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red seaPlace
CaliforniaPlace
The goal was to develop a computer model capable of simulating the biological and economic consequences of establishing hypothetical no-take marine reserves on the red sea urchinf ishery in Northern California. Distinguishing itself from traditional biological models, the model developed in this Sea Grant project was designed to simulate the decision-making process of urchin divers—when and where fishermen dive, given various environmental and economic variables
Research PaperScallop fisheries are often characterized by variable abundance and periodic mass mort...
The chapter provides an overview of aquaculture modeling with particular emphasis on management and ...
The use of marine reserves (an individual spatial closure in which no removal of organisms is allowe...
The goal was to develop a computer model capable of simulating the biological and economic consequen...
Resource scientists have recently shown virtually unqualified support for managing fisheries with ...
Simulation bio-economic models are powerful tools to understand the impact of exogenous factors, nat...
ABSTRACT. The use of marine protected areas (MPAs) as a basic management tool to limit exploitation ...
A spatial bioeconomic model of a fishery will be used to investigate the effect of creating a marine...
<p>Marine activities have been increasingly competing for space and reducing areas for fishing. The ...
This Sea Grant project responded to a call from the California Sea Grant Strategic Plan 2001- 2005, ...
This paper outlines an empirical bioeconomic model that is spatially explicit. It combines a metapo...
Spatial conservation prioritization concerns trade-offs between marine conservation and resource exp...
A bio-socio-economic model was developed to simulate (a) biological interactions related to traditio...
Abstract This article uses a bioeconomic model and data for groundfish trawl-ers at Moss Landing Har...
This paper presents the simulator SHADYS (‘simulator halieutique de dynamiques spatiales’). SHADYS i...
Research PaperScallop fisheries are often characterized by variable abundance and periodic mass mort...
The chapter provides an overview of aquaculture modeling with particular emphasis on management and ...
The use of marine reserves (an individual spatial closure in which no removal of organisms is allowe...
The goal was to develop a computer model capable of simulating the biological and economic consequen...
Resource scientists have recently shown virtually unqualified support for managing fisheries with ...
Simulation bio-economic models are powerful tools to understand the impact of exogenous factors, nat...
ABSTRACT. The use of marine protected areas (MPAs) as a basic management tool to limit exploitation ...
A spatial bioeconomic model of a fishery will be used to investigate the effect of creating a marine...
<p>Marine activities have been increasingly competing for space and reducing areas for fishing. The ...
This Sea Grant project responded to a call from the California Sea Grant Strategic Plan 2001- 2005, ...
This paper outlines an empirical bioeconomic model that is spatially explicit. It combines a metapo...
Spatial conservation prioritization concerns trade-offs between marine conservation and resource exp...
A bio-socio-economic model was developed to simulate (a) biological interactions related to traditio...
Abstract This article uses a bioeconomic model and data for groundfish trawl-ers at Moss Landing Har...
This paper presents the simulator SHADYS (‘simulator halieutique de dynamiques spatiales’). SHADYS i...
Research PaperScallop fisheries are often characterized by variable abundance and periodic mass mort...
The chapter provides an overview of aquaculture modeling with particular emphasis on management and ...
The use of marine reserves (an individual spatial closure in which no removal of organisms is allowe...
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