A modelling study of the role of marine protected areas in metapopulation genetic connectivity in Delaware Bay oysters

Authors

Daphne M. Munroe, Haskin Shellfish Research LaboratoryFollow
John M. Klinck, Old Dominion UniversityFollow
Eileen E. Hofmann, Old Dominion UniversityFollow
Eric N. Powell, Gulf Coast Research LaboratoryFollow

Document Type

Article

Publication Date

10-1-2014

School

Ocean Science and Engineering

Abstract

1. Management decisions concerning location and extent of marine protected areas (MPAs) both for exploited and unexploited resources rely on understanding how populations are interconnected.
2. The potential effects of MPA location and external fishing pressure on genetic connectivity of eastern oyster (Crassostrea virginica) populations in Delaware Bay were examined.
3. An individual-based metapopulation model that includes post-settlement population dynamics, larval dispersal, and genetic structure was used to simulate four oyster populations for two periods (1970s and 2000s) with distinct population and environmental conditions. Sensitivity analysis examined the influence of larval dispersal, and simulations included combinations of MPA location (which population was protected) and three fishing mortality rates for non-MPA populations: low (4%), medium (8%) and high (30%); no fishing was allowed in the MPAs.
4. Results showed (i) salinity-driven changes in larval dispersal led to relatively small, population-specific connectivity changes, (ii) MPAs can enhance the frequency of genotypes originating within protected populations in unprotected populations when fishing rates are high (30%), and (iii) demographic shifts can impose temporal variability on the influence of MPAs on connectivity.
5. These results suggest that genetic consequences of siting MPAs must be considered in terms of present population and environmental conditions, as well as allowing for changes in population and genetic connectivity that may shift fundamentally over time.
6. Simulation results indicate that siting protected areas for oyster restoration in low salinity (<12ppt) regions may interact with development of disease resistance in the metapopulation by altering genotype transfer from protected to unprotected downestuary populations.

Publication Title

Aquatic Conservation: Marine and Freshwater Ecosystems

Volume

24

Issue

5

First Page

645

Last Page

666

Recommended Citation

Munroe, D., Klinck, J., Hofmann, E., Powell, E. (2014). A modelling study of the role of marine protected areas in metapopulation genetic connectivity in Delaware Bay oysters. Aquatic Conservation: Marine and Freshwater Ecosystems, 24(5), 645-666.
Available at: https://aquila.usm.edu/fac_pubs/20064