While marine reserves can replenish local populations of reef fishes e
xploited by fishermen through enhanced survivorship of post-recruitmen
t fishes, the manner in which reserves enhance larger-scale recruitmen
t to fish stocks is poorly understood. We investigate a metapopulation
model to see how marine reserves might help to conserve such populati
ons and benefit fisheries. The model defines two kinds of patches: (i)
those open to fishing and (ii) those maintained as reserves free from
exploitation. Each patch may occur in one of two states according to
whether or not it contains fishes recruited to the fishery. It is show
n that reserves become highly beneficial as the local extinction rate
caused by fishing becomes large because they provide a source of recru
itment into fished-out patches. In such circumstances, the introductio
n of reserves meets the needs both of conservation and of sustainable
exploitation of the fishery. The abundance of the exploitable populati
on is maximized when half of all patches (reserves + exploited patches
) are occupied by the stock. The sustainable yield is also maximized w
hen half of all patches are occupied, assuming that yield is proportio
nal to the local extinction rate. This result could provide a rule of
thumb for fishery managers addressing the specific question of enhanci
ng recruitment in heavily deleted stocks of certain reef fisheries. Ho
wever, like other metapopulation models, the one here makes some impor
tant simplifying assumptions which would need to be addressed in the a
pplication of these results to specific fisheries.