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Assessment Of Benthic Macrofauna Community Within Intertidal Mudflats - Hurds Cove, Lynnhaven River, Virginia, M. Lisa Kellogg, Jennifer C. Dreyer
Assessment Of Benthic Macrofauna Community Within Intertidal Mudflats - Hurds Cove, Lynnhaven River, Virginia, M. Lisa Kellogg, Jennifer C. Dreyer
Reports
A total of 30 samples were collected from eight locations in Hurds Cove, Lynnhaven River, VA. All samples were rinsed over a 500-μm mesh sieve and all material retained on the sieve was analyzed to determine benthic macrofaunal community identity, abundance and biomass. With the exception of one sample with relatively high biomass (50.68 g AFDW m-2) attributable to a single (Rangia cuneata), biomass across all locations was low, ranging from 0.16-0.67 g AFDW m-2. At five of the eight locations, all measurable biomass was contributed by polychaete worms. At the other three locations, polychaetes accounted for 45-57% of total …
Impacts Of Sea Level Rise On Hypoxia In The Chesapeake Bay: A Model Intercomparison, Pierre St-Laurent, Marjorie A.M. Friedrichs, Ming Li, Wenfei Ni
Impacts Of Sea Level Rise On Hypoxia In The Chesapeake Bay: A Model Intercomparison, Pierre St-Laurent, Marjorie A.M. Friedrichs, Ming Li, Wenfei Ni
Reports
Over recent years a number of studies have examined the effects of sea level rise (SLR) on hypoxia in Chesapeake Bay. However, variations in the methodology, the years considered, and the metrics reported made comparisons between these studies difficult. To clarify the effects of SLR on the Bay’s hypoxia, we present an intercomparison between four numerical models following a common methodology. The models share the riverine fluxes, baseline period (1991–1995), and consider the same three scenarios of SLR: an increase in sea level of 0.17m, 0.50m, and 1.00m (representative of years 2025, 2050 and 2100, respectively). SLR is the sole …
Oyster Reef Ecosystem Services: Macrofauna Utilization Of Restored Oyster Reefs - Harris Creek, Maryland, Usa, M. Lisa Kellogg, Jennifer C. Dreyer, Cate Turner, Manisha Pant, Paige G. Ross, Alan Birch, Sean Fate, Edward Smth, Kennedy Paynter
Oyster Reef Ecosystem Services: Macrofauna Utilization Of Restored Oyster Reefs - Harris Creek, Maryland, Usa, M. Lisa Kellogg, Jennifer C. Dreyer, Cate Turner, Manisha Pant, Paige G. Ross, Alan Birch, Sean Fate, Edward Smth, Kennedy Paynter
Reports
Oyster reefs provide habitat for a variety of macrofauna species. Our studies focused on the relationship between oyster tissue biomass density and reef-associated macrofauna biomass density. Studies were conducted in 2015-2017 and sites encompassed the majority of the area in which restoration activities were conducted with the Harris Creek Oyster Sanctuary in Maryland. Results presented in this report focus on: 1) interactions between oyster biomass density and season in determining macrofauna biomass, 2) responses of macrofauna to oyster biomass densities below “threshold” levels (0-14.9 g DW m-2) and between threshold and “target” levels (15-49.9 g DW m-2) defined in the …
Oyster Reef Ecosystem Services: Finfish Utilization And Trophic Linkages Harris Creek, Maryland, Usa, M. Lisa Kellogg, Paige G. Ross, Manisha Pant, Jennifer C. Dreyer, Alan Birch, Sean Fate, Edward Smith
Oyster Reef Ecosystem Services: Finfish Utilization And Trophic Linkages Harris Creek, Maryland, Usa, M. Lisa Kellogg, Paige G. Ross, Manisha Pant, Jennifer C. Dreyer, Alan Birch, Sean Fate, Edward Smith
Reports
Oyster reefs provide habitat for finfish and their prey. Our project focused on determining the impacts of oyster reef restoration on finfish in the Harris Creek Oyster Sanctuary in the Maryland portion of Chesapeake Bay. As a preliminary step, we examined the utility of using trawls in the place of gillnets to sample finfish but found that trawl samples were also highly variable and that the diets of finfish caught in trawls tended to be different than those caught in gillnets. Based on these findings and the fact that gillnets can be set within reef habitats, all remaining sampling was …