Turbidity limits gas exchange in a large macrotidal estuary |
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| Authors: | Gwenaël Abril Marc-Vincent Commarieu Aldo SottolichioPatrice Bretel Frédéric Guérin |
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| Institution: | Laboratoire Environnements et Paléoenvironnements Océaniques (EPOC), UMR CNRS 5805, Université Bordeaux1, Talence, France |
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| Abstract: | In estuaries, the gas transfer velocity (k) is driven by a combination of two major physical drivers, wind and water current. The k values for CO2 in the macrotidal Gironde Estuary were obtained from 159 simultaneous pCO2 and floating chamber flux measurements. Values of k increased with wind speed and were significantly greater when water currents and wind were in opposing directions. At low wind speeds (<1 m s−1), k increased with water current velocities (0–1.5 m s−1) following an exponential trend. The latter was a good proxy for the Y-intercept in a generic equation for k versus wind speed in estuaries. We also found that, in this turbid estuary, k was significantly lower at high turbidity. The presence of suspended material in great concentrations (TSS > 0.2 g L−1) had a significant role in attenuating turbulence and therefore gas exchange. This result has important consequences for modeling water oxygenation in estuarine turbidity maxima. For seven low turbidity estuaries previously described in the literature, the slope of the linear regression between k and wind speed correlates very well with the estuary surface area due to a fetch effect. In the Gironde Estuary, this slope follows the same trend at low turbidity (TSS < 0.2 g L−1), but is on average significantly lower than in other large estuaries and decreases linearly with the TSS concentration. A new generic equation for estuaries is proposed that gives k as a function of water current velocity, wind speed, estuarine surface area and TSS concentration. |
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| Keywords: | gas exchange turbulence wind current turbidity |
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