Hull fouling as an invasion vector: Can simple models explain a complex problem?

1. The most effective way to manage nonindigenous species and their impacts is to prevent their introduction via vector regulation. While ships' ballast water is very well studied and this vector is actively managed, hull fouling has received far less attention and regulations are only now bein...

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Detalles Bibliográficos
Autor principal: Sylvester, Francisco
Publicado: 2011
Materias:
Biological invasions
Hull fouling
Introduction vectors
Management
Models
Nonindigenous species
Ports
Propagule pressure
Ships
abundance
ballast water
coastal zone
colonization
fouling
hull
invasibility
invasive species
port
risk assessment
sampling
species diversity
videography
British Columbia
Canada
Halifax
Nova Scotia
Vancouver
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00218901_v48_n2_p415_Sylvester
http://hdl.handle.net/20.500.12110/paper_00218901_v48_n2_p415_Sylvester
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_00218901_v48_n2_p415_Sylvester
record_format dspace
spelling paper:paper_00218901_v48_n2_p415_Sylvester2023-06-08T14:42:40Z Hull fouling as an invasion vector: Can simple models explain a complex problem? Sylvester, Francisco Biological invasions Hull fouling Introduction vectors Management Models Nonindigenous species Ports Propagule pressure Ships abundance ballast water coastal zone colonization fouling hull invasibility invasive species port risk assessment sampling species diversity videography British Columbia Canada Halifax Nova Scotia Vancouver 1. The most effective way to manage nonindigenous species and their impacts is to prevent their introduction via vector regulation. While ships' ballast water is very well studied and this vector is actively managed, hull fouling has received far less attention and regulations are only now being considered despite its importance for introductions to coastal, marine systems. 2. We conducted comprehensive in situ sampling and video recording of hulls of 40 transoceanic vessels to assess propagule and colonization pressure in Vancouver and Halifax, dominant coastal ports in Canada. Concomitant sampling was conducted of harbour fouling communities to compare hull and port communities as part of a vector risk assessment. 3. Although this vector has been operational for a long time, hull and harbour communities were highly divergent, with mean Sørensen's similarity values of 0·03 in Halifax and 0·01 in Vancouver, suggesting invasion risk is high. Propagule pressure (up to 600 000 ind. ship-1) and colonization pressure (up to 156 species ship-1) were high and varied significantly between ports, with Vancouver receiving much higher abundances and diversity of potential invaders. The higher risk of fouling introductions in Vancouver is consistent with historical patterns of successful hull fouling invasions. 4. The extent of hull fouling was modelled using ship history predictors. Propagule pressure increased with time spent in previous ports-of-call and time since last application of antifouling paint, whereas colonization pressure increased with time since last painting and with the number of regions visited by the ship. Both propagule and colonization pressure were negatively related to the time spent at sea and the latitude of ports visited. 5. Synthesis and applications. A major challenge for applied invasion ecology is the effective management of introduction vectors. We found that hull fouling has a strong potential for introduction of many species to coastal marine habitats and that management should be considered. Simple variables related to the vessels' hull husbandry, voyage, and sailing patterns may be used to predict and manage hull fouling intensity. The results presented here should interest policy makers and environmental managers who seek to reduce invasion risk, and ship owners seeking to optimize fuel efficiency. © 2011 The Authors. Journal of Applied Ecology © 2011 British Ecological Society. Fil:Sylvester, F. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 2011 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00218901_v48_n2_p415_Sylvester http://hdl.handle.net/20.500.12110/paper_00218901_v48_n2_p415_Sylvester
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Biological invasions
Hull fouling
Introduction vectors
Management
Models
Nonindigenous species
Ports
Propagule pressure
Ships
abundance
ballast water
coastal zone
colonization
fouling
hull
invasibility
invasive species
port
risk assessment
sampling
species diversity
videography
British Columbia
Canada
Halifax
Nova Scotia
Vancouver
spellingShingle Biological invasions
Hull fouling
Introduction vectors
Management
Models
Nonindigenous species
Ports
Propagule pressure
Ships
abundance
ballast water
coastal zone
colonization
fouling
hull
invasibility
invasive species
port
risk assessment
sampling
species diversity
videography
British Columbia
Canada
Halifax
Nova Scotia
Vancouver
Sylvester, Francisco
Hull fouling as an invasion vector: Can simple models explain a complex problem?
topic_facet Biological invasions
Hull fouling
Introduction vectors
Management
Models
Nonindigenous species
Ports
Propagule pressure
Ships
abundance
ballast water
coastal zone
colonization
fouling
hull
invasibility
invasive species
port
risk assessment
sampling
species diversity
videography
British Columbia
Canada
Halifax
Nova Scotia
Vancouver
description 1. The most effective way to manage nonindigenous species and their impacts is to prevent their introduction via vector regulation. While ships' ballast water is very well studied and this vector is actively managed, hull fouling has received far less attention and regulations are only now being considered despite its importance for introductions to coastal, marine systems. 2. We conducted comprehensive in situ sampling and video recording of hulls of 40 transoceanic vessels to assess propagule and colonization pressure in Vancouver and Halifax, dominant coastal ports in Canada. Concomitant sampling was conducted of harbour fouling communities to compare hull and port communities as part of a vector risk assessment. 3. Although this vector has been operational for a long time, hull and harbour communities were highly divergent, with mean Sørensen's similarity values of 0·03 in Halifax and 0·01 in Vancouver, suggesting invasion risk is high. Propagule pressure (up to 600 000 ind. ship-1) and colonization pressure (up to 156 species ship-1) were high and varied significantly between ports, with Vancouver receiving much higher abundances and diversity of potential invaders. The higher risk of fouling introductions in Vancouver is consistent with historical patterns of successful hull fouling invasions. 4. The extent of hull fouling was modelled using ship history predictors. Propagule pressure increased with time spent in previous ports-of-call and time since last application of antifouling paint, whereas colonization pressure increased with time since last painting and with the number of regions visited by the ship. Both propagule and colonization pressure were negatively related to the time spent at sea and the latitude of ports visited. 5. Synthesis and applications. A major challenge for applied invasion ecology is the effective management of introduction vectors. We found that hull fouling has a strong potential for introduction of many species to coastal marine habitats and that management should be considered. Simple variables related to the vessels' hull husbandry, voyage, and sailing patterns may be used to predict and manage hull fouling intensity. The results presented here should interest policy makers and environmental managers who seek to reduce invasion risk, and ship owners seeking to optimize fuel efficiency. © 2011 The Authors. Journal of Applied Ecology © 2011 British Ecological Society.
author Sylvester, Francisco
author_facet Sylvester, Francisco
author_sort Sylvester, Francisco
title Hull fouling as an invasion vector: Can simple models explain a complex problem?
title_short Hull fouling as an invasion vector: Can simple models explain a complex problem?
title_full Hull fouling as an invasion vector: Can simple models explain a complex problem?
title_fullStr Hull fouling as an invasion vector: Can simple models explain a complex problem?
title_full_unstemmed Hull fouling as an invasion vector: Can simple models explain a complex problem?
title_sort hull fouling as an invasion vector: can simple models explain a complex problem?
publishDate 2011
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00218901_v48_n2_p415_Sylvester
http://hdl.handle.net/20.500.12110/paper_00218901_v48_n2_p415_Sylvester
work_keys_str_mv AT sylvesterfrancisco hullfoulingasaninvasionvectorcansimplemodelsexplainacomplexproblem
_version_ 1768544068770463744

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