COS 119-2
Productivity and fishing pressure drive variability in fish parasite assemblages of the Line Islands, equatorial Pacific

Thursday, August 13, 2015: 1:50 PM
320, Baltimore Convention Center
Chelsea L. Wood, Department of Ecology and Evolutionary Biology, University of Michigan
Julia Baum, Department of Biology, University of Victoria, Victoria, BC, Canada
Sheila MW Reddy, Sustainability Science, The Nature Conservancy, Durham, NC
Rowan Trebilco, Simon Fraser University
Stuart A. Sandin, Center for Marine Biodiversity and Conservation, Scripps Institution of Oceanography, La Jolla, CA
Brian J. Zgliczynski, Center for Marine Biodiversity and Conservation, Scripps Institution of Oceanography, La Jolla, CA
Amy A. Briggs, California State University, Northridge, Stanford, CA
Fiorenza Micheli, Department of Biology, Stanford University, Pacific Grove, CA
Background/Question/Methods

Variability in primary productivity and fishing pressure can shape the abundance, species composition, and diversity of marine life. Though parasites comprise nearly half of marine species, their responses to these important forces remain little explored. We quantified parasite assemblages at two spatial scales: (i) across a gradient in productivity and fishing pressure that spans six coral islands of the Line Islands archipelago and (ii) within the largest Line Island, Kiritimati, which experiences a west-to-east gradient in fishing pressure and upwelling-driven productivity.

Results/Conclusions

In the across-islands dataset, we found that increasing productivity was correlated with increased parasite abundance overall, but that the effects of productivity differed among parasite groups. Trophically transmitted parasites increased in abundance with increasing productivity, but directly transmitted parasites did not exhibit significant changes. This probably arises because productivity has stronger effects on the abundance of the planktonic crustaceans and herbivorous snails that serve as the intermediate hosts of trophically transmitted parasites than on the higher-trophic level fishes that are the sole hosts of directly transmitted parasites. We also found that specialist parasites increased in response to increasing productivity, while generalists did not, possibly because specialist parasites tend to be more strongly limited by host availability than are generalist parasites. After the effect of productivity was controlled for, fishing was correlated with decreases in the abundance of trophically transmitted parasites, while directly transmitted parasites appeared to track host density: we observed increases in the abundance of parasites using hosts that experienced fishing-driven compensatory increases in abundance. The within-island dataset confirmed these patterns for the combined effects of productivity and fishing on parasite abundance, suggesting that our conclusions are robust across a span of spatial scales. Overall, these results indicate that there are strong and variable effects of anthropogenic and natural drivers on parasite abundance and taxonomic richness. These effects are likely to be mediated by parasite traits, particularly by parasite transmission strategies.