A static bioeconomic model of a marine reserve is introduced, allowing asymmetric
density dependent migration between the reserve and the fishable area. This allows for
habitat or ecosystem differences within and outside a reserve not described in earlier
studies. Four scenarios are studied; a) maximum harvest, b) maximum current profit, c)
open access and d) maximum sustainable yield (MSY) in the reserve. These are all
analysed within the Induced Sustainable Yield Function (ISYF), giving the relationship
between the fish abundance inside the reserve and the harvesting taking place outside. A
numerical analysis shows that management focus on ensuring MSY within the reserve
under the assumption of symmetric migration may be negative from an economic point of
view, when the area outside the reserve is detrimental compared to the reserve.
Furthermore, choice of management option may also have negative consequences for long
run resource use if it is incorrectly assumed that density dependent migration is
symmetric. The analysis also shows that the optimal area to close, a detrimental or
attractive ecosystem for the resource in question, may differ depending on the
management goal
