Controls of alluvial cover formation, morphology and bedload transport in a sinuous channel with a non-alluvial boundary

Papangelakis E.; Welber M.; Ashmore P.; MacVicar B.

首页> 外文期刊>Earth Surface Processes and Landforms: The journal of the British Geomorphological Research Group >Controls of alluvial cover formation, morphology and bedload transport in a sinuous channel with a non-alluvial boundary

【24h】

Controls of alluvial cover formation, morphology and bedload transport in a sinuous channel with a non-alluvial boundary

机译：具有非冲积界面的血压渠道中的冲积盖形成，形态和床单运输的控制

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

The alluvial cover in channels with non-alluvial beds is a major morphologic feature in these rivers and has important geomorphic and ecologic functions. Although controls on the extent of the alluvial cover have been previously researched, little is known about the role of channel meanders in shaping the three-dimensional morphology and bedload transport rates in these rivers. Flume experiments were conducted in a fixed-bed sinuous channel scaled from an engineered urban river. A fully graded sediment supply mixture was fed into the bare channel at rates ranging between 0.3 and 1.2 times the estimated channel capacity under constant discharge. The three-dimensional morphology and surface texture of the alluvial cover were captured using photogrammetry, and the sediment output was periodically measured and sieved. A stable alluvial cover was achieved under all sediment supply conditions that coincided with a sediment transport equilibrium. The sediment supply rate controlled the final areal extent, mass and volume of the alluvial cover, while cover developed as a periodic series of stable bars 'fixed' by the channel planform. The alluvial cover development followed consistent trajectories relative to angular position around bends but developed to a greater degree and higher elevation with increasing sediment supply. The stable cover extent had a logarithmic relationship with the relative sediment supply, while the final mass, volume and bar height had linear relationships. The final channel morphology was characterized by fine-textured point bars with flat tops and steep margins connected by coarse riffle features. The outside of banks between bend apexes remained bare, even at sediment supply conditions exceeding the channel capacity. The length of the exposed outer banks followed predictable linear relationships with the total cover extent. Insights from this study can provide guidance for the management of channels with non-alluvial boundaries and provide validation for models of sinuous bedrock channel abrasion. (c) 2020 John Wiley & Sons, Ltd.

机译：None

著录项

来源
《Earth Surface Processes and Landforms: The journal of the British Geomorphological Research Group》 |2021年第2期|共18页
作者
Papangelakis E.; Welber M.; Ashmore P.; MacVicar B.;
展开▼
作者单位

Univ Western Ontario Dept Geog London ON Canada;

Univ Western Ontario Dept Geog London ON Canada;

Univ Western Ontario Dept Geog London ON Canada;

Univ Waterloo Dept Civil &

Environm Engn Waterloo ON Canada;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类地球物理学;
关键词
alluvial cover; semiamp; 8208; alluvial; bedload transport; meanders; surface texture; flume experiments;

机译：冲积盖;半＆amp;8208;冲积;床单运输;蜿蜒;表面纹理;水果实验;

相似文献

外文文献
专利

1. Channel morphologic processes of a highly sinuous bend approaching neck cutoff by bank erosion in the middle Yangtze River [J] . Zhiwei Li, Hanyuan Yang, Junqiang Xia, 国际泥沙研究（英文版） . 2021,第004期
2. EXPERIMENTAL STUDY OF BEDLOAD TRANSPORT IN UNSTEADY OPEN-CHANNEL FLOW [J] . 国际泥沙研究：英文版 . 1997,第003期
3. Bedload transport in channel bends [J] . 自然科学进展（英文版） . 1995,第001期
4. REGIME MORPHOLOGY OF EQUILIBRIUM ALLUVIAL CHANNELS [J] . 国际泥沙研究：英文版 . 1999,第002期
5. Sediment transport under the presence and absence of emergent vegetation in a natural alluvial channel from Brazil [J] . José Ramon Barros Cantalice, Vijay P. Singh, Wagner Luís da Silva Souza 国际泥沙研究（英文版） . 2016,第004期
6. Riverbed dune morphology of the Lowermost Mississippi River -Implications of leeside slope, flow resistance and bedload transport in a large alluvial river [J] . Wu Shuaihu, Xu Y. Jun, Wang Bo, Geomorphology . 2021,第Jula15期

机译：河床沙丘形态的莱斯德利斯皮希河 - 腰坡，抗震和床荷载在大型冲积河中的河流
7. Performance of bedload transport equations in a mixed bedrock-alluvial channel environment [J] . Bartels Guilherme Kruger, dos Reis Castro Nilza Maria, Collares Gilberto Loguercio, Catena: An Interdisciplinary Journal of Soil Science Hydrology-Geomorphology Focusing on Geoecology and Landscape Evolution . 2021,第1期

机译：床单输送方程在混合基岩冲积通道环境中的性能
8. Bedload transport and temporal variation of non-uniform sediment in a seepage-affected alluvial channel [J] . Sharma Anurag, Herrera-Granados Oscar, Kumar Bimlesh Hydrological sciences journal . 2019,第5a8期

机译：受渗流影响的冲积河道中非均质沉积物的基床输运和时间变化
9. 28 Alluvial Steep Channels: Flow Resistance, Bedload Transport Prediction, and Transition to Debris Flows [C] . Dieter Rickenmann International Gravel-Bed Rivers Workshop . 2012

机译：28冲积陡光通道：流动阻力，床单运输预测和碎片流动过渡
10. Laboratory Experiments on Alluvial Cover in Mixed Bedrock-Alluvial Meandering Channels and on the Formation and Evolution of Supraglacial Meltwater Meandering Streams [D] . Fernandez Arrieta, Roberto. 2018

机译：基岩冲积混合曲流河道冲积层及超冰川融水曲折流形成与演化的室内实验
11. From the Cover: Molecular transport through channels and pores: Effects of in-channel interactions and blocking [O] . Wolfgang R. Bauer, Walter Nadler 2006

机译：从封面开始：通过通道和孔的分子运输：通道内相互作用和封闭的影响
12. Vegetative impacts upon bedload transport capacity and channel stability for differing alluvial planforms in the Yellow River source zone [O] . Z. W. Li, G. A. Yu, G. Brierley, 2016

机译：黄河源区不同冲积平原的河床运输能力和河道稳定性的植被影响
13. Transport of Bedload Sediment and Channel Morphology of a Southeast Alaska Stream [R] . Estep, M. A. , Beschta, R. L. 1985

机译：阿拉斯加东南部河床沉积物输送及河道形态

Controls of alluvial cover formation, morphology and bedload transport in a sinuous channel with a non-alluvial boundary

摘要

著录项

相似文献

相关主题

期刊订阅