Trends in the detection of aquatic non‐indigenous species across global marine, estuarine and freshwater ecosystems: A 50‐year perspective

Aim: The introduction of aquatic non-indigenous species (ANS) has become a major driver for global changes in species biogeography. We examined spatial patterns and temporal trends of ANS detections since 1965 to inform conservation policy and management.Location: Global. Methods: We assembled an ex...

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Published in:Diversity and Distributions
Main Authors: Bailey, Sarah A., Brown, Lyndsay, Campbell, Marnie L., Canning-Clode, João, Carlton, James T., Castro, Nuno, Chainho, Paula, Chan, Farrah T., Creed, Joel C., Curd, Amelia, Darling, John, Fofonoff, Paul, Galil, Bella S., Hewitt, Chad L., Inglis, Graeme J., Keith, Inti, Mandrak, Nicholas E., Marchini, Agnese, McKenzie, Cynthia H., Occhipinti‐Ambrogi, Anna, Ojaveer, Henn, Pires‐Teixeira, Larissa M., Robinson, Tamara B., Ruiz, Gregory M., Seaward, Kimberley, Schwindt, Evangelina, Son, Mikhail O., Therriault, Thomas W., Zhan, Aibin
Format: Article in Journal/Newspaper
Language:English
Published: Wiley Blackwell Publishing, Inc
Subjects:
Online Access:http://hdl.handle.net/11336/123302
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op_collection_id ftconicet
language English
topic AQUATIC NON-INDIGENOUS SPECIES
BIOLOGICAL INVASIONS
DETECTION RATE
INVENTORY
LONG-TERM DATASET
POPULATION STATUS
RICHNESS
SPATIAL PATTERNS
TEMPORAL TRENDS
TRNASPORT PATHWAYS
Conservación de la Biodiversidad
Ciencias Biológicas
CIENCIAS NATURALES Y EXACTAS
spellingShingle AQUATIC NON-INDIGENOUS SPECIES
BIOLOGICAL INVASIONS
DETECTION RATE
INVENTORY
LONG-TERM DATASET
POPULATION STATUS
RICHNESS
SPATIAL PATTERNS
TEMPORAL TRENDS
TRNASPORT PATHWAYS
Conservación de la Biodiversidad
Ciencias Biológicas
CIENCIAS NATURALES Y EXACTAS
Bailey, Sarah A.
Brown, Lyndsay
Campbell, Marnie L.
Canning-Clode, João
Carlton, James T.
Castro, Nuno
Chainho, Paula
Chan, Farrah T.
Creed, Joel C.
Curd, Amelia
Darling, John
Fofonoff, Paul
Galil, Bella S.
Hewitt, Chad L.
Inglis, Graeme J.
Keith, Inti
Mandrak, Nicholas E.
Marchini, Agnese
McKenzie, Cynthia H.
Occhipinti‐Ambrogi, Anna
Ojaveer, Henn
Pires‐Teixeira, Larissa M.
Robinson, Tamara B.
Ruiz, Gregory M.
Seaward, Kimberley
Schwindt, Evangelina
Son, Mikhail O.
Therriault, Thomas W.
Zhan, Aibin
Trends in the detection of aquatic non‐indigenous species across global marine, estuarine and freshwater ecosystems: A 50‐year perspective
topic_facet AQUATIC NON-INDIGENOUS SPECIES
BIOLOGICAL INVASIONS
DETECTION RATE
INVENTORY
LONG-TERM DATASET
POPULATION STATUS
RICHNESS
SPATIAL PATTERNS
TEMPORAL TRENDS
TRNASPORT PATHWAYS
Conservación de la Biodiversidad
Ciencias Biológicas
CIENCIAS NATURALES Y EXACTAS
description Aim: The introduction of aquatic non-indigenous species (ANS) has become a major driver for global changes in species biogeography. We examined spatial patterns and temporal trends of ANS detections since 1965 to inform conservation policy and management.Location: Global. Methods: We assembled an extensive dataset of first records of detection of ANS (1965–2015) across 49 aquatic ecosystems, including the (a) year of first collection, (b) population status and (c) potential pathway(s) of introduction. Data were analysed at global and regional levels to assess patterns of detection rate, richness and trans-port pathways.Results: An annual mean of 43 (±16 SD) primary detections of ANS occurred—one new detection every 8.4 days for 50 years. The global rate of detections was rel-atively stable during 1965–1995, but increased rapidly after this time, peaking at roughly 66 primary detections per year during 2005–2010 and then declining marginally. Detection rates were variable within and across regions through time. Arthropods, molluscs and fishes were the most frequently