Add to ORKGThis paper presents a model of renewable resource exploitation that incorporates both intertemporal dynamics and spatial movement. The model combines the H. S. Gordon᎐Vernon Smith hypothesis of a rent dissipation process with Ricardian notions that resources are exploited across space in a pattern dependent upon relative profitabilities. The population structure is characterized in a manner consistent with modern biological ideas that stress patchiness, heterogeneity, and interconnections among and between patches. Generally, we find the equilibrium patterns of biomass and effort across the system to be dependent upon bioeconomic conditions within each patch and the nature of the biological dispersal mechanism between patches. We use simple...
This chapter reviews some fundamental models related to the exploitation of a renewable resource, an...
How will countries harvesting mobile natural resources react to the threat of regime shift? We addre...
Individual ability to survive and reproduce is driven by the foraging for various kinds of resources...
We present a bioeconomic model of a harvesting industry operating over a heterogeneous environment c...
We present a bioeconomic model of a harvesting industry operating over a heterogeneous environment c...
This paper adapts Turing analysis and applies it to dynamic bioeconomic problems where the interacti...
Spatial-dynamic processes in renewable resource economics pose difficult conceptual, analytical, emp...
This paper employs a dynamic and spatial model of renewable resource exploitation to investigate the...
Beginning in the 1960s, ecologists, mathematicians, and economists started developing a class of mod...
The spatial population dynamics of an ecological system involving producers and scroungers is studie...
How will countries harvesting mobile natural resources react to the threat of regime shift? We addre...
This paper employs a spatial and intertemporal model of renewable resource exploitation to investiga...
This paper employs a spatial and intertemporal model of renewable resource exploitation to investiga...
International audienceHow will countries harvesting mobile natural resources react to the possibilit...
We characterize the optimal harvest of a renewable resource in a generalized stochastic spatially ex...
This chapter reviews some fundamental models related to the exploitation of a renewable resource, an...
How will countries harvesting mobile natural resources react to the threat of regime shift? We addre...
Individual ability to survive and reproduce is driven by the foraging for various kinds of resources...
We present a bioeconomic model of a harvesting industry operating over a heterogeneous environment c...
We present a bioeconomic model of a harvesting industry operating over a heterogeneous environment c...
This paper adapts Turing analysis and applies it to dynamic bioeconomic problems where the interacti...
Spatial-dynamic processes in renewable resource economics pose difficult conceptual, analytical, emp...
This paper employs a dynamic and spatial model of renewable resource exploitation to investigate the...
Beginning in the 1960s, ecologists, mathematicians, and economists started developing a class of mod...
The spatial population dynamics of an ecological system involving producers and scroungers is studie...
How will countries harvesting mobile natural resources react to the threat of regime shift? We addre...
This paper employs a spatial and intertemporal model of renewable resource exploitation to investiga...
This paper employs a spatial and intertemporal model of renewable resource exploitation to investiga...
International audienceHow will countries harvesting mobile natural resources react to the possibilit...
We characterize the optimal harvest of a renewable resource in a generalized stochastic spatially ex...
This chapter reviews some fundamental models related to the exploitation of a renewable resource, an...
How will countries harvesting mobile natural resources react to the threat of regime shift? We addre...
Individual ability to survive and reproduce is driven by the foraging for various kinds of resources...