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网状河流多重河道形成过程的实验模拟
Experimental Simulation of Anastomosing Multiple Channel Formation

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文摘 网状河流是受到人们关注的新型冲积河流,其水文特征、地貌特征和沉积特征已经不同程度地被揭示.然而,网状河流的水槽实验迄今仍是空白,而水槽模拟实验是在时间和空间都大大缩小之后的自然界河流演变过程的再现.本文报道的是在实验水槽中通过原河道决口后网状河流的发生和演变过程.实验初始条件为:水槽辅助区的待决口河道,目标区为轴部略微下凹的长方形泛滥平原(4.5 m×16.5 m),其上下层分别为1.5 cm厚、中值粒径为0.0132 mm的高岭土层和0.5 m厚、中值粒径为0.188mm的天然细砂层,从5.5 m~17 m区段的平均纵比降为0.0058,17m~22 m区段的平均纵比降为0.0077.采用的定常流量为3 L/s,悬移质输沙量在前3小时为4.5g/min,其后为1.2 g/s.实验总历时50小时.实验初期,目标区的上游段以垂向加积作用为主,中游以随机侵蚀为主,下游以溯源侵蚀为主,在13.5小时左右,相互连通的多重河道的网状河流体系的雏形基本展现.此后至25.5小时,网状河道的演变以下蚀为主演变为以适度的侧蚀,但河岸的后退幅度很小,标志网状河道逐步过渡到成熟期.从25.5小时至50小时,个别河道的局部废弃和决口是该成熟期网状河道演变的新特点.实验成功地模拟了天然网状河流的形成、发展和演变过程,同时也证明了它是不同于分汊河流的河型.这不但是网状河流形成和演变过程的水槽模拟的有益尝试,而且有助于人们进一步认识网状河流的河性.
其他语种文摘 Anastomosing river is a new fluvial river pattern that gets more attention from researchers. The hydrological, geomorphological and sedimentological characteristics of some anas-tomosing rivers have been revealed. But the experiment simulation of anastomosing river is va-cant hitherto. The flume simulation experiments are the reappearance of natural rivers under the condition of decreasing time and space. This work reports a formation and evolution of anasto-mosing river simulated in a flume. The experimental beginning condition is: an artificial mean-dering channel in the assistant area of flume; a rectangle floodplain (4.5 m * l6.5 m) with con-cave cross sections is in the objective area and its stratum has a structure of double layers. The upper layer with a thickness of 1.5 cm consisted of Gaolin whose median grain size is 0.0132 mm;below layer with a thickness of 0.5 m consisted of fine sands whose median grain size is 0.188 mm. The mean longitudinal gradient of the floodplain is 0.0058 from 5.5 m to 17 m and 0.0077 from 17 m to 22 m along the ordinate. Adoptive constant discharge is 3 cm~3/s. Suspend-ed sediment load is 4.5 g/min in the first 3 hours and 1.2 g/s thereafter. The total time span of flume experiment is 50 hours. In the initial stage of simulation the sedimentation mainly oc-curred in the upper reach, the random erosion occurred at the middle reach and the backward erosion mainly occurred in the lower reach of the objective area. A rudimental anastomosing river with multiple channels connected each other basically appears about 13.5 hours. Hereafter up to 25.5 hours the evolution fashion of the anastomosing river changed from' downcutting ero-sion to lateral erosion, but the fall back of channel banks is not evident. It indicates that the anastomosing channels change into their autumn. From 25.5 hours to 50 hours the abandonment or avulsion of individual channel is the new evolution characteristics of the simulated anasto-mosing river. The whole flume experiment simulates successfully the formation and evolution of natural anastomosing rivers and proves that the anastomosing river is a new river pattern which is different from anabranched river. This is a useful attempt to reveal the formation of anasto-mosing river via flume simulation and helpful to understand the characteristics' of anastomosing river.
来源 地理科学进展 ,2004,23(3):34-42 【核心库】
关键词 网状河流 ; 模拟实验 ; 侵蚀 ; 加积 ; 多重河道 ; 泛滥平原 ; 演变
地址

中国科学院地理科学与资源研究所, 北京, 100101

语种 中文
文献类型 研究性论文
ISSN 1007-6301
学科 地质学
基金 国家自然科学基金项目 ;  中国科学院地理科学与资源研究所知识创新工程领域前沿项目
文献收藏号 CSCD:1706172

参考文献 共 33 共2页

1.  Smith D G. examples from alluvial vallays near Banff. Journal of Sedimentary Petrology,1980,50:157-164 CSCD被引 18    
2.  Rust B R. Cooper's Creek. Journal of Sedimentary Petrology,1981,51:745-755 CSCD被引 5    
3.  Smith D G. modern exampies from western Canada. Modern and ancient fluvial systems. Spec. Pubis. Int. Ass. Sediments. Blackwell,1983:155-168 CSCD被引 1    
4.  Nanson G G. Cooper Creek. Geology,1986,14:175-178 CSCD被引 2    
5.  Smith D G. Anastomosing river deposits. Sediment. Geol.,1986,46:177-196 CSCD被引 10    
6.  T rngvist T E. Longitudinal facies architecture changes of a Middle Holocene anastomosing distributary system (Rhine-Meuse delta. Sedimentary Geology,1993,85:203-220 CSCD被引 1    
7.  Knighton A D. Anastomosis and the continuum of channel pattern. Earth Surf. Procs. Landforms,1993,18:613-625 CSCD被引 13    
8.  张周良. 广东三水盆地第四纪网状河沉积特征. 沉积学报,1997,15(4):58-63 CSCD被引 7    
9.  Makaske B. forms. Nederlandse Geografische Studies vol. 249. Koninklijk Nederlands Aardrijkskundig Genootschap/Faculteit Ruimtelijke Wetenschappen,1998 CSCD被引 1    
10.  王随继. 网状河流体系的基本特征及其影响因素. 地理科学,1999,19(5):422-427 CSCD被引 13    
11.  尹寿鹏. 网状河比较沉积学研究. 沉积学报,2000,18(2):221-226 CSCD被引 9    
12.  王随继. 芒崖凹陷干旱气候背景下网状河流沉积体系及演化. 地球学报,2000,21(1):92-97 CSCD被引 4    
13.  Makaske B. a review of their classication. Earth~Science Review,2001,53:149-196 CSCD被引 26    
14.  王随继. 西江和北江三角洲区的水沙特点及河道演变特征. 沉积学报,2002,20(3):376-381 CSCD被引 7    
15.  王随继. 赣江入湖三角洲上的网状河流体系研究. 地理科学,2002,22(2):202-207 CSCD被引 14    
16.  王随继. 网状河流研究进展述评. 地理科学进展,2002,21(6):12-21 CSCD被引 2    
17.  Gibling. Ribbon sandstones in the Pennsylvanian Waddens Cove Formation. Sedimentology,1990,37:45-65 CSCD被引 1    
18.  Gibling M R. Anastomosing river sedimentation in the Channel Country of central Australia. Sedimentology,1998,45:595-619 CSCD被引 1    
19.  Harwood K. flood partitioning and changing flow patterns. Earth Surface Processes and Landforms,1993,18:741-748 CSCD被引 1    
20.  King W A. Morphology and recent sediments of the lower anastomosing reaches of the Attawapiskat River. Sedimentary Geology,1984,37:295-320 CSCD被引 1    
引证文献 7

1 王随继 黄河流域河型转化现象初探 地理科学进展,2008,27(2):10-17
CSCD被引 26

2 李敏 沉积物理模拟技术进展及发展趋势 地质科技情报,2010,29(4):139-142
CSCD被引 0 次

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