Add to ORKGWe model the population of the Blue Crab in the Chesapeake Bay by using differential equations. Blue crabs are inherently cannibalistic of juveniles, while also in competition with juvenile blue crabs for resources. These differential equations describe the intraguild predation consistent in the blue crab food web, as well as the cannibalistic nature of the blue crab. We introduce an aging and birth rate to alter an intraguild predation model to fit the cannibalistic nature
Moving toward ecosystem-based fisheries management requires integration of biotic and abiotic factor...
Regulations of the blue crab (Calinectes sapidus) fishery in the Chesapeake Bay have been based on e...
The blue crab, Callinectes sapidus Rathbun, is found in all major coastal habitats along the mid-Atl...
We model the population of the Blue Crab in the Chesapeake Bay by using differential equations. Blu...
This study has particular application to the blue crab fisheries in Chesapeake Bay, an economically ...
The blue crab (Callinectes sapidus) is a commercially and ecologically importantspecies found along ...
The blue crab Callinectes sapidus supports one of the most important fisheries in the Chesapeake Bay...
That environmental conditions in the Chesapeake Bay are optimal for the blue crab population is sugg...
Nursery habitats play a major role in the population dynamics of marine and estuarine species, with ...
Blue crab (Callinectes sapidus) is an important resource in Chesapeake Bay serving as predator and p...
The blue crab is found along the Atlantic coast of the United States from Maine to southern Florida....
Blue crab populations along the east coast of the United States are known to fluctuate in size annua...
A research proposal poster that describes the possible relationship between juvenile Blue Crab survi...
Blue Crabs are abundant on the East And Gulf Coasts of North America, on the East Coast of South Ame...
Recent marked declines of the commercially and ecologically important blue crab in Chesapeake Bay ha...
Moving toward ecosystem-based fisheries management requires integration of biotic and abiotic factor...
Regulations of the blue crab (Calinectes sapidus) fishery in the Chesapeake Bay have been based on e...
The blue crab, Callinectes sapidus Rathbun, is found in all major coastal habitats along the mid-Atl...
We model the population of the Blue Crab in the Chesapeake Bay by using differential equations. Blu...
This study has particular application to the blue crab fisheries in Chesapeake Bay, an economically ...
The blue crab (Callinectes sapidus) is a commercially and ecologically importantspecies found along ...
The blue crab Callinectes sapidus supports one of the most important fisheries in the Chesapeake Bay...
That environmental conditions in the Chesapeake Bay are optimal for the blue crab population is sugg...
Nursery habitats play a major role in the population dynamics of marine and estuarine species, with ...
Blue crab (Callinectes sapidus) is an important resource in Chesapeake Bay serving as predator and p...
The blue crab is found along the Atlantic coast of the United States from Maine to southern Florida....
Blue crab populations along the east coast of the United States are known to fluctuate in size annua...
A research proposal poster that describes the possible relationship between juvenile Blue Crab survi...
Blue Crabs are abundant on the East And Gulf Coasts of North America, on the East Coast of South Ame...
Recent marked declines of the commercially and ecologically important blue crab in Chesapeake Bay ha...
Moving toward ecosystem-based fisheries management requires integration of biotic and abiotic factor...
Regulations of the blue crab (Calinectes sapidus) fishery in the Chesapeake Bay have been based on e...
The blue crab, Callinectes sapidus Rathbun, is found in all major coastal habitats along the mid-Atl...