具体指标,分析了城市化水平和土地利用特征不同区域的河流空间形态、结构特征和功能状态,探讨了城市化进程中平原河网地区河流结构的可能演化轨迹,尝试建立了城市化影响下平原河网地区河流结构分类方法,提出了城市河流综合整治过程中应充分重视保护自然河流结构,注重发挥河流综合功能等观点。
Stream structure development in river network regions was both affected by physical conditions and rapid urbanization.Based on remote-sensing data,four measuring dimensions including the degree of urbanization,river patterns,stream structure and river functions were brought forward to be used as tools for stream structure classification.Twelve indicators such as the percentage of urbanized area,river length and width distribution,river fractal dimension,river flood storage and control capacities were designed for explaining the four measuring dimensions and describing the characteristics of stream structure type.The characteristics of three kinds of stream structure that were defined as the mainstream type,and the "#" type and the natural type were discussed based on the classification system developed in the paper.The results showed that the mainstream type was formed mainly because of high level of urbanization and branches were engineered out for the sake of urban construction and expanded.The natural type was maintained mostly in the area with lower lever of urbanization,which always reflects the local physical features.The "#" type stream structure was a sort of result caused by intermediate level of urbanization under spatial distribution of mainstreams in a catchment.Generally,following the urbanization process,stream structure might be changed from the natural type to the "#" type and at last,to become the mainstream type.The paper further discussed the qualitative and quantitative criteria that could used to guide differentiating structure status in river network regions.The authors thought it was valuable and important to maintain natural stream structure and plan and restore multi-functions of rivers in the process of urbanization.
[1] 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.
[2] G Brierley,K Fryirs,D Outhet.Application of the River Styles framework as a basis for river manaement in New South Wales,Australia[J].Applied Geography,2002,22:91-122.
[3] 姜跃良,王美敬,李然,等.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,2003,34(8):75~78.
[4] 芮孝芳.水文学原理[M].北京:中国水利水电出版社,2004.
[5] 顾慰祖.水文学基础[M].北京:水利电力出版社,1984.
[6] J David Allan.Stream Ecology-structure and function of running waters[M].Chapman & Hall Oxford:printed in Great Britain by Alden Press,1995.
[7] 杨凯,袁雯,赵军,等.感潮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.
[8] 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.
[9] 罗文锋,李后强,丁晶,等.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.
[10] David G.Tarboton.Fractal river networks,Horton′s laws and Tokunaga cyclicity[J].Journal of Hydrology,1996,187(1-2):105-117.
[11] James W Kirchner.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.
[12] 何隆华,赵宏.水系的分形维数及其意义[J].地理科学,1996,16(2):124~126.
[13] 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.
[14] 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.
[15] A Grave,P Davy.Scaling relationships of channel networks at large scales:Examples from two large-magnitude watersheds in Brittany,France[J].Tectonophysics,1997,269(1-2):91-111.
[16] Carlos E Puente.On the fractal structure of networks and dividers within a watershed[J].Journal of Hydrology,1996,187(1-2):173-181.
[17] 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):325~330.
[18] Qiuming Cheng.GIS-based statistical and fractal/multifractal analysis of surface stream patterns in the Oak Ridges Moraine,Computes & Geosciences,2001,27:513-526.
[19] 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.
[20] 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.
[21] 应龙弟,徐华.崇明岛水系改造对水资源的影响初探[J].吉林水利,2004,(6):5~7.
[22] Obuya Nishimura.Novel water facilities for creation of comfortable urban micrometeorology[J].Solar Energy,1998,64(4-6):197-207.
[23] 袁雯,杨凯,唐敏,等.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,2005,24(5):717~724.
[24] 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.
[25] 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.
[26] 汪松年,阮仁良.上海市水资源普查报告[M].上海:上海市科学技术出版社,2001.
[27] 《上海水利志》编委会.上海水利志[M].上海:上海社会科学院出版社,1997.