reported ANS. Most ANS were likely introduced as stowaways in ships’ ballast water or biofouling, although direct evidence is typically absent.Main conclusions: This synthesis highlights the magnitude of recent ANS detections, yet almost certainly represents an underestimate as many ANS go unreported due to limited search effort and diminishing taxonomic expertise. Temporal rates of detec-tion are also confounded by reporting lags, likely contributing to the lower detection rate observed in recent years. There is a critical need to implement standardized, repeated methods across regions and taxa to improve the quality of global-scale comparisons and sustain core measures over longer time-scales. It will be fundamen-tal to fill in knowledge gaps given that invasion data representing broad regions of the world's oceans are not yet readily available and to maintain knowledge pipelines for adaptive management. Fil: Bailey, Sarah A. Great Lakes Laboratory For Fisheries And Aquatic Scienc; Canadá Fil: Brown, Lyndsay. Marine Scotland Science; Reino Unido Fil: Campbell, Marnie L. Deakin University; Australia Fil: Canning-Clode, João. Marine And Environmental Sciences Centre; Portugal Fil: Carlton, James T. Williams College. Maritime Studies Program; Estados Unidos Fil: Castro, Nuno. Marine And Environmental Sciences Centre; Portugal Fil: Chainho, Paula. Marine And Environmental Sciences Centre; Portugal Fil: Chan, Farrah T. Great Lakes Institute For Enviromental Research; Canadá Fil: Creed, Joel C. Universidade do Estado de Rio do Janeiro; Brasil Fil: Curd, Amelia. Ifremer Institut Francais de Recherche Pour L'exploitation de la Mer; Francia Fil: Darling, John. United States Environmental Protection Agency; Estados Unidos Fil: Fofonoff, Paul. Smithsonian Environmental Research Ctr; Estados Unidos Fil: Galil, Bella S. The Steinhardt Museum Of Natural History; Israel Fil: Hewitt, Chad L. Murdoch University; Australia Fil: Inglis, Graeme J. National Institute Of Water & Atmospheric Research Lt; Nueva Zelanda Fil: Keith, Inti. Charles Darwin Foundation; Ecuador Fil: Mandrak, Nicholas E. University Of Toronto Scarborough; Canadá Fil: Marchini, Agnese. University of Pavia; Italia Fil: McKenzie, Cynthia H. Fisheries And Ocean Canada. Northwest Atlantic Fisheries Centre; Canadá Fil: Occhipinti‐Ambrogi, Anna. University of Pavia; Italia Fil: Ojaveer, Henn. University of Tartu; Estonia Fil: Pires‐Teixeira, Larissa M. Universidad de Lisboa; Portugal. Universidade do Estado do Rio de Janeiro; Brasil Fil: Robinson, Tamara B. Stellenbosch University; Sudáfrica Fil: Ruiz, Gregory M. United States Environmental Protection Agency; Estados Unidos Fil: Seaward, Kimberley. National Institute of Water & Atmospheric Research Ltd.; Nueva Zelanda Fil: Schwindt, Evangelina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Centro Nacional Patagónico. Instituto de Biología de Organismos Marinos; Argentina Fil: Son, Mikhail O. Institute of Marine Biology; Ucrania Fil: Therriault, Thomas W. Pacific Biological Station; Canadá Fil: Zhan, Aibin. Chinese Academy of Sciences; República de China
format Article in Journal/Newspaper
author Bailey, Sarah A.
Brown, Lyndsay
Campbell, Marnie L.
Canning-Clode, João
Carlton, James T.
Castro, Nuno
Chainho, Paula
Chan, Farrah T.
Creed, Joel C.
Curd, Amelia
Darling, John
Fofonoff, Paul
Galil, Bella S.
Hewitt, Chad L.
Inglis, Graeme J.
Keith, Inti
Mandrak, Nicholas E.
Marchini, Agnese
McKenzie, Cynthia H.
Occhipinti‐Ambrogi, Anna
Ojaveer, Henn
Pires‐Teixeira, Larissa M.
Robinson, Tamara B.
Ruiz, Gregory M.
Seaward, Kimberley
Schwindt, Evangelina
Son, Mikhail O.
Therriault, Thomas W.
Zhan, Aibin
author_facet Bailey, Sarah A.
Brown, Lyndsay
Campbell, Marnie L.
Canning-Clode, João
Carlton, James T.
Castro, Nuno
Chainho, Paula
Chan, Farrah T.
Creed, Joel C.
Curd, Amelia
Darling, John
Fofonoff, Paul
Galil, Bella S.
