Abstract
Geographic isolation is an important yet underappreciated factor affecting marine reserve performance. Isolation, in combination with other factors, may preclude recruit subsidies, thus slowing recovery when base populations are small and causing a mismatch between performance and stakeholder expectations. Mona Island is a small, oceanic island located within a partial biogeographic barrier—44 km from the Puerto Rico shelf. We investigated if Mona Island’s no-take zone (MNTZ), the largest in the U.S. Caribbean, was successful in increasing mean size and density of a suite of snapper and grouper species 14 years after designation. The La Parguera Natural Reserve (LPNR) was chosen for evaluation of temporal trends at a fished location. Despite indications of fishing within the no-take area, a reserve effect at Mona Island was evidenced from increasing mean sizes and densities of some taxa and mean total density 36% greater relative to 2005. However, the largest predatory species remained rare at Mona, preventing meaningful analysis of population trends. In the LPNR, most commercial species (e.g., Lutjanus synagris, Lutjanus apodus, Lutjanus mahogoni) did not change significantly in biomass or abundance, but some (Ocyurus chrysurus, Lachnolaimus maximus), increased in abundance owing to strong recent recruitment. This study documents slow recovery in the MNTZ that is limited to smaller sized species, highlighting both the need for better compliance and the substantial recovery time required by commercially valuable, coral reef fishes in isolated marine reserves.
Highlights
Overfishing has fundamentally altered marine coastal ecosystems and currently represents a major source of biodiversity loss [1,2,3]
Univariate PERMANOVA of total combined snapper and grouper biomass and density from the Mona Island’s no-take zone (MNTZ) found no significant differences between periods except for densities from transects, where all pairwise tests between periods were significant (Table 2)
Contributions to roving survey dissimilarity between periods were greatest from schoolmaster (Lutjanus apodus) and red hind (Epinephelus guttatus), with red hind driving period-wise separation in the west zone, and schoolmaster contributing most to dissimilarities in south and east zones (Fig 4a and 4b)
Summary
Overfishing has fundamentally altered marine coastal ecosystems and currently represents a major source of biodiversity loss [1,2,3]. Coral reefs have proven susceptible as evidenced by disrupted trophic structures and phase shifts toward algal-dominated conditions [4,5]. Puerto Rico’s coral reefs have not escaped overfishing, the result being depressed spawning stocks [6], reduced total landings [7], and commercial extinction of species [8]. Population recovery in an isolated marine reserve design, data collection and analysis, decision to publish, or preparation of the manuscript
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