Climate change opens new frontiers for marine species in the Arctic: current trends and future invasion risks

Climate change and increased anthropogenic activities are expected to elevate the potential of introducing nonindigenous species (NIS) into the Arctic. Yet, the knowledge base needed to identify gaps and priorities for NIS research and management is limited. Here, we reviewed primary introduction ev...

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Published in:Global Change Biology
Main Authors: Chan, Farrah T., Stanislawczyk, Keara, Sneekes, Anna C., Dvoretsky, Alexander, Gollasch, Stephan, Minchin, Dan, David, Matej, Jelmert, Anders, Albretsen, Jon, Bailey, Sarah A.
Format: Article in Journal/Newspaper
Language:English
Published: 2019
Subjects:
alien species
aquaculture
climate warming
fisheries
invasion pathways
invasive species
knowledge gap
nonindigenous species
shipping
vessels
Arctic
Barents Sea
Norwegian Sea
Pacific
Arctic biodiversity
Climate change
Iceland
Northeast Atlantic
Online Access:https://vb.ku.lt/KU:ELABAPDB33079393&prefLang=en_US
id ftklaipedauniv:oai:ku.lt:elaba:33079393
record_format openpolar
spelling ftklaipedauniv:oai:ku.lt:elaba:33079393 2023-07-30T04:00:12+02:00 Climate change opens new frontiers for marine species in the Arctic: current trends and future invasion risks Chan, Farrah T. Stanislawczyk, Keara Sneekes, Anna C. Dvoretsky, Alexander Gollasch, Stephan Minchin, Dan David, Matej Jelmert, Anders Albretsen, Jon Bailey, Sarah A. 2019 application/pdf https://vb.ku.lt/KU:ELABAPDB33079393&prefLang=en_US eng eng info:eu-repo/semantics/altIdentifier/doi/10.1111/gcb.14469 https://vb.ku.lt/object/elaba:33079393/33079393.pdf https://vb.ku.lt/KU:ELABAPDB33079393&prefLang=en_US info:eu-repo/semantics/openAccess Global change biology, Hoboken : Wiley, 2019, vol. 25, no. 1, p. 25-38 ISSN 1354-1013 eISSN 1365-2486 alien species aquaculture climate warming fisheries invasion pathways invasive species knowledge gap nonindigenous species shipping vessels info:eu-repo/semantics/article 2019 ftklaipedauniv https://doi.org/10.1111/gcb.14469 2023-07-12T23:22:33Z Climate change and increased anthropogenic activities are expected to elevate the potential of introducing nonindigenous species (NIS) into the Arctic. Yet, the knowledge base needed to identify gaps and priorities for NIS research and management is limited. Here, we reviewed primary introduction events to each ecoregion of the marine Arctic realm to identify temporal and spatial patterns, likely source regions of NIS, and the putative introduction pathways. We included 54 introduction events representing 34 unique NIS. The rate of NIS discovery ranged from zero to four species per year between 1960 and 2015. The Iceland Shelf had the greatest number of introduction events (n = 14), followed by the Barents Sea (n = 11), and the Norwegian Sea (n = 11). Sixteen of the 54 introduction records had no known origins. The majority of those with known source regions were attributed to the Northeast Atlantic and the Northwest Pacific, 19 and 14 records, respectively. Some introduction events were attributed to multiple possible pathways. For these introductions, vessels transferred the greatest number of aquatic NIS (39%) to the Arctic, followed by natural spread (30%) and aquaculture activities (25%). Similar trends were found for introductions attributed to a single pathway. The phyla Arthropoda and Ochrophyta had the highest number of recorded introduction events, with 19 and 12 records, respectively. Recommendations including vector management, horizon scanning, early detection, rapid response, and a pan‐Arctic biodiversity inventory are considered in this paper. Our study provides a comprehensive record of primary introductions of NIS for marine environments in the circumpolar Arctic and identifies knowledge gaps and opportunities for NIS research and management. Ecosystems worldwide will face dramatic changes in the coming decades due to global change. [.] Article in Journal/Newspaper Arctic biodiversity Arctic Barents Sea Climate change Iceland Northeast Atlantic Norwegian Sea KU VL (Klaipėdos universitetas Virtual Library) Arctic Barents Sea Norwegian Sea Pacific Global Change Biology 25 1 25 38
institution Open Polar
collection KU VL (Klaipėdos universitetas Virtual Library)
op_collection_id ftklaipedauniv
language English
topic alien species
aquaculture
climate warming
fisheries
invasion pathways
invasive species
knowledge gap
nonindigenous species
shipping
vessels
spellingShingle alien species
