Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 5 of 5
Full-Text Articles in Life Sciences
Oyster Economics: Simulated Costs, Market Returns, And Nonmarket Ecosystem Benefits Of Harvested And Nonharvested Reefs, Off-Bottom Aquaculture,And Living Shorelines, Daniel R. Petrolia, William C. Walton, Just Cebrian
Oyster Economics: Simulated Costs, Market Returns, And Nonmarket Ecosystem Benefits Of Harvested And Nonharvested Reefs, Off-Bottom Aquaculture,And Living Shorelines, Daniel R. Petrolia, William C. Walton, Just Cebrian
VIMS Articles
We simulate expected costs, market returns, and nonmarket ecosystem benefits associated with four oyster resources: harvested bottom reefs, off-bottom aquaculture, nonharvested (restored) reefs, and living shorelines. Benefit categories include market returns from harvest, improved water quality (reduced nitrogen), habitat for other species (blue crab and red drum), and shoreline protection. Bottom reefs and off-bottom aquaculture yield both market returns and nonmarket ecosystem benefits, whereas nonharvested reefs and living
shorelines yield only nonmarket ecosystem benefits. Overall gross benefits are expected to be greater and much more variable for off-bottom aquaculture and living shorelines relative to harvested and nonharvested reefs. We find …
Large Projected Population Loss Of A Salt Marsh Bivalve (Geukensia Demissa) From Sea Level Rise, Robert Isdell, Donna M. Bilkovic, Carlton Hershner
Large Projected Population Loss Of A Salt Marsh Bivalve (Geukensia Demissa) From Sea Level Rise, Robert Isdell, Donna M. Bilkovic, Carlton Hershner
VIMS Articles
Salt marshes and their inhabitants are being displaced by climate change and human development along the coastline. One inhabitant, the ribbed mussel (Geukensia demissa), forms a mutualistic relationship with smooth cordgrass, Sporobolus alterniflorus, along the US Atlantic Coast. Ribbed mussels stabilize the marsh, remove particulate matter from the water column, and promote denitrification, thereby improving local water quality. To quantify the potential effects of SLR on ribbed mussel abundance and resulting impacts on water quality functions, we compared the current and projected future (2050) spatial distributions of ribbed mussels in Chesapeake Bay assuming an intermediate SLR for …
Restoring The Eastern Oyster: How Much Progress Has Been Made In 53 Years?, Ab Hernandez, Rochelle Brumbaugh, P Fredrick, R Grizzle, Mark Luckenbach, Ch Peterson, C Angelini
Restoring The Eastern Oyster: How Much Progress Has Been Made In 53 Years?, Ab Hernandez, Rochelle Brumbaugh, P Fredrick, R Grizzle, Mark Luckenbach, Ch Peterson, C Angelini
VIMS Articles
Coastal ecosystem restoration is accelerating globally as a means of enhancing shoreline protection, carbon storage, water quality, fisheries, and biodiversity. Among the most substantial of these efforts have been those focused on re-establishing oyster reefs across the US Atlantic and Gulf coasts. Despite considerable investment, it is unclear how the scale of and approaches toward oyster restoration have evolved. A synthesis of 1768 projects undertaken since 1964 reveals that oyster substrate restoration efforts have primarily been concentrated in the Chesapeake Bay and the Gulf Coast, have been heavily reliant on oyster shell, and have re-established 4.5% of the reef area …
Role Of Habitat And Predators In Maintaining Functional Diversity Of Estuarine Bivalves, Cassandra N. Glaspie, Rochell D. Seitz
Role Of Habitat And Predators In Maintaining Functional Diversity Of Estuarine Bivalves, Cassandra N. Glaspie, Rochell D. Seitz
VIMS Articles
Habitat loss is occurring rapidly in coastal systems worldwide. In Chesapeake Bay, USA, most historical oyster reefs have been decimated, and seagrass loss is expected to worsen due to climate warming and nutrient pollution. This loss of habitat may result in declining diversity, but whether diversity loss will equate to loss in ecosystem function is unknown. A bivalve survey was conducted in a variety of habitat types (seagrass, oyster shell, shell hash, coarse sand, detrital mud) in 3 lower Chesapeake Bay sub-estuaries from spring 2012 through summer 2013 to examine the correlation between bivalve densities, habitat type, habitat volume (of …
Valuing Ecosystem Services: Oysters, Denitrification, And Nutrient Trading Programs, Gs Depiper, Dw Lipton, Rn Lipcius
Valuing Ecosystem Services: Oysters, Denitrification, And Nutrient Trading Programs, Gs Depiper, Dw Lipton, Rn Lipcius
VIMS Articles
As part of their strategy to meet total maximum daily load restrictions in the Chesapeake Bay, managers have developed nutrient trading markets to curb nitrogen and phosphorus flows into the estuarine system. Historically, nutrient trading programs have been restricted to credits between point sources or for agricultural mitigation technologies, such as the planting of cover crops. However, the denitrification and nutrient sequestration associated with oyster reefs has recently been a topic of much biological research. We investigate the role that nutrient credits for ecosystem services provided by restored oyster reefs can play in optimally managing oyster reef complexes by developing …