[en] The study of vertical particle dynamics in the highly turbid Gironde Estuary has shown intense cycles of sedimentation and resuspension at both diurnal and neap-spring time scales. Fluid mud, with suspended particulate matter (SPM) concentrations between 50 and 500 g liter-1, has been observed during neap tides. Vertical profiles of biogeochemical parameters have been measured in the fluid mud. Anoxic conditions have been detected when SPM concentration exceeded 50 g liter-1 in the upstream and 140 g liter-1 in the downstream parts of the maximum turbidity zone (MTZ). At the downstream part of the MTZ, anoxic fluid mud was partitioned into a denitrification layer (SPM = 140-250 g liter-1), intensively reworked at the tidal time scale, and by an Mn(IV)-reduction layer (SPM > 250 g liter-1) preferentially reworked at the neap-spring time scale. Due to the alternation of sedimentation and resuspension periods, most of the sediment experienced oxic/anoxic oscillations throughout the neap-spring cycle. Fluid mud resuspension occurred without any observable incidence on the surface-water oxygenation. An increase in total alkalinity was found in the fluid mud, due to both anaerobic respiration and a carbonate dissolution coupled to aerobic respiratory CO2 generation. This phenomenon significantly affected the inorganic carbon budget of the estuary, increasing the HCO3/- input to the coastal ocean and reducing the CO2 flux to the atmosphere. An accumulation of labile-dissolved organic carbon observed in the fluid mud suggests that these oscillations result in an acceleration of particulate organic matter (POM) decomposition. In the Gironde MTZ, a net loss of refractory land-derived POM occurs. This system acts as an efficient oxic/suboxic 'fluidized bed reactor', similar to mobile deltaic muds.
Disciplines :
Aquatic sciences & oceanology
Author, co-author :
Abril, Gwénaël; Université Bordeaux 1
Etcheber, Henri; Université Bordeaux 1
Le Hir, Pierre; Institut Français de Recherche et d’Exploitation de la Mer (Brest)
Bassoulet, Philippe; Institut Français de Recherche et d’Exploitation de la Mer (Brest)
Boutier, Bernard; Institut Franc¸ais de Recherche et d’Exploitation de la Mer (Nantes)
Frankignoulle, Michel; Université de Liège - ULiège
Language :
English
Title :
Oxic/anoxic oscillations and organic carbon mineralization in an estuarine maximum turbidity zone (The Gironde, France)
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