4.5 Article

Catastrophes, connectivity and Allee effects in the design of marine reserve networks

Journal

OIKOS
Volume 130, Issue 3, Pages 366-376

Publisher

WILEY
DOI: 10.1111/oik.07770

Keywords

catastrophes; disturbance; marine protected area; marine reserves; rare events; reserve network

Categories

Funding

  1. National Science Foundation Graduate Fellowship [DMS-1817124]

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Marine reserves play a crucial role in buffering populations against catastrophic events, with optimal spacing dependent on dispersal ability and disturbance regime. In the presence of catastrophes, larger spacing between reserves is needed to prevent extinction, especially when Allee effects interact with disturbances. Tradeoffs between conservation and fishing objectives are influenced by the occurrence of catastrophes, with intermediate disturbance levels requiring reserves to be spread out for increased population persistence and spillover benefits.
Catastrophic events, like oil spills and hurricanes, occur in many marine systems. One potential role of marine reserves is buffering populations against disturbances, including the potential for disturbance-driven population collapses under Allee effects. This buffering capacity depends on reserves in a network providing rescue effects, setting up a tradeoff where reserves need to be connected to facilitate rescue, but also distributed in space to prevent simultaneous extinction. We use a set of population models to examine how dispersal ability and the disturbance regime interact to determine the optimal reserve spacing. We incorporate fishing in a spatially-explicit model to understand the effect of objective choice (e.g. conservation versus fisheries yield) on the optimal reserve spacing. We show that the optimal spacing between reserves increases when accounting for catastrophes with larger spacing needed when Allee effects interact with catastrophes to increase the probability of extinction. We also show that classic tradeoffs between conservation and fishing objectives disappear in the presence of catastrophes. Specifically, we found that at intermediate levels of disturbance, it is optimal to spread out reserves in order to increase both population persistence and to maximize spillover into non-reserve areas.

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