Bycatch in marine fisheries
A review of the significant contributions in the peer-reviewed literature indicates that the discarding of marine fish known as bycatch remains one of the most significant problem facing fisheries managers. Bycatch has negative affects on marine biodiversity, is ripe with ethical and moral issues surrounding the waste of life from increased juvenile fish mortality, hinders commercial profitability and recreational satisfaction, increases management costs, and results in socio-cultural problems and conflicts. While appearing to have a simple conservation engineering solution, reducing or eliminating bycatch in marine fishing operations given the presently existing regulated open access management environment is demonstrated to actually be so complex that its effects can appear to be counter-intuitive. An ecosystem simulation model that explicitly incorporates the human and biological dimensions is used to evaluate proposed bycatch reduction regulations for two fishing fleets exploiting three out of seven species of fish, each with ten cohorts, in two resource areas. One of the fishing fleets is divided into two components representing commercial fishermen and recreational anglers. The seven fish species represent predator, prey, and competitor behaviors and one stock is treated as an endangered species. The results displayed in a series of figures demonstrate the potential unintended effects of simplistic management approaches and the need for a holistic and comprehensive approach to bycatch management. That is, an ecosystem model that explicitly incorporates socio-cultural and biophysical attributes into a common framework allows the magnitude and direction of behavioral responses to be predicted based on changes in governance or biophysical constraints to determine if management goals and objectives have been obtained through the use of quantitative metrics.
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| Language: | English |
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2012
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| Subjects: | Fisheries, Management, |
| Online Access: | http://hdl.handle.net/1834/30404 |
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dig-aquadocs-1834-304042021-06-27T03:05:37Z Bycatch in marine fisheries Ward, John M. Benaka, Lee R. Moore, Christopher M. Meyers, Steve Fisheries Management A review of the significant contributions in the peer-reviewed literature indicates that the discarding of marine fish known as bycatch remains one of the most significant problem facing fisheries managers. Bycatch has negative affects on marine biodiversity, is ripe with ethical and moral issues surrounding the waste of life from increased juvenile fish mortality, hinders commercial profitability and recreational satisfaction, increases management costs, and results in socio-cultural problems and conflicts. While appearing to have a simple conservation engineering solution, reducing or eliminating bycatch in marine fishing operations given the presently existing regulated open access management environment is demonstrated to actually be so complex that its effects can appear to be counter-intuitive. An ecosystem simulation model that explicitly incorporates the human and biological dimensions is used to evaluate proposed bycatch reduction regulations for two fishing fleets exploiting three out of seven species of fish, each with ten cohorts, in two resource areas. One of the fishing fleets is divided into two components representing commercial fishermen and recreational anglers. The seven fish species represent predator, prey, and competitor behaviors and one stock is treated as an endangered species. The results displayed in a series of figures demonstrate the potential unintended effects of simplistic management approaches and the need for a holistic and comprehensive approach to bycatch management. That is, an ecosystem model that explicitly incorporates socio-cultural and biophysical attributes into a common framework allows the magnitude and direction of behavioral responses to be predicted based on changes in governance or biophysical constraints to determine if management goals and objectives have been obtained through the use of quantitative metrics. 2021-06-24T16:50:52Z 2021-06-24T16:50:52Z 2012 article TRUE 0090-1830 http://hdl.handle.net/1834/30404 en http://spo.nmfs.noaa.gov/mfr742/mfr7422.pdf application/pdf application/pdf 13-25 Iz3@mac.com http://aquaticcommons.org/id/eprint/14542 403 2014-02-14 23:01:48 14542 United States National Marine Fisheries Service |
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Fisheries Management Fisheries Management |
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Fisheries Management Fisheries Management Ward, John M. Benaka, Lee R. Moore, Christopher M. Meyers, Steve Bycatch in marine fisheries |
| description |
A review of the significant contributions in the peer-reviewed literature indicates that the discarding of marine fish known as bycatch remains one of the most significant problem facing fisheries managers. Bycatch has negative affects on marine biodiversity, is ripe with ethical and moral issues surrounding the waste of life from increased juvenile fish mortality, hinders commercial profitability and recreational satisfaction, increases management costs, and results in socio-cultural problems and conflicts. While appearing to have a simple conservation engineering solution, reducing or eliminating bycatch in marine fishing operations given the presently existing regulated open access management environment is demonstrated to actually be so complex that its effects can appear to be counter-intuitive. An ecosystem simulation model that explicitly incorporates the human and biological dimensions is used to evaluate proposed bycatch reduction regulations for two fishing fleets exploiting three out of seven species of fish, each with