First elucidation of a blood fluke (Electrovermis zappum n. gen., n. sp.) life cycle including a chondrichthyan or bivalve. [PDF]
Warren MB, Bullard SA.
europepmc +1 more source
Phylogeography of Pteronotropis signipinnis, P. euryzonus, and the P. hypselopterus Complex (Teleostei: Cypriniformes), with Comments on Diversity and History of the Gulf and Atlantic Coastal Streams. [PDF]
Mayden RL, Allen J.
europepmc +1 more source
Identifying priority ecosystem services in tidal wetland restoration. [PDF]
Jackson CA +7 more
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Hydrodynamic Modeling of Hurricane Dennis Impact on Estuarine Salinity Variation in Apalachicola Bay
ABSTRACT Huang, W.; Hagen, S., and Bacopoulos, P., 2014. Hydrodynamic modeling of Hurricane Dennis impact on estuarine salinity variation in Apalachicola Bay. Hurricane Dennis made landfall in Florida on 10 July 2005 and caused a storm surge of 2.4 m in Apalachicola.
Wenrui Huang +2 more
exaly +5 more sources
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 shown to lie in salinity-induced reductions in oyster ...
Autumn Oczkowski +2 more
exaly +4 more sources
Carbon Reservoir Effects in Eastern Oyster from Apalachicola Bay, USA
AbstractEastern oyster (Crassostrea virginica) is an ubiquitous estuarine shellfish taxon in eastern North America and one of the most abundant materials available for radiocarbon (14C) dating. We examine spatiotemporal variability in carbon reservoir effects among pre-bomb oysters from Apalachicola Bay, USA, a river-influenced estuary on the northern ...
Carla S Hadden, Alexander Cherkinsky
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Modelling residence‐time response to freshwater input in Apalachicola Bay, Florida, USA
AbstractResidence time of an estuary can be used to estimate the rate of removal of freshwater and pollutants from river inflow. In this study, a calibrated three‐dimensional hydrodynamic model was used to determine residence time in response to the change of freshwater input in Apalachicola Bay.
Huang, Wenrui, Spaulding, M.
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Chronology of Sediment Nutrient Geochemistry in Apalachicola Bay, Florida (U.S.A)
Journal of Coastal Research, 2008Abstract Land use changes have been shown to alter the balance of nutrient and mineral sources and sinks to coastal systems. These shifts are often preserved in sediment records. In Apalachicola Bay, productivity is dependent on nutrient loading from the Apalachicola-Chattahoochee-Flint (ACF) river basin; alterations to ACF watershed flow by management
Donatto Surratt +2 more
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ABSTRACT Bacopoulos, P., and Hagen, S.C., 2014. Dynamic considerations of sea-level rise with respect to water levels and flooding in Apalachicola Bay. An examination of sea-level rise impacts on water levels and flooding extent in Florida's Apalachicola Bay and the nearby region was carried out using forcing conditions from Hurricane Dennis under ...
Peter Bacopoulos, Scott C. Hagen
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