Are non-indigenous species hitchhiking offshore farmed mussels? A biogeographic and functional approach

The epifauna associated to farmed mussels in southern Portugal coast was analysed, aiming at identifying the species with spreading potential through commercial transport. The presence of a relevant number of the species here found is not reported to at least one of the common mussel export/transpos...

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Veröffentlicht in:	Marine pollution bulletin 2021-10, Vol.171, p.112776-112776, Article 112776
Hauptverfasser:	Piló, D., Pereira, F., Carvalho, A.N., Vasconcelos, P., Cunha, A.M., Gaspar, M.B.
Format:	Artikel
Sprache:	eng
Schlagworte:	Aquaculture Biogeographic distribution Biogeography Epifauna Fouling organisms Functional traits Indigenous species Introduced species Invasive species Marine crustaceans Mollusks Mussels Mytilus galloprovincialis Native organisms Offshore Offshore aquaculture Transport Transposition
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container_title	Marine pollution bulletin
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creator	Piló, D. Pereira, F. Carvalho, A.N. Vasconcelos, P. Cunha, A.M. Gaspar, M.B.
description	The epifauna associated to farmed mussels in southern Portugal coast was analysed, aiming at identifying the species with spreading potential through commercial transport. The presence of a relevant number of the species here found is not reported to at least one of the common mussel export/transposition countries. Indeed, important species biogeographic dissimilarities between the mussel farm area and the Greater North Sea and Western Mediterranean Sea sub-regions were detected, suggesting the potential transport of non-indigenous species (NIS) into other countries. Among them, fouling species such as the anemones Paractinia striata and Urticina felina, the acorn barnacles Balanus glandula and Balanus trigonus or the bryozoans Bugulina stolonifera and Schizoporella errata exhibit functional attributes that allow them to colonise and spread in new areas. This combined biogeographic and functional approach may contribute to clarify the role of aquaculture on the transport of NIS and to predict and prevent their spreading worldwide. •Epifaunal species associated with farmed mussels may be transported along European coasts through aquaculture exports.•Small-sized fouling organisms with multi-modality functional attributes tend to settle and spread in new areas.•A biogeographic and functional combined approach may be applied to track non-indigenous species.
doi_str_mv	10.1016/j.marpolbul.2021.112776
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A biogeographic and functional approach</title><title>Marine pollution bulletin</title><description>The epifauna associated to farmed mussels in southern Portugal coast was analysed, aiming at identifying the species with spreading potential through commercial transport. The presence of a relevant number of the species here found is not reported to at least one of the common mussel export/transposition countries. Indeed, important species biogeographic dissimilarities between the mussel farm area and the Greater North Sea and Western Mediterranean Sea sub-regions were detected, suggesting the potential transport of non-indigenous species (NIS) into other countries. Among them, fouling species such as the anemones Paractinia striata and Urticina felina, the acorn barnacles Balanus glandula and Balanus trigonus or the bryozoans Bugulina stolonifera and Schizoporella errata exhibit functional attributes that allow them to colonise and spread in new areas. 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subjects	Aquaculture Biogeographic distribution Biogeography Epifauna Fouling organisms Functional traits Indigenous species Introduced species Invasive species Marine crustaceans Mollusks Mussels Mytilus galloprovincialis Native organisms Offshore Offshore aquaculture Transport Transposition
title	Are non-indigenous species hitchhiking offshore farmed mussels? A biogeographic and functional approach
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