Houk2015 Houk, P., Camacho , R., Johnson, S., McLean , M., Maxin, S., Anson, J., Joseph, E., Nedlic, O., Luckymis, M., Adams, K., Hess, D., Kabua, E., Yalon, A., Buthung, E., Graham, C., Leberer, T., Taylor, B., van Woesik, R. The Micronesia Challenge: Assessing the relative contribution of stressors on coral reefs to facilitate science-to-management feedback PLoS ONE 2015 NA11NOS4820011 FY2013 CRCP Project ID 183, Products 315, 316 and 317; Project Title: International Coral Reef Conservation Grant Programs; Principal Investigator: Scot Frew; and FY2011 international grant NA11NOS4820011 6 10 10.1371/journal.pone.0130823 http://dx.doi.org/10.1371/journal.pone.0130823 "Fishing and pollution are chronic stressors that can prolong recovery of coral reefs and contribute to ecosystem decline. While this premise is generally accepted, management interventions are complicated because the contributions from individual stressors are difficult to distinguish. The present study examined the extent to which fishing pressure and pollution predicted progress towards the Micronesia Challenge, an international conservation strategy initiated by the political leaders of 6 nations to conserve at least 30% of marine resources by 2020. The analyses were rooted in a defined measure of coral-reef-ecosystem condition, comprised of biological metrics that described functional processes on coral reefs. We report that only 42% of the major reef habitats exceeded the ecosystem-condition threshold established by the Micronesia Challenge. Fishing pressure acting alone on outer reefs, or in combination with pollution in some lagoons, best predicted both the decline and variance in ecosystem condition. High variances among ecosystem-condition scores reflected the large gaps between the best and worst reefs, and suggested that the current scores were unlikely to remain stable through time because of low redundancy. Accounting for the presence of marine protected area (MPA) networks in statistical models did little to improve the models predictive capabilities, suggesting limited efficacy of MPAs when grouped together across the region. Yet, localized benefits of MPAs existed and are expected to increase over time. Sensitivity analyses suggested that (i) grazing by large herbivores, (ii) high functional diversity of herbivores, and (iii) high predator biomass were most sensitive to fishing pressure, and were required for high ecosystem-condition scores. Linking comprehensive fisheries management policies with these sensitive metrics, and targeting the management of pollution, will strengthen the Micronesia Challenge and preserve ecosystem services that coral reefs provide to societies in the face of climate change." University of Guam Marine Laboratory; Commonwealth of the Northern Mariana Islands Bureau of Environmental and Coastal Quality; Conservation Society of Pohnpei; Kosrae Conservation and Safety Organization; Kosrae Village Resort; College of the Marshall Islands; Marshall Islands Marine Resources Authority; Yap Community Action Program; Chuuk Marine Resources Department; The Nature Conservancy Micronesia Program; James Cook University; and Florida Institute of Technology 20150707000000 183 International Coral Reef Conservation Grant Programs Scot Frew CNMI FSM Florida Guam RMI 169.97 -87.994896 5.223 30.476 article article publication CoRIS Bibliographic