Fresh Water Inflow and Oyster Productivity in Apalachicola Bay, FL (USA)

Apalachicola Bay lies at the mouth of the Apalachicola River, where seasonally variable freshwater inflows and shifting winds have long been thought to contribute to the support of an unusually productive and commercially important oyster fishery. Links between the river and productivity have been s...

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Veröffentlicht in:	Estuaries and coasts 2011-09, Vol.34 (5), p.993-1005
Hauptverfasser:	Oczkowski, Autumn J., Lewis, F. Graham, Nixon, Scott W., Edmiston, H. Lee, Robinson, Rebecca S., Chanton, Jeffrey P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Algae Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Brackish Brackish water ecosystems Coastal Sciences Drought Earth and Environmental Science Ecology Environment Environmental Management Estuaries Fisheries Floodplains Fresh water Freshwater Freshwater & Marine Ecology Fundamental and applied biological sciences. Psychology Hydrodynamics Hydrology Invertebrates Isotopes Macroalgae Marine Mollusca Mollusks Nitrogen Oysters Particulate matter Phytoplankton Predators Primary production Rivers Salinity Sediments Stable isotopes Surface water Synecology Water and Health
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description	Apalachicola Bay lies at the mouth of the Apalachicola River, where seasonally variable freshwater inflows and shifting winds have long been thought to contribute to the support of an unusually productive and commercially important oyster fishery. Links between the river and productivity have been shown to lie in salinityinduced reductions in oyster predators and oyster disease as well as organic supplements from an extensive floodplain. Several studies have also indicated that nitrogen (N) and phosphorous (P) carried by the river are important in fertilization of bay primary production. While there is concern that upstream water withdrawals may impact the fishery, the importance of riverine N to oyster diets remains unclear. We measured N and carbon (C) stable isotopes (δ¹⁵N, δ¹³C) in macroalgae, surface-water nitrate, and surface sediments, which showed a gradient from enriched riverine δ¹⁵N values to more depleted values in the Gulf of Mexico. In contrast, δ¹³C of particulate matter is depleted in the river and enriched offshore. Oyster stable isotope values throughout Apalachicola Bay are more complex, but are dominated by freshwater inputs and reflect the variability and hydrodynamics of the riverine inflows.
doi_str_mv	10.1007/s12237-011-9383-9
format	Article
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While there is concern that upstream water withdrawals may impact the fishery, the importance of riverine N to oyster diets remains unclear. We measured N and carbon (C) stable isotopes (δ¹⁵N, δ¹³C) in macroalgae, surface-water nitrate, and surface sediments, which showed a gradient from enriched riverine δ¹⁵N values to more depleted values in the Gulf of Mexico. In contrast, δ¹³C of particulate matter is depleted in the river and enriched offshore. 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subjects	Algae Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Brackish Brackish water ecosystems Coastal Sciences Drought Earth and Environmental Science Ecology Environment Environmental Management Estuaries Fisheries Floodplains Fresh water Freshwater Freshwater & Marine Ecology Fundamental and applied biological sciences. Psychology Hydrodynamics Hydrology Invertebrates Isotopes Macroalgae Marine Mollusca Mollusks Nitrogen Oysters Particulate matter Phytoplankton Predators Primary production Rivers Salinity Sediments Stable isotopes Surface water Synecology Water and Health
title	Fresh Water Inflow and Oyster Productivity in Apalachicola Bay, FL (USA)
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