Hewitt, Chad L.
Inglis, Graeme J.
Keith, Inti
Mandrak, Nicholas E.
Marchini, Agnese
McKenzie, Cynthia H.
Occhipinti‐Ambrogi, Anna
Ojaveer, Henn
Pires‐Teixeira, Larissa M.
Robinson, Tamara B.
Ruiz, Gregory M.
Seaward, Kimberley
Schwindt, Evangelina
Son, Mikhail O.
Therriault, Thomas W.
Zhan, Aibin
author_sort Bailey, Sarah A.
title Trends in the detection of aquatic non‐indigenous species across global marine, estuarine and freshwater ecosystems: A 50‐year perspective
title_short Trends in the detection of aquatic non‐indigenous species across global marine, estuarine and freshwater ecosystems: A 50‐year perspective
title_full Trends in the detection of aquatic non‐indigenous species across global marine, estuarine and freshwater ecosystems: A 50‐year perspective
title_fullStr Trends in the detection of aquatic non‐indigenous species across global marine, estuarine and freshwater ecosystems: A 50‐year perspective
title_full_unstemmed Trends in the detection of aquatic non‐indigenous species across global marine, estuarine and freshwater ecosystems: A 50‐year perspective
title_sort trends in the detection of aquatic non‐indigenous species across global marine, estuarine and freshwater ecosystems: a 50‐year perspective
publisher Wiley Blackwell Publishing, Inc
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genre_facet Northwest Atlantic
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Bailey, Sarah A.; Brown, Lyndsay; Campbell, Marnie L.; Canning-Clode, João; Carlton, James T.; et al.; Trends in the detection of aquatic non‐indigenous species across global marine, estuarine and freshwater ecosystems: A 50‐year perspective; Wiley Blackwell Publishing, Inc; Diversity and Distributions; 26; 12; 10-2020; 1-18
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spelling ftconicet:oai:ri.conicet.gov.ar:11336/123302 2023-05-15T17:45:48+02:00 Trends in the detection of aquatic non‐indigenous species across global marine, estuarine and freshwater ecosystems: A 50‐year perspective Bailey, Sarah A. Brown, Lyndsay Campbell, Marnie L. Canning-Clode, João Carlton, James T. Castro, Nuno Chainho, Paula Chan, Farrah T. Creed, Joel C. Curd, Amelia Darling, John Fofonoff, Paul Galil, Bella S. Hewitt, Chad L. Inglis, Graeme J. Keith, Inti Mandrak, Nicholas E. Marchini, Agnese McKenzie, Cynthia H. Occhipinti‐Ambrogi, Anna Ojaveer, Henn Pires‐Teixeira, Larissa M. Robinson, Tamara B. Ruiz, Gregory M. Seaward, Kimberley Schwindt, Evangelina Son, Mikhail O. Therriault, Thomas W. Zhan, Aibin application/pdf http://hdl.handle.net/11336/123302 eng eng Wiley Blackwell Publishing, Inc info:eu-repo/semantics/altIdentifier/doi/10.1111/ddi.13167 info:eu-repo/semantics/altIdentifier/url/https://onlinelibrary.wiley.com/doi/10.1111/ddi.13167 Bailey, Sarah A.; Brown, Lyndsay; Campbell, Marnie L.; Canning-Clode, João; Carlton, James T.; et al.; Trends in the detection of aquatic non‐indigenous species across global marine, estuarine and freshwater ecosystems: A 50‐year perspective; Wiley Blackwell Publishing, Inc; Diversity and Distributions; 26; 12; 10-2020; 1-18 1366-9516 http://hdl.handle.net/11336/123302 1472-4642 CONICET Digital CONICET info:eu-repo/semantics/openAccess https://creativecommons.org/licenses/by/2.5/ar/ CC-BY AQUATIC NON-INDIGENOUS SPECIES BIOLOGICAL INVASIONS DETECTION RATE INVENTORY LONG-TERM DATASET POPULATION STATUS RICHNESS SPATIAL PATTERNS TEMPORAL TRENDS TRNASPORT PATHWAYS Conservación de la Biodiversidad Ciencias Biológicas CIENCIAS NATURALES Y EXACTAS info:eu-repo/semantics/article info:ar-repo/semantics/artículo info:eu-repo/semantics/publishedVersion ftconicet https://doi.org/10.1111/ddi.13167 2021-01-28T01:23:25Z Aim: The introduction of aquatic non-indigenous species (ANS) has become a major driver for global changes in species biogeography. We examined spatial patterns and temporal trends of ANS detections since 1965 to inform conservation policy and management.Location: Global. Methods: We assembled an extensive dataset of first records of detection of ANS (1965–2015) across 49 aquatic ecosystems, including the (a) year of first collection, (b) population