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Physical disturbance by recovering sea otter populations increases eelgrass genetic diversity

Erin U. Foster, Jane C. Watson, Matthew A. Lemay, M. Tim Tinker, James A. Estes, Rebecca S. Piercey, Lauren H. Henson, Carol Ritland, Allyson E. Miscampbell, Linda M. Nichol, Margot Hessing‐Lewis, Anne K. Salomon, Chris T. Darimont

2021Science30 citationsDOI

Abstract

) meadows increases genetic diversity by promoting conditions for sexual reproduction of plants. Eelgrass allelic richness and genotypic diversity were, respectively, 30 and 6% higher in areas where recovering sea otter populations had been established for 20 to 30 years than in areas where they had been present <10 years or absent >100 years. The influence of sea otter occupancy on the aforementioned measures of genetic diversity was stronger than those of depth, temperature, latitude, or meadow size. Our findings reveal an underappreciated evolutionary process by which megafauna may promote genetic diversity and ecological resilience.

Topics & Concepts

Zostera marinaEcologyOtterDisturbance (geology)Genetic diversitySpecies richnessBiologyPredationEcosystemPopulationSeagrassDemographySociologyPaleontologyMarine and coastal plant biologyGenetic diversity and population structureMarine and fisheries research
Physical disturbance by recovering sea otter populations increases eelgrass genetic diversity | Litcius