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1. The use of spatial management tools in rights‐based groundfish fisheries

   https://doi.org/10.1111/faf.12294  

   Liu, Owen R. ; Kleisner, Kristin M. ; Smith, Sarah L. ; Kritzer, Jacob P. ( May 2018 , Fish and Fisheries)

   The role of spatial management, including marine protected areas, in achieving fisheries outcomes alongside conservation goals is debated. In fisheries that fail to meet fishing mortality targets, closed areas are sometimes implemented to reduce fishing mortality. However, fisheries with stronger management, including rights‐based approaches that can address overcapacity and overfishing problems, often employ spatial management as well. Here, we compare the objectives, design, and performance of spatial management in nine temperate demersal fisheries in North America, Oceania, Europe, and Africa that employ rights‐based systems. Common objectives of spatial management included protecting habitat, juveniles, and spawners and reducing discards. Recovering age structure and creating scientific reference sites were less common objectives, despite being widely cited benefits of spatial management. Some fisheries adopted single closures to achieve single objectives, whereas others adopted diverse networks to achieve multiple objectives. Importantly, many spatial protections are implemented primarily through industry initiatives. Environmental change compromised the efficacy of spatial management in some cases, suggesting the need to design spatial management systems that are robust to changing ocean conditions. Fisheries with diverse and extensive spatial management systems have generally healthier fish stocks. Whether this implies that spatial management contributed substantially to fishery performance is unclear due to an absence of large‐scale, long‐term studies aimed at discerning different drivers of success. Although these targeted monitoring studies of closed areas are limited, such studies are necessary to help resolve the ongoing debate and to enable more purposeful design of spatial management for fisheries and conservation.

    

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2. Are Greenland’s inshore halibut fishers ready for individual transferable quotas?

   https://doi.org/10.1016/j.marpol.2023.105932  

   Snyder, Hunter T. ; Stone, Simon ; Albert, Mary ; Polashenski, Chris ( November 2023 , Marine Policy)

   Fisheries policy that is comprehensible and agreeable to fishers is a cornerstone of democratic and inclusive governance of living marine resources. However, policy designers struggle to systematically include diverse perspectives and they may not understand the breadth and depth of fishers’ knowledge about fisheries management and conservation. Failing to anticipate how reforms to management plans are received can spur policy rejection, distrust, and foster noncompliance. Knowing fishers’ knowledge of, inclination toward, and vulnerability to proposed changes can help fishery managers design and implement inclusive and forward-thinking fishery management plans. In a representative survey of Greenland’s inshore halibut fishers, we asked about current and proposed changes to the management of fisheries. From a response pool of experienced fishers, we found little to no knowledge about individual transferable quota programs, little to no inclination for or against these proposed changes, and a wide range of levels of vulnerability in the face of potentially curtailed access to fishery resources. Results suggest that fishers and fishery decision makers must increase the exchange of technical knowledge in understandable terms for Greenland’s fisheries policy to achieve sustainability outcomes and to secure small-scale fisheries livelihoods. We recommend that policy makers increase outreach efforts to show fishers “under the hood”, provide clear and accessible information, and seek suggestions and comments from fishers regarding proposed changes to the status quo. We further suggest that analysts conduct a transparent management strategy evaluation to model potential outcomes arising from any revised fishery management plan, fishing communities, and in turn, for Greenland’s entire small-scale fishing segment. 

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3. Participatory Risk Assessment of Humpback Whale (Megaptera novaeangliae) and Leatherback Turtle (Dermochelys coriacea) Bycatch in Northern Peru

   https://doi.org/10.3389/fmars.2021.776965  

   Costanza, Anna B. ; Guidino, Chiara ; Mangel, Jeffrey C. ; Alfaro-Shigueto, Joanna ; Verutes, Gregory ; Caillat, Marjolaine ; Samanta, Aritree ; Hines, Ellen ( December 2021 , Frontiers in Marine Science)

