In this paper we introduce a resource management model of a common aquatic environment that is split into two regions: a protected area, where no harvesting is allowed, and an exploitable area, where a regulator imposes at each time period the maximum level of effort agents can exert. The imposed effort is not constant over time, but endogenously obtained through a negative feedback process according to the level of stock resource the regulator expects to prevail. Furthermore the fish population migrates within regions according to a linear diffusion mechanism. The results of the model can be easily adapted for different kinds of renewable stock resources management, such as water or air.
Variable Effort Management of Renewable Natural Resources
LAMANTIA, Fabio Giovanni
2006-01-01
Abstract
In this paper we introduce a resource management model of a common aquatic environment that is split into two regions: a protected area, where no harvesting is allowed, and an exploitable area, where a regulator imposes at each time period the maximum level of effort agents can exert. The imposed effort is not constant over time, but endogenously obtained through a negative feedback process according to the level of stock resource the regulator expects to prevail. Furthermore the fish population migrates within regions according to a linear diffusion mechanism. The results of the model can be easily adapted for different kinds of renewable stock resources management, such as water or air.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
