Assessing the ecological vulnerability of Western Atlantic marine benthic gastropods

Carranza, Alvar; Arim, Matı́as

doi:10.47193/mafis.3622023010509

Mar Fish Sci

2023

DOI: 10.47193/mafis.3622023010509

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Assessing the ecological vulnerability of Western Atlantic marine benthic gastropods

Alvar Carranza

Matı́as Arim

Abstract: Assessing the extinction risk in marine invertebrates poses serious challenges to conservation biology, due to the magnitude of marine biodiversity, the inaccessibility of most of the marine realm, and the lack of appropriate data on population dynamics and ecology for most species. However, simple life history traits have a huge potential for preliminary screening criteria for assessing large numbers of species whose status is harsh or impossible to evaluate. Body size and trophic position could be strong pre… Show more

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Genomic analyses indicate resilience of a commercially and culturally important marine gastropod snail to climate change

Nimbs,

Champion,

Lobos

et al. 2023

PeerJ

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Genomic vulnerability analyses are being increasingly used to assess the adaptability of species to climate change and provide an opportunity for proactive management of harvested marine species in changing oceans. Southeastern Australia is a climate change hotspot where many marine species are shifting poleward. The turban snail, Turbo militaris is a commercially and culturally harvested marine gastropod snail from eastern Australia. The species has exhibited a climate-driven poleward range shift over the last two decades presenting an ongoing challenge for sustainable fisheries management. We investigate the impact of future climate change on T. militaris using genotype-by-sequencing to project patterns of gene flow and local adaptation across its range under climate change scenarios. A single admixed, and potentially panmictic, demographic unit was revealed with no evidence of genetic subdivision across the species range. Significant genotype associations with heterogeneous habitat features were observed, including associations with sea surface temperature, ocean currents, and nutrients, indicating possible adaptive genetic differentiation. These findings suggest that standing genetic variation may be available for selection to counter future environmental change, assisted by widespread gene flow, high fecundity and short generation time in this species. We discuss the findings of this study in the content of future fisheries management and conservation.

show abstract

Genomic analyses indicate resilience of a commercially and culturally important marine gastropod snail to climate change

Nimbs,

Champion,

Lobos

et al. 2023

PeerJ

View full text Add to dashboard Cite

show abstract

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Assessing the ecological vulnerability of Western Atlantic marine benthic gastropods

Cited by 1 publication

References 45 publications

Genomic analyses indicate resilience of a commercially and culturally important marine gastropod snail to climate change

Genomic analyses indicate resilience of a commercially and culturally important marine gastropod snail to climate change

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