FIELD MEASUREMENT ON THE TURBIDITY MAXIMUM MOVEMENT IN THE CHIKUGOGAWA RIVER ESTUARY AND THE ARIAKE SEA

The Ou River, a medium-sized river in the southeastern China, is examined to study the estuarine turbidity maximum (ETM) response to rapidly varied river discharge, i.e., peak river discharge (PRD). This study analyzes the difference in ETM and sediment transport mechanisms between low-discharge and PRD during neap and spring tides by using the Finite-Volume Community Ocean Model. The three-dimensional model is validated by in-situ measurements from 23 April to 22 May 2007. In the Ou River Estuary (ORE), ETM is generally induced by the convergence between river runoff and density-driven flow. The position of ETM for neap and spring tides is similar, but the suspended sediment concentration during spring tide is stronger than that during neap tide. The sediment source of ETM is mainly derived from the resuspension of the seabed. PRD, compared with low-discharge, can dilute the ETM, but cause more sediment to be resuspended from the seabed. The ETM is more seaward during PRD. After PRD, the larger the peak discharge, the longer the recovery time will be. Moreover, the river sediment supply helps shorten ETM recovery time. Mechanisms for this ETM during a PRD can contribute to studies of morphological evolution and pollutant flushing.

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Suspended sediment load in the turbidity maximum zone at the Yangtze River Estuary: The trends and causes

Journal of Geographical Sciences ◽

10.1007/s11442-014-1077-3 ◽

2013 ◽

Vol 24 (1) ◽

pp. 129-142 ◽

Cited By ~ 36

Author(s):

Yunping Yang ◽

Yitian Li ◽

Zhaohua Sun ◽

Yongyang Fan

Keyword(s):

Suspended Sediment ◽

Yangtze River ◽

Sediment Load ◽

River Estuary ◽

Turbidity Maximum ◽

Yangtze River Estuary ◽

Suspended Sediment Load ◽

The Yangtze River ◽

Turbidity Maximum Zone ◽

The Yangtze River Estuary

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Modelling study on estuarine circulation and its effect on the turbidity maximum zone in the Yalu River Estuary, China

Estuarine Coastal and Shelf Science ◽

10.1016/j.ecss.2021.107634 ◽

2021 ◽

pp. 107634

Author(s):

Gang Yang ◽

Xiao Hua Wang ◽

Zhixin Cheng ◽

Yi Zhong ◽

Thomas Oliver

Keyword(s):

River Estuary ◽

Estuarine Circulation ◽

Turbidity Maximum ◽

Turbidity Maximum Zone ◽

Yalu River ◽

Modelling Study

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Dynamics of the Estuarine Turbidity Maximum Zone from Landsat-8 Data: The Case of the Maroni River Estuary, French Guiana

Remote Sensing ◽

10.3390/rs12132173 ◽

2020 ◽

Vol 12 (13) ◽

pp. 2173 ◽

Cited By ~ 4

Author(s):

Noelia Abascal-Zorrilla ◽

Vincent Vantrepotte ◽

Nicolas Huybrechts ◽

Dat Dinh Ngoc ◽

Edward J. Anthony ◽

...

Keyword(s):

River Flow ◽

Temporal Dynamics ◽

Spring Tide ◽

River Estuary ◽

Turbidity Maximum ◽

Sediment Supply ◽

Estuarine Turbidity Maximum ◽

Landsat 8 ◽

Residual Circulation ◽

Spatio Temporal

The estuarine turbidity maximum (ETM) zone occurs in river estuaries due to the effects of tidal dynamics, density-driven residual circulation and deposition/erosion of fine sediments. Even though tropical river estuaries contribute proportionally more to the sediment supply of coastal areas, the ETM in them has been hardly studied. In this study, surface suspended particulate matter (SPM) determined from OLI (Operational Land Imager)-Landsat 8images was used to gain a better understanding of the spatio-temporal dynamics of the ETM of the tropical Maroni estuary (located on the Guianas coast, South America). A method to estimate the remotely-sensed ETM location and its spatiotemporal evolution between 2013 and 2019 was developed. Each ETM was defined from an envelope of normalized SPM values > 0.6 calculated from images of the estuary. The results show the influence of the well-marked seasonal river discharge and of tides, especially during the dry season. The ETM is located in the middle estuary during low river-flow conditions, whereas it shifts towards the mouth during high river flow. Neap–spring tidal cycles result in a push of the ETM closer to the mouth under spring-tide conditions or even outside the mouth during the rainy season. An increase in SPM, especially since 2017, coincident with an extension of the ETM, is shown to reflect the periodic influence of mud banks originating from the mouth of the Amazon and migrating along the coast towards the Orinoco (Venezuela). These results demonstrate the advantages of ocean color data in an exploratory study of the spatio-temporal dynamics of the ETM of a tropical estuary, such as that of the Maroni.

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