Your search keyword '"Xie, Dongfeng"' showing total 4 results

1. Correction: Modeling the morphodynamic response of a large tidal channel system to the large-scale embankment in the Hangzhou Bay, China.

Author

Xie, Dongfeng

Subjects

*EMBANKMENTS, *LINES of credit, *PUBLIC domain (Copyright law)

Abstract

This document is a correction notice for an article titled "Modeling the morphodynamic response of a large tidal channel system to the large-scale embankment in the Hangzhou Bay, China." The correction addresses an error in the copyright line of the original article. The correct copyright information is provided, stating that the article is licensed under a Creative Commons Attribution 4.0 International License. The correction notice is authored by Dongfeng Xie. [Extracted from the article]

Published

2024

2. Local human activities overwhelm decreased sediment supply from the Changjiang River: Continued rapid accumulation in the Hangzhou Bay-Qiantang Estuary system.

Author

Xie, Dongfeng, Pan, Cunhong, Wu, Xiuguang, Gao, Shu, and Wang, Zheng Bing

Subjects

*SEDIMENTATION & deposition, *MARINE sediments, *COASTAL ecosystem health, *HYDRODYNAMICS, *EMBANKMENTS

Abstract

We investigate the morphological responses of the Hangzhou Bay, China, located immediately south of the Changjiang Estuary, to the drastic reduction of the sediment load from the Changjiang River and the large-scale coastal embankment schemes over past decades. The spatial patterns of deposition and erosion, sediment volume changes, and the hydrodynamic and sediment dynamic feedback were analyzed, on the basis of historical bathymetric and hydrographic data. The results show that the sedimentation rates in the bay have generally increased rather than decreased over the past decades, despite bed erosion having occurred in the northern bay-mouth. This observation reveals that the influence of the reduction in the Changjiang River sediment supply on the morphological evolution of Hangzhou Bay has to date been insignificant, mainly due to the buffering effect of existing sediment in the outer Changjiang Estuary. The morphological change is mainly related to the implementation process of the coastal embankment. Sediment accumulation induced by progressive seaward coastal embankment has resulted in seaward aggradation from the Qiantang Estuary towards Hangzhou Bay. Analysis of the annually-averaged high and low tidal levels, and durations of rising and falling tides reveals that flood dominance in the inner bay has been increased, due to the coastal embankment and sediment accumulation. The ratio between annually-averaged rising tide and falling tide durations have decreased from 0.85 to 0.63. The tidal prism at the interface between the inner and outer bay has decreased by about 25% since the 1980s, while the net landward sediment flux has been intensified to a certain extent, which is responsible for the intensifying sedimentation in the inner bay. The local human activities have overwhelm the decreased sediment from the Changjiang River. Although the coastal embankment will cease in the near future, the morphological response to human activities is expected to continue on for a longer time. [ABSTRACT FROM AUTHOR]

Published

2017

3. River, tide and morphology interaction in a macro-tidal estuary with active morphological evolutions.

Author

Xie, Dongfeng, Bing Wang, Zheng, Huang, Junbao, and Zeng, Jian

Subjects

*ESTUARIES, *SEDIMENT transport, *WATER levels, *CONCEPTUAL models, *EMBANKMENTS

Abstract

• Spring tide amplifies more than neap tide in Qiantang Estuary. • Tidal dynamics is strongly influenced by morphological evolution. • A conceptual model of river-tide-morphology interaction is proposed. Understanding tidal dynamics in estuaries is essential for tidal predictions and assessments of sediment transport and associated morphological changes. Most studies on river-tide interaction ignored the influences of morphological evolutions under natural conditions such as the seasonal and interannual variations of river discharge. This study analyzes the multiple-timescale tidal dynamics in the Qiantang Estuary, a macro-tidal estuary in China with an extremely active morphological evolution. A large dataset including water levels at representative stations, river discharges and bathymetries since 1980 has been collected. The results of the analysis show that within a spring-neap cycle, the tidal amplification in the upper estuary is stronger during spring tide than during neap tide. This unexpected behavior is due to the high sediment concentration and the unique longitudinal profile of the estuary. On the seasonal and interannual timescales, the low water levels in the upper estuary depend on the local bathymetrical conditions. Tidal ranges in the upper estuary are larger in the high flow season and years, than in the low flow season and years, due to the erosion at high flow, in contrast to estuaries with less active morphological changes. During low flow season and years, the bed is gradually recovered, the low waters are elevated, and the tidal ranges decrease accordingly. A good relationship exists between the tidal ranges and the depth of the upper estuary. In the lower estuary, the flood dominance increases continuously due to embankment. In the upper estuary, the flood dominance is increased during the high flow periods, explaining the fast sediment input and bed recovery in the post high flow periods. A conceptual model of river-tide-morphology interaction of the estuary is proposed, which is also applicable for other shallow systems. [ABSTRACT FROM AUTHOR]

Published

2022

4. Morphodynamic modeling the impact of large-scale embankment on the large bar in a convergent estuary.

Author

Xie, Dongfeng, Wang, Zheng Bing, Van der Wegen, Mick, and Huang, Junbao

Subjects

*EMBANKMENTS, *ESTUARIES, *TIDAL currents, *STREAMFLOW, *COASTAL zone management, *WORKFLOW

Abstract

Many alluvial estuaries worldwide include an inside bar system, a large sediment deposit deeply stretched into the estuary. A good example of such a system is the large sediment deposit in the Qiantang Estuary, China. Its length and height reach 130 km and 10 m, respectively. Bathymetrical comparison reveals that the large bar has moved seaward by around 15 km over the last decades, probably related to the large-scale coastal embankment project. This motivated a quantitative investigation of the impact of estuarine planform on the inside bar development. The bar morphology is reproduced by means of an idealized 1-D morphodynamic model. Model results suggest that the bar movement is related to a decreasing tidal prism, increasing flood dominance in the lower reach and enhanced ebb currents in the upper reach, in response to the embankment. The timescale of the morphological response is only several years. The rapid response is related to the strong tidal currents and large sediment fluxes within the estuary. Sensitivity experiments show that the location and dimensions of the bar are related to the convergence length of the estuary. A decrease of the convergence length causes seaward movement and shortening and lowering of the bar. The bar dimensions also depend on the ratio between river and tidal discharges. When the ratio increases, the bar apex moves seaward and the elevation decreases. The bar movement has significantly influenced the tidal bore in the Qiantang Estuary. • A morphodynamic model reproduces observed seaward movement of a large inside bar in the estuary over the last decades. • Model results show sensitivity to river flow and embankment works on bar dimensions and location. • The bar evolution has significant influence on the tidal bore formation. [ABSTRACT FROM AUTHOR]

Published

2021