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Channel sedimentation and erosion of the Jiangsu reach of the Yangtze River during the last 44 years
Author(s) -
Jian Wang,
Shibiao Bai,
Ping Liu,
Yanyan Li,
Zhengrong Gao,
Guixian Qu,
Guangjie Cao
Publication year - 2009
Publication title -
earth surface processes and landforms
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.294
H-Index - 127
eISSN - 1096-9837
pISSN - 0197-9337
DOI - 10.1002/esp.1841
Subject(s) - sedimentation , erosion , channel (broadcasting) , yangtze river , hydrology (agriculture) , current (fluid) , geology , bank erosion , main river , elevation (ballistics) , environmental science , sediment , geomorphology , oceanography , geography , china , geotechnical engineering , drainage basin , archaeology , electrical engineering , engineering , cartography , geometry , mathematics
River channel sedimentation in the lower reaches of the Yangtze River can be affected by both changes in sea level and changes in solid discharge from the upper river. To evaluate dynamic changes of sedimentation and erosion in the Jiangsu reach of the Yangtze River (about 330 km in length) from 1959 to 2003, databases were designed and constructed using a digital elevation model (DEM) of channel topography based on the Jiangsu River Relief Map for 1959, 1970, 1985, 1992, and 2003. The results indicated that the main course of the Yangtze River in Jiangsu Province had experienced an obvious switch from sedimentation to erosion status around 1985 because of the decreasing amount of solid load from the upper parts of the river channel after that year. The sedimentation process in the main course of the Jiangsu reach of the Yangtze River demonstrated the propulsive process of ‘downstream‐ward aggradations.’ Between 1985 and 2003, the erosion rate of the lower segment was greater than those of the middle and upper segments; this is probably because both channel flow and tide current had influenced the lower segment. When channel flow combines with tide current in the same direction, channel erosion can be intensified, especially if there is a solid load shortage in the channel. Copyright © 2009 John Wiley & Sons, Ltd.