Your search keyword '"Coscino, Connor L."' showing total 4 results

1. Influence of life history characteristics on data-limited stock status assertions and minimum size limit evaluations using Length-Based Spawning Potential Ratio (LBSPR)

Author

Coscino, Connor L., Bellquist, Lyall, Harford, William J., and Semmens, Brice X.

Published

2024

2. Participation in collaborative fisheries research improves the perceptions of recreational anglers towards marine protected areas.

Author

Johnston, Erin M., Waltz, Grant T., Kosaka, Rosamaria, Brauer, Ellie M., Ziegler, Shelby L., Mason, Erica T. Jarvis, Glanz, Hunter S., Zaragoza, Lauren, Kellum, Allison N., Brooks, Rachel O., Semmens, Brice X., Honeyman, Christopher J., Caselle, Jennifer E., Bellquist, Lyall F., Small, Sadie L., Morgan, Steven G., Mulligan, Timothy J., Coscino, Connor L., Staton, Jay M., and Starr, Richard M.

Subjects

MARINE parks & reserves, NATURAL resources management, FISHERIES, FISHERY management, PARTICIPATION, NATURAL resources

Abstract

Collaborative fisheries research programs engage stakeholders in data collection efforts, often with the benefit of increasing transparency about the status and management of natural resources. These programs are particularly important in marine systems, where management of recreational and commercial fisheries have historically been contentious. One such program is the California Collaborative Fisheries Research Program (CCFRP), which was designed in 2006 to engage recreational anglers in the scientific process and evaluate the efficacy of California's network of marine protected areas. CCFRP began on the Central Coast of California and expanded statewide in 2017 to include six partner institutions in three regions: Northern, Central, and Southern California. To date, over 2,000 volunteer anglers have participated in the program, with many anglers volunteering for multiple years. However, the impacts of outreach, education, and collaborative research on those anglers at the statewide scale are currently unknown. Thus, the objective of the current study was to survey the statewide pool of volunteer anglers to assess the degree to which participation in CCFRP has influenced angler perceptions of MPAs, fisheries management, and conservation. We received 259 completed surveys out of a pool of 1,386 active anglers, equating to an 18.7% response rate. Participation in CCFRP resulted in a significant, positive impact on anglers' attitudes towards MPAs in California across all regions. Anglers who participated in six or more CCFRP fishing trips had a more positive perception of MPAs than those who participated in fewer trips. Volunteer anglers across all regions perceived that they caught larger fishes, a higher abundance of fishes, and a greater diversity of species inside MPAs, consistent with the ecological findings of the program. These results highlight the benefits of involving community members in collaborative scientific research. Collaboration between researchers and the broader community increases transparency and trust between stakeholders, and results in greater understanding of natural resource dynamics, ultimately producing better management outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

3. Collaborative fisheries research reveals reserve size and age determine efficacy across a network of marine protected areas.

Author

Ziegler, Shelby L., Brooks, Rachel O., Bellquist, Lyall F., Caselle, Jennifer E., Morgan, Steven G., Mulligan, Timothy J., Ruttenberg, Benjamin I., Semmens, Brice X., Starr, Richard M., Tyburczy, Joe, Wendt, Dean E., Buchheister, Andre, Jarrin, Jose R. Marin, Pasparakis, Christina, Jorgensen, Salvador J., Chiu, Jennifer A., Colby, Jordan, Coscino, Connor L., Davis, Leon, and Castro, Francine de

Subjects

MARINE parks & reserves, FISHERIES, FISH conservation, BIODIVERSITY conservation, BIOMASS, BIOMASS conversion

Abstract

A variety of criteria may influence the efficacy of networks of marine protected areas (MPA) designed to enhance biodiversity conservation and provide fisheries benefits. Meta‐analyses have evaluated the influence of MPA attributes on abundance, biomass, and size structure of harvested species, reporting that MPA size, age, depth, and connectivity influence the strength of MPA responses. However, few empirical MPA evaluation studies have used consistent sampling methodology across multiple MPAs and years. Our collaborative fisheries research program systematically sampled 12 no‐take or highly protective limited‐take MPAs and paired fished reference areas across a network spanning 1100 km of coastline to evaluate the factors driving MPA efficacy across a large geographic region. We found that increased size and age consistently contributed to increased fish catch, biomass, and positive species responses inside MPAs, while accounting for factors such as latitude, primary productivity, and distance to the nearest MPA. Our study provides a model framework to collaboratively engage diverse stakeholders in fisheries research and provide high‐quality data to assess the success of conservation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

4. The dynamic influence of methane seepage on macrofauna inhabiting authigenic carbonates.

Author

Pereira, Olívia S., Gonzalez, Jennifer, Mendoza, Guillermo F., Le, Jennifer, Coscino, Connor L., Lee, Raymond W., Cortés, Jorge, Cordes, Erik E., and Levin, Lisa A.

Subjects

METHANE, CARBONATE rocks, CARBONATES, INVERTEBRATE communities, ECOSYSTEM services, ANNELIDA

Abstract

Methane seeps are highly productive deep‐sea ecosystems reliant on chemosynthetic primary production. They are increasingly affected by direct human activities that threaten key ecosystem services. Methane seepage often generates precipitation of authigenic carbonate rocks, which host diverse microbes, and a dynamic invertebrate community. By providing hard substrate, even after seepage ceases, these rocks may promote a long‐lasting ecological interaction between seep and background communities. We analyzed community composition, density, and trophic structure of invertebrates on authigenic carbonates at Mound 12, a seep on the Pacific margin of Costa Rica, using one mensurative and two manipulative experiments. We asked whether carbonate macrofaunal communities are able to survive, adapt, and recover from changes in environmental factors (i.e., seepage activity, chemosynthetic production, and food availability), and we hypothesized a key role for seepage activity in defining these communities and responses. Communities on in situ carbonates under different seepage activities showed declining density with increasing distance from the seep and a shift in composition from gastropod dominance in areas of active seepage to more annelids and peracarid crustaceans that are less dependent on chemosynthetic production under lesser seepage. Response to changing environmental context was evident from altered community composition following (1) a natural decline in seepage over successive years, (2) transplanting of carbonates to different seepage conditions for 17 months, and (3) defaunated carbonate deployments under different seepage regimes over 7.4 yr. Seep faunas on transplants to lesser seepage emerge and recover faster than transition fauna (characterized by native seep and background faunas, respectively) and are able to persist by adapting their diets or by retaining their symbiotic bacteria. The macrofaunal community colonizing defaunated carbonates deployed for 7.4 yr developed communities with a similar successional stage as in situ rocks, although trophic structure was not fully recovered. Thus, macrofaunal successional dynamics are affected by habitat complexity and the availability of microbial chemosynthetic productivity. This multi‐experiment study highlights the interaction between biotic and abiotic factors at methane seeps at different time scales along a spatial gradient connecting seep and surrounding deep‐sea communities and offers insight on the resilience of deep‐sea macrofaunal communities. [ABSTRACT FROM AUTHOR]

Published

2021