River flow control on intertidal mudflat sedimentation in the mouth of a macrotidal estuary. Cuvilliez, A., Lafite, R., Deloffre, J., Lemoine, M., Langlois, E., & Sakho, I. 239:174–181.
River flow control on intertidal mudflat sedimentation in the mouth of a macrotidal estuary [link]Paper  doi  abstract   bibtex   
The objective of this study is to analyze the impact of hydrological variability influenced by climatic phenomena upon the sedimentary exchange between the turbidity maximum (TM) and a river mouth intertidal mudflat. This study, carried out over a period of 10years (1997–2006) in the Seine Estuary (France), is specifically focused on two extreme periods: a wet one from 2001 to 2002 and a drier one from 2005 to 2006. This study is based on an original approach combining data gathered via low-altitude remote sensing with altimeter readings and ground-level measurements. During this 10year period, we observed a link between climate change and the sedimentary processes on the mudflat surface. The modifications of sedimentary processes are mainly connected to the multiannual variability of hydrological flow rates that control the positioning of the turbidity maximum, the source of the sedimentary material deposited in this intertidal zone. The TM at the mouth of the Seine estuary is well developed; its maximum mass is estimated to be between 300,000tons and 500,000tons (Avoine et al., 1981) with maximum concentrations in the surface waters ranging from 1 to 2g∙l−1 (Le Hir et al., 2001). Most of the fine particles stored within the TM have been found to originate from within the catchment area (Dupont et al., 1994). In the Seine estuary, the dynamics of the estuarine TM, in response to hydrodynamic forcings, have been previously described (Avoine et al., 1981) and modeled (e.g. Brenon and Le Hir, 1999, Le Hir et al., 2001). The TM is upstream of the northern mudflat when the river flow is low (\textless450m∙s−1) and nearby the study area when the river flow is higher. Thus during wet periods, the sedimentation rates increase by +17cm∙y−1, while during the drier one (when the turbidity maximum is located upstream of the estuary) we observed an erosion rate of 7.6cm∙y−1. Sedimentation events in the mudflat resulting from spring tides are less frequent during dry periods, and they deposit a smaller quantity of sediment (−23% of total deposition mass per event). Because of the lower flow rates coupled with the impacts of local development, the flood tides have become dominant. This contributes to the addition of sandy or silty sediments on the mudflat, of which the slope has increased 450% over 8years caused by erosion.
@article{cuvilliez_river_2015,
	title = {River flow control on intertidal mudflat sedimentation in the mouth of a macrotidal estuary},
	volume = {239},
	issn = {0169-555X},
	url = {http://www.sciencedirect.com/science/article/pii/S0169555X15001610},
	doi = {10.1016/j.geomorph.2015.03.020},
	abstract = {The objective of this study is to analyze the impact of hydrological variability influenced by climatic phenomena upon the sedimentary exchange between the turbidity maximum ({TM}) and a river mouth intertidal mudflat. This study, carried out over a period of 10years (1997–2006) in the Seine Estuary (France), is specifically focused on two extreme periods: a wet one from 2001 to 2002 and a drier one from 2005 to 2006. This study is based on an original approach combining data gathered via low-altitude remote sensing with altimeter readings and ground-level measurements. During this 10year period, we observed a link between climate change and the sedimentary processes on the mudflat surface. The modifications of sedimentary processes are mainly connected to the multiannual variability of hydrological flow rates that control the positioning of the turbidity maximum, the source of the sedimentary material deposited in this intertidal zone. The {TM} at the mouth of the Seine estuary is well developed; its maximum mass is estimated to be between 300,000tons and 500,000tons (Avoine et al., 1981) with maximum concentrations in the surface waters ranging from 1 to 2g∙l−1 (Le Hir et al., 2001). Most of the fine particles stored within the {TM} have been found to originate from within the catchment area (Dupont et al., 1994). In the Seine estuary, the dynamics of the estuarine {TM}, in response to hydrodynamic forcings, have been previously described (Avoine et al., 1981) and modeled (e.g. Brenon and Le Hir, 1999, Le Hir et al., 2001). The {TM} is upstream of the northern mudflat when the river flow is low ({\textless}450m∙s−1) and nearby the study area when the river flow is higher. Thus during wet periods, the sedimentation rates increase by +17cm∙y−1, while during the drier one (when the turbidity maximum is located upstream of the estuary) we observed an erosion rate of 7.6cm∙y−1. Sedimentation events in the mudflat resulting from spring tides are less frequent during dry periods, and they deposit a smaller quantity of sediment (−23\% of total deposition mass per event). Because of the lower flow rates coupled with the impacts of local development, the flood tides have become dominant. This contributes to the addition of sandy or silty sediments on the mudflat, of which the slope has increased 450\% over 8years caused by erosion.},
	pages = {174--181},
	journaltitle = {Geomorphology},
	shortjournal = {Geomorphology},
	author = {Cuvilliez, Antoine and Lafite, Robert and Deloffre, Julien and Lemoine, Maxence and Langlois, Estelle and Sakho, Issa},
	urldate = {2019-04-15},
	date = {2015-06-15},
	keywords = {Seine estuary, Development, High resolution remote sensing, Hydrological variability, Mudflats, Sediment dynamics}
}

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