status and (c) potential pathway(s) of introduction. Data were analysed at global and regional levels to assess patterns of detection rate, richness and trans-port pathways.Results: An annual mean of 43 (±16 SD) primary detections of ANS occurred—one new detection every 8.4 days for 50 years. The global rate of detections was rel-atively stable during 1965–1995, but increased rapidly after this time, peaking at roughly 66 primary detections per year during 2005–2010 and then declining marginally. Detection rates were variable within and across regions through time. Arthropods, molluscs and fishes were the most frequently reported ANS. Most ANS were likely introduced as stowaways in ships’ ballast water or biofouling, although direct evidence is typically absent.Main conclusions: This synthesis highlights the magnitude of recent ANS detections, yet almost certainly represents an underestimate as many ANS go unreported due to limited search effort and diminishing taxonomic expertise. Temporal rates of detec-tion are also confounded by reporting lags, likely contributing to the lower detection rate observed in recent years. There is a critical need to implement standardized, repeated methods across regions and taxa to improve the quality of global-scale comparisons and sustain core measures over longer time-scales. It will be fundamen-tal to fill in knowledge gaps given that invasion data representing broad regions of the world's oceans are not yet readily available and to maintain knowledge pipelines for adaptive management. Fil: Bailey, Sarah A. Great Lakes Laboratory For Fisheries And Aquatic Scienc; Canadá Fil: Brown, Lyndsay. Marine Scotland Science; Reino Unido Fil: Campbell, Marnie L. Deakin University; Australia Fil: Canning-Clode, João. Marine And Environmental Sciences Centre; Portugal Fil: Carlton, James T. Williams College. Maritime Studies Program; Estados Unidos Fil: Castro, Nuno. Marine And Environmental Sciences Centre; Portugal Fil: Chainho, Paula. Marine And Environmental Sciences Centre; Portugal Fil: Chan, Farrah T. Great Lakes Institute For Enviromental Research; Canadá Fil: Creed, Joel C. Universidade do Estado de Rio do Janeiro; Brasil Fil: Curd, Amelia. Ifremer Institut Francais de Recherche Pour L'exploitation de la Mer; Francia Fil: Darling, John. United States Environmental Protection Agency; Estados Unidos Fil: Fofonoff, Paul. Smithsonian Environmental Research Ctr; Estados Unidos Fil: Galil, Bella S. The Steinhardt Museum Of Natural History; Israel Fil: Hewitt, Chad L. Murdoch University; Australia Fil: Inglis, Graeme J. National Institute Of Water & Atmospheric Research Lt; Nueva Zelanda Fil: Keith, Inti. Charles Darwin Foundation; Ecuador Fil: Mandrak, Nicholas E. University Of Toronto Scarborough; Canadá Fil: Marchini, Agnese. University of Pavia; Italia Fil: McKenzie, Cynthia H. Fisheries And Ocean Canada. Northwest Atlantic Fisheries Centre; Canadá Fil: Occhipinti‐Ambrogi, Anna. University of Pavia; Italia Fil: Ojaveer, Henn. University of Tartu; Estonia Fil: Pires‐Teixeira, Larissa M. Universidad de Lisboa; Portugal. Universidade do Estado do Rio de Janeiro; Brasil Fil: Robinson, Tamara B. Stellenbosch University; Sudáfrica Fil: Ruiz, Gregory M. United States Environmental Protection Agency; Estados Unidos Fil: Seaward, Kimberley. National Institute of Water & Atmospheric Research Ltd.; Nueva Zelanda Fil: Schwindt, Evangelina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Centro Nacional Patagónico. Instituto de Biología de Organismos Marinos; Argentina Fil: Son, Mikhail O. Institute of Marine Biology; Ucrania Fil: Therriault, Thomas W. Pacific Biological Station; Canadá Fil: Zhan, Aibin. Chinese Academy of Sciences; República de China Article in Journal/Newspaper Northwest Atlantic CONICET Digital (Consejo Nacional de Investigaciones Científicas y Técnicas) Agnese ENVELOPE(-58.527,-58.527,-61.967,-61.967) Argentina Canada Deakin ENVELOPE(171.667,171.667,-84.667,-84.667) Murdoch ENVELOPE(-44.666,-44.666,-60.783,-60.783) Pacific Scarborough ENVELOPE(-96.000,-96.000,60.000,60.000) Diversity and Distributions 26 12 1780 1797