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This book focuses on the phenomenon of sediment erosion and resuspension in the Yellow River delta, China, which is a vital issue involved in understanding the sediment transport processes in estuarine and coastal environments, and how these contribute to the nature and distribution of geohazards in the subaqueous Yellow River delta and Bohai Sea. The most important sections of this book will be the detailed physical mechanisms and theoretical models of sediment erosion and resuspension problem fully considering the wave-induced seabed dynamic response to waves, which are particularly useful for postgraduate students and junior researchers entering the discipline of estuary and coastal sedimentation, marine geotechnical engineering, estuary and coastal engineering, harbor and waterway engineering and coastal environmental protection. This book can also serve as a textbook for advanced graduate students of Marine Engineering Geology and Estuarine Sediment Dynamics.
In Physical Processes in Estuaries the present day knowledge of the physics of transport phenomena in estuaries and their mathematical treatment is summarized: It is divided into following parts: - Water movements in estuaries - Estuarine fronts and river plumes - Internal waves and interface stability - Fine sediment transport, aggregation of particles, settling velocity of mud flocs - Sedimentation and erosion of fine sediments. For each topic an up-to-date review and recommendations for future research are given, followed by results of original studies. Since estuarine environments are the first to be threatened by urbanization and industrial exploitation this book is an important tool for students and researchers of environmental problems as well as for consultants and water authorities.
This dissertation, "Sediment Flux Through the Yellow River Sediment Routing System" by Changxing, Shi, 師長興, was obtained from The University of Hong Kong (Pokfulam, Hong Kong) and is being sold pursuant to Creative Commons: Attribution 3.0 Hong Kong License. The content of this dissertation has not been altered in any way. We have altered the formatting in order to facilitate the ease of printing and reading of the dissertation. All rights not granted by the above license are retained by the author. Abstract: Abstract of thesis entitled 'Sediment Flux through the Yellow River Sediment Routing System' Submitted by SHI Changxing for the degree of Doctor of Philosophy at The University of Hong Kong in August 2002 Sediment fluxes through riverine sediment routing systems are one of the main causes for many environmental problems and disasters, to which the effective solutions should be based on quantification of the sediment fluxes and clarification of related mechanisms. This study probed into the sediment fluxes through one of the largest riverine sediment routing systems in the world, the Yellow River sediment routing system, in a spatial detail of four basic functional cells and on time scales of 0 4 10 -10 years. Investigation of the sediment fluxes was carried out through construction of sediment budgets of the system mainly based on information derived from deposits in the sinks and records of sediment load, and through analyzing some important mechanisms for the characteristics of the constructed sediment fluxes in the system. The dry bulk densities of deposits in various depositional environments in the system were investigated for acquiring reliable sediment budgets from deposits. The sediment budget for about 10 years when the Diaokouhe lobe of the Yellow River delta was formed was 14.510 tones of sediment income distributed into the lower Yellow River, the delta, and the sea by proportions of 33%, 49%, and 18%, respectively. The high proportion of sediment deposition in the delta was associated with the high sediment-sequestering efficiency of the ephemeral sediment-charged hyperpycnal underflows off the river mouth and floods over the delta plain because these two processes tend to arrest all the incoming fine as well as coarse particles. A positive relation exists between the proportion of sediment deposited in the deltaic lobe and sediment discharge. The amount of sediment escaping from the delta displays an exponentially decreasing trend with the distance from the delta front. 11 The sediment budget for the period from 1855 to 1968 was 1.87810 tons of sediment income deposited in the lower reaches and the river delta by proportions of 62% and 32%, respectively. The larger proportion of sediment deposition in the lower reaches was associated with the nonexistence of dykes during the period from 1855 to 1875 and the frequent dyke breaching before 1949. It was found that the percentages of sediment deposition in the delta on two time scales are different because the expanding delta captures the sediments, which were deposited in front of the delta in the earlier periods. The total sediment yield from the source in the Holocene was found to be about 12 810 tons, which was the total mass of sediments accumulated in all the sinks of the system. Using radiocarbon dates in the Huang-Huai-Hai Plain, it was revealed 9 that the annual sediment yield on a 2500-year average increased from 0.6810 tons 9 in the first quarter to 1.0110 tons in the last quarter of the Holocene. Furthermore, it was disclosed that human activities enlarged the sediment yield by a total of about 12 0.310 tons over the past 2500 years and were the cause for the difference between 9 the measured sediment yield of 1.610 t/yr and the predicted natural sediment yield 9 of 0.9510 t/yr in the middle of the last century. DOI: 10.5353/th_b2985194 Subjects:
There is an alarming tendency today to assume that something calculated by a computer must be correct, yet the phrase 'garbage in, garbage out' (gigo) is possibly nowhere more (generally) appropriate than in computer modelling of cohesive sediment behaviour. The behaviour of 'mud' is highly complex and one only needs to look at a sample under a microscope to see why - the variety of particle shapes, not to mention the presence of living organisms, make it a substance with properties virtually unique to its situation which even change with time. For many years most researchers tended to avoid it, preferring to study sand and gravel, but a dedicated few tackled it and found a forum for discussing their work in the first Cohesive Sediments Workshop in Florida in 1980. The workshop met about every three years resulting in publication of some of the most definitive papers on the subject. By 1994 it was time to recognise the extensive research being carried on in Europe by holding the workshop in that region. Intercoh '94 (the 4th Nearshore and Estuarine Cohesive Sediment Transport Conference) drew together about 100 of the world's leading researchers in the field. The resulting papers, presented in this volume, truly represent the definitive state of the art on the measurement and modelling of mud properties today.
Covers the movement of mud, sand, and gravel on the continental shelf in the nearshore zone, on beaches, and in estuaries. A multi-disciplinary treatment integrating marine geology, oceanography, and engineering. Presents concepts in engineering sediment distribution patterns that improve the prediction of erosion and deposition rates. Reviews background material as well as the results of recent research.