| Literature DB >> 30777295 |
Stéphanie Manel1, Nicolas Loiseau2, Marco Andrello3, Katharina Fietz4, Raquel Goñi5, Aitor Forcada6, Philippe Lenfant7, Stuart Kininmonth8, Concepción Marcos9, Virginie Marques2, Sandra Mallol5, Angel Pérez-Ruzafa9, Corinna Breusing4, Oscar Puebla4, David Mouillot10.
Abstract
Long-distance (>40-km) dispersal from marine reserves is poorly documented; yet, it can provide essential benefits such as seeding fished areas or connecting marine reserves into networks. From a meta-analysis, we suggest that the spatial scale of marine connectivity is underestimated due to the limited geographic extent of sampling designs. We also found that the largest marine reserves (>1000km2) are the most isolated. These findings have important implications for the assessment of evolutionary, ecological, and socio-economic long-distance benefits of marine reserves. We conclude that existing methods to infer dispersal should consider the up-to-date genomic advances and also expand the spatial scale of sampling designs. Incorporating long-distance connectivity in conservation planning will contribute to increase the benefits of marine reserve networks.Keywords: connectivity; global network; long-distance dispersal; marine protected areas; marine reserves
Mesh:
Year: 2019 PMID: 30777295 DOI: 10.1016/j.tree.2019.01.002
Source DB: PubMed Journal: Trends Ecol Evol ISSN: 0169-5347 Impact factor: 17.712