Finding harmony in<scp>Marine Protected Area</scp>design guidelines

Burns, Echelle S.; Lopazanski, Cori; Flower, Jason; Thomas, Lennon R.; Bradley, Darcy; Lester, Sarah E.

doi:10.1111/csp2.12946

Cited by 2 publications

(1 citation statement)

References 68 publications

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“…The process of selecting and prioritizing areas is complex, but decision support tools, such as Marxan, can help marine planning processes and include many functionalities such as economic and trade-off analysis (Burns et al, 2023). It is essential to acknowledge TA B L E 2 Biomass accumulated yearly and retained in the no-take areas (kg h −1 ) in each scenario for each of the 13 taxa evaluated, and in brackets the percentage of biomass retained only in permanent closures.…”

Section: Discussionmentioning

confidence: 99%

Dynamic marine spatial planning for conservation and fisheries benefits

Vigo,

Hermoso,

Navarro

et al. 2024

Fish and Fisheries

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The increasing global demand for marine resources raises concerns about sustainable resource management and biodiversity conservation. Spatial closures, such as marine protected areas, can be valuable tools for maintaining and restoring exploited populations. When these spatial closures adopt a dynamic nature being adapted to the changing environment, they can effectively account for factors such as shifting species distributions, which enhances their potential to achieve ecological and socio‐economic objectives. Here, we adapted a decision‐support tool (the software Marxan), typically used for selecting static and permanent areas, to produce management recommendations that integrate permanent and temporal closures to fisheries. Our aim was to compare the outputs of a static network of permanent no‐take reserves with four other dynamic scenarios, including permanent and temporal closures that account for seasonal variations in the populations of species. All scenarios prioritized sites for the conservation of one of the most valuable European fishing stocks, the Norway lobster (Nephrops norvegicus). Additionally, we considered 12 other commercially exploited species captured by the Norway lobster fishery. The assessed outputs included retained biomass, area extent, closure type (permanent and seasonal) and opportunity costs within each scenario. We observed that all dynamic scenarios required fewer management areas permanently closed than the static scenario. This resulted in a lower opportunity cost for fisheries but also a higher capacity for biodiversity conservation. Therefore, complementing permanent with temporal closures could enhance biodiversity conservation and fisheries management. The novel dynamic planning method presented here could be applicable to other species, ecosystems and socio‐economic contexts.

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Section: Discussionmentioning

confidence: 99%

Dynamic marine spatial planning for conservation and fisheries benefits

Vigo,

Hermoso,

Navarro

et al. 2024

Fish and Fisheries

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Seascape connectivity: ontogenetic migration for Haemulon flavolineatum

Rodriguez-Torres,

Acosta

2024

Rev. Chil. de Hist. Nat.

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In the seascape, species migrate between ecosystems to complete their life cycles, and such ontogenetic migrations create functional connections between ecosystems. Nevertheless, the scarcity of information on patch distribution, species life history and ecology limits its application in Marine Protected Areas (MPA) management. We use a potential connectivity network approach to analyze how Haemulon flavolineatum might move through a complex and diverse seascape by simulating part of its life cycle migrations among three ecosystems (reef, mangrove, and seagrass) in the MPA of Bahía Portete-Kaurrele (BPK), Colombia. We used available ecosystem cover maps to conduct habitat fragmentation analyses and evaluate structural connectivity in BPK using eight indices that describe ecosystem patches and how they are related. With published information on the H. flavolineatum home range and its ontogenetic migration distances, we estimated the potential functional connectivity (CONNECT and migration distances) between ecosystems by building bipartite graphs. The benthic habitat configuration of the BPK could allow Haemulon flavolineatum to complete at least two stages of its life cycle (stage 5 mangroves to reefs being more likely than stage 4 seagrass to mangroves). Ontogenetic migrations is possible since, patches of different ecosystems were highly intermixed (76%) rather than grouped (58%); reefs showed higher values of structural indices (patch area, largest patch, shape complexity, functional links) than mangrove (shortest distance to the nearest neighbor) and seagrass (representativeness); and juveniles migrate from mangroves to reef patches along the bay, but they could be isolated by distance when moving from particular seagrass to mangrove patches. Our methodological approach, which integrates ecological information (evidence-based ranges of species migration distances between habitat patches) and the seascape (spatial configuration of habitat patches and fragmentation) is novel for a marine fish species with ontogenetic migration to search for the likelihood of completing its life cycle stages. We discuss the need for ecological information on French grunts and the need to validate future models and scenarios.

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Finding harmony inMarine Protected Areadesign guidelines

Cited by 2 publications

References 68 publications

Dynamic marine spatial planning for conservation and fisheries benefits

Dynamic marine spatial planning for conservation and fisheries benefits

Seascape connectivity: ontogenetic migration for Haemulon flavolineatum

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