   Uncertainties about the magnitude of bycatch in poorly assessed fisheries impede effective conservation management. In northern Peru, small-scale fisheries (SSF) bycatch negatively impacts marine megafauna populations and the livelihoods of fishers which is further elevated by the under-reporting of incidents. Within the last decade, accounts of entangled humpback whales (HBW) ( Megaptera novaeangliae ) off the northern coast of Peru have increased, while Eastern Pacific leatherback turtles (LBT) ( Dermochelys coriacea ) have seen over a 90% decline in nesting populations related in large part to bycatch mortality. By leveraging the experience and knowledge of local fishers, our research objectives were to use a low-cost public participation mapping approach to provide a spatio-temporal assessment of bycatch risk for HBW and LBT off two Peruvian fishing ports. We used an open-source, geographic information systems (GIS) model, the Bycatch Risk Assessment (ByRA), as our platform. Broadly, ByRA identifies high bycatch risk areas by estimating the intersection of fishing areas (i.e., stressors) with species habitat and evaluating the exposure and consequence of possible interaction between the two. ByRA outputs provided risk maps and gear risk percentages categorized as high, medium, and low for the study area and seven subzones for HBW in the austral winter and LBT in the austral summer. Overall, the highest bycatch risk for both species was identified within gillnet fisheries near the coast. Bycatch risk for most gear types decreased with distance from the coast. When we separated the ByRA model by port, our map outputs indicate that bycatch management should be port specific, following seasonal and spatial variations for HBW, and specific fishing gear impacts for HBW and LBT. Combined with direct bycatch mitigation techniques, ByRA can be a supportive and informative tool for addressing specific bycatch threats and marine megafauna conservation goals. ByRA supports a participatory framework offering rapid visual information via risk maps and replicable methods for areas with limited resources and data on fisheries and species habitat. 

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4. Size‐selective fishing leads to trade‐offs between fishery productivity and reproductive capacity

   https://doi.org/10.1002/ecs2.3071  

   Pellowe, Kara E. ; Leslie, Heather M. ( March 2020 , Ecosphere)

   Most fishing is inherently size‐selective, in that fishers preferentially select a subset of the population for harvest based on economic incentives associated with different‐sized fish. Size‐selective fishing influences the targeted population and fishery performance in multiple ways, including changing the reproductive capacity of the target population and altering fishery yield. Understanding how social–ecological variability, including size selectivity, affects target species populations is critical for fisheries management to optimize the benefits of fisheries and the ecological impacts on target populations. In this study, we used yield per recruit, spawning stock biomass per recruit, and length‐based spawning potential ratio models to explore how a range of size selectivity scenarios affect fishery and population productivity for Mexican chocolate clams,Megapitaria squalida, in Loreto, Baja California Sur, Mexico. We found that alternate slot limits result in trade‐offs between fishery yield and reproductive productivity of the target population. A more restrictive slot limit reduced the proportion of the population available to harvest, resulting in higher reproductive capacity of the population, compared to a less restrictive slot limit, conditional on the rate of fishing mortality. In the long run, a more restrictive slot limit will likely lead to a higher number of recruits, larger stock size, and higher long‐term fishery yield relative to a less restrictive scenario. Our findings highlight that how people fish matters, perhaps as much as the quantity of fish harvested; size‐selective fishing that aligns with the life history of target populations and stakeholders’ goals is critical to sustaining fisheries and the valuable food and livelihoods they provide.

    

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5. The effects of population synchrony, life history, and access constraints on benefits from fishing portfolios

   https://doi.org/10.1002/eap.2307  

   Oken, Kiva L. ; Holland, Daniel S. ; PUNT, ANDRÉ E. ( April 2021 , Ecological Applications)

   Natural resources often exhibit large interannual fluctuations in productivity driven by shifting environmental conditions, and this translates to high variability in the revenue resource users earn. However, users can dampen this variability by harvesting a portfolio of resources. In the context of fisheries, this means targeting multiple populations, though the ability to actually build diverse fishing portfolios is often constrained by the costs and availability of fishing permits. These constraints are generally intended to prevent overcapitalization of the fleet and ensure populations are fished sustainably. As linked human‐natural systems, both ecological and fishing dynamics influence the specific advantages and disadvantages of increasing the diversity of fishing portfolios. Specifically, a portfolio of synchronous populations with similar responses to environmental drivers should reduce revenue variability less than a portfolio of asynchronous populations with opposite responses. We built a bioeconomic model based on the Dungeness crab (Metacarcinus magister), Chinook salmon (Oncorhynchus tshawytscha), and groundfish fisheries in the California Current, and used it to explore the influence of population synchrony and permit access on income patterns. As expected, synchronous populations reduced revenue variability less than asynchronous populations, but only for portfolios including crab and salmon. Synchrony with the longer‐lived groundfish population was not important because environmentally driven changes in groundfish recruitment were mediated by growth and natural mortality over the full population age structure, and overall biomass was relatively stable across years. Thus, building a portfolio of diverse life histories can buffer against the impacts of poor environmental conditions over short time scales. Increasing access to all permits generally led to increased revenue stability and decreased inequality of the fleet, but also resulted in less revenue earned by an individual from a given portfolio because more vessels shared the available biomass. This means managers are faced with a trade‐off between the average revenue individuals earn and the risk those individuals accept. These results illustrate the importance of considering connections between social and ecological dynamics when evaluating management options that constrain or facilitate fishers’ ability to diversify their fishing.

    

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