Managing non-native fish in the environment

Authors: Britton, J.R., Gozlan, R.E. and Copp, G.H.

Journal: Fish and Fisheries

Volume: 12

Issue: 3

Pages: 256-274

eISSN: 1467-2979

ISSN: 1467-2960

DOI: 10.1111/j.1467-2979.2010.00390.x

Abstract:

Non-native fishes are frequently used to enhance aquaculture and fisheries; if introduced into the wider environment, then the majority will have negligible effects on native biodiversity. However, a minority will become invasive, causing adverse ecological effects, and so management actions may be needed to minimize their dispersal and impacts. These actions include eradication attempts from specific waters or well-defined spatial areas, population control by suppression (e.g. through removal programmes) and containment of existing populations to prevent their further spread. These remedial actions have generally only been undertaken across large spatial areas in developed countries; experience suggests a fundamental constraint is a lack of selective removal methods that target the non-native fish species only. For example, eradication methods tend to be limited to low technology, 'scorched-earth' techniques (e.g. biocide chemicals) whose use is generally constrained to relatively small and enclosed water bodies. Risk management of non-native fishes should ensure that actions taken are commensurate with the level of risk posed by that species in the environment; although pre-introduction risk assessment schemes have been developed, there remains a lack of decision support tools for post-introduction situations. Although this inhibits the management of non-native fishes in the environment, control programmes such as those against common carp Cyprinus carpio in Australia and topmouth gudgeon Pseudorasbora parva in England and Wales suggest there is potential for invasions to be managed and controlled within large spatial areas, even if their eradication may not be feasible. © 2010 Blackwell Publishing Ltd.

Source: Scopus

Managing non-native fish in the environment

Authors: Britton, J.R., Gozlan, R.E. and Copp, G.H.

Journal: FISH AND FISHERIES

Volume: 12

Issue: 3

Pages: 256-274

eISSN: 1467-2979

ISSN: 1467-2960

DOI: 10.1111/j.1467-2979.2010.00390.x

Source: Web of Science (Lite)

Managing non-native fish in the environment

Authors: Britton, J.R., Copp, G.H. and Gozlan, R.E.

Journal: Fish and Fisheries

Volume: 12

Pages: 256-274

ISSN: 1467-2960

DOI: 10.1111/j.1467-2979.2010.00390.x

Abstract:

Non-native fishes are frequently used to enhance aquaculture and fisheries; if introduced into the wider environment, then the majority will have negligible effects on native biodiversity. However, a minority will become invasive, causing adverse ecological effects, and so management actions may be needed to minimize their dispersal and impacts. These actions include eradication attempts from specific waters or well-defined spatial areas, population control by suppression (e.g. through removal programmes) and containment of existing populations to prevent their further spread. These remedial actions have generally only been undertaken across large spatial areas in developed countries; experience suggests a fundamental constraint is a lack of selective removal methods that target the non-native fish species only. For example, eradication methods tend to be limited to low technology, ‘scorched-earth’ techniques (e.g. biocide chemicals) whose use is generally constrained to relatively small and enclosed water bodies. Risk management of non-native fishes should ensure that actions taken are commensurate with the level of risk posed by that species in the environment; although pre-introduction risk assessment schemes have been developed, there remains a lack of decision support tools for post-introduction situations. Although this inhibits the management of non-native fishes in the environment, control programmes such as those against common carp Cyprinus carpio in Australia and topmouth gudgeon Pseudorasbora parva in England and Wales suggest there is potential for invasions to be managed and controlled within large spatial areas, even if their eradication may not be feasible.

http://onlinelibrary.wiley.com/doi/10.1111/j.1467-2979.2010.00390.x/abstract

Source: Manual

Preferred by: Robert Britton