4.1 Article

EVALUATION OF THE DEGREE OF CO-OCCURRENCE OF ATLANTIC SURFCLAMS (SPISULA SOLIDISSIMA) AND OCEAN QUAHOGS (ARCTICA ISLANDICA) IN THE EXPANDING NORTHWESTERN ATLANTIC BOREAL/TEMPERATE ECOTONE: IMPLICATIONS FOR THEIR FISHERIES

期刊

JOURNAL OF SHELLFISH RESEARCH
卷 42, 期 1, 页码 61-75

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NATL SHELLFISHERIES ASSOC
DOI: 10.2983/035.042.0107

关键词

Spisula solidissima; Arctica islandica; Atlantic surfclam; ocean quahog; range shift; ecotone; climate change; surfclam fishery; range boundary; species interaction

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Warming of the Mid-Atlantic continental shelf has caused a range shift of the Atlantic surfclam, resulting in species overlap with the ocean quahog. An at-sea survey was conducted to assess the fishable concentrations of surfclams and quahogs in the overlap region. The analysis revealed depth-dependent density changes and temperature-dependent size differences between the two species. This study emphasizes the potential economic disruption of fisheries and the importance of regulatory changes to accommodate mixed catches.
Warming of the Mid-Atlantic continental shelf has resulted in a range shift of the Atlantic surfclam, Spisula solidissima, north and offshore into waters still occupied by ocean quahogs (Arctica islandica). An ecotone, a boundary transitioning between neighboring ecological systems over a wide range of space and time, now exists over much of the offshore range of the surfclam in which surfclams and ocean quahogs co-occur. Regulations prohibit fishers from landing both species in the same catch, limiting fishing to locations where the target species can be sorted on deck. An at-sea survey sampling 50+ stations in the overlap region was conducted in September 2021 with the purpose of mapping fishable concentrations of surfclams and ocean quahogs. Size frequency and density data of both species were assessed along with environmental parameters. Species overlap between surfclams and ocean quahogs was most prominent in the 40- to 55-m depth range. Density of surfclams shifted within this depth from surfclam dominant in less than 40 m to ocean quahog dominant in greater than 60 m. Atlantic surfclam length increased with increasing summer bottom water temperature, whereas densities remained stable, indicative of proportionately larger but fewer animals in warmer inshore waters. Ocean quahog size metrics and densities, on the other hand, remain relatively unresponsive to temperature and invading Atlantic surfclam populations and instead increase in size with higher latitude. Large ocean quahogs, in particular, exhibit a distinct correlation with high latitude but fail to do so with other environmental variables. This analysis emphasizes the potential for economic disruption of fisheries as climate change pushes surfclams further into the range of the ocean quahog and highlights the need for regulatory changes to allow mixed catches and landings. The study also emphasizes the importance of the relative rates of transgression and regression of range boundaries by abutting faunas in determining the degree of influence of the ecotone between them on the benthic community structure of the continental shelf.

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