aquaculture
climate warming
fisheries
invasion pathways
invasive species
knowledge gap
nonindigenous species
shipping
vessels
Chan, Farrah T.
Stanislawczyk, Keara
Sneekes, Anna C.
Dvoretsky, Alexander
Gollasch, Stephan
Minchin, Dan
David, Matej
Jelmert, Anders
Albretsen, Jon
Bailey, Sarah A.
Climate change opens new frontiers for marine species in the Arctic: current trends and future invasion risks
topic_facet alien species
aquaculture
climate warming
fisheries
invasion pathways
invasive species
knowledge gap
nonindigenous species
shipping
vessels
description Climate change and increased anthropogenic activities are expected to elevate the potential of introducing nonindigenous species (NIS) into the Arctic. Yet, the knowledge base needed to identify gaps and priorities for NIS research and management is limited. Here, we reviewed primary introduction events to each ecoregion of the marine Arctic realm to identify temporal and spatial patterns, likely source regions of NIS, and the putative introduction pathways. We included 54 introduction events representing 34 unique NIS. The rate of NIS discovery ranged from zero to four species per year between 1960 and 2015. The Iceland Shelf had the greatest number of introduction events (n = 14), followed by the Barents Sea (n = 11), and the Norwegian Sea (n = 11). Sixteen of the 54 introduction records had no known origins. The majority of those with known source regions were attributed to the Northeast Atlantic and the Northwest Pacific, 19 and 14 records, respectively. Some introduction events were attributed to multiple possible pathways. For these introductions, vessels transferred the greatest number of aquatic NIS (39%) to the Arctic, followed by natural spread (30%) and aquaculture activities (25%). Similar trends were found for introductions attributed to a single pathway. The phyla Arthropoda and Ochrophyta had the highest number of recorded introduction events, with 19 and 12 records, respectively. Recommendations including vector management, horizon scanning, early detection, rapid response, and a pan‐Arctic biodiversity inventory are considered in this paper. Our study provides a comprehensive record of primary introductions of NIS for marine environments in the circumpolar Arctic and identifies knowledge gaps and opportunities for NIS research and management. Ecosystems worldwide will face dramatic changes in the coming decades due to global change. [.]
format Article in Journal/Newspaper
author Chan, Farrah T.
Stanislawczyk, Keara
Sneekes, Anna C.
Dvoretsky, Alexander
Gollasch, Stephan
Minchin, Dan
David, Matej
Jelmert, Anders
Albretsen, Jon
Bailey, Sarah A.
author_facet Chan, Farrah T.
Stanislawczyk, Keara
Sneekes, Anna C.
Dvoretsky, Alexander
Gollasch, Stephan
Minchin, Dan
David, Matej
Jelmert, Anders
Albretsen, Jon
Bailey, Sarah A.
author_sort Chan, Farrah T.
title Climate change opens new frontiers for marine species in the Arctic: current trends and future invasion risks
title_short Climate change opens new frontiers for marine species in the Arctic: current trends and future invasion risks
title_full Climate change opens new frontiers for marine species in the Arctic: current trends and future invasion risks
title_fullStr Climate change opens new frontiers for marine species in the Arctic: current trends and future invasion risks
title_full_unstemmed Climate change opens new frontiers for marine species in the Arctic: current trends and future invasion risks
title_sort climate change opens new frontiers for marine species in the arctic: current trends and future invasion risks
publishDate 2019
url https://vb.ku.lt/KU:ELABAPDB33079393&prefLang=en_US
geographic Arctic
Barents Sea
Norwegian Sea
Pacific
geographic_facet Arctic
Barents Sea
Norwegian Sea
Pacific
genre Arctic biodiversity
Arctic
Barents Sea
Climate change
Iceland
Northeast Atlantic
Norwegian Sea
genre_facet Arctic biodiversity
Arctic
Barents Sea
Climate change
Iceland
Northeast Atlantic
Norwegian Sea
op_source Global change biology, Hoboken : Wiley, 2019, vol. 25, no. 1, p. 25-38
ISSN 1354-1013
eISSN 1365-2486
op_relation info:eu-repo/semantics/altIdentifier/doi/10.1111/gcb.14469
https://vb.ku.lt/object/elaba:33079393/33079393.pdf
https://vb.ku.lt/KU:ELABAPDB33079393&prefLang=en_US
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1111/gcb.14469
container_title Global Change Biology
container_volume 25
container_issue 1
container_start_page 25
op_container_end_page 38
_version_ 1772810753562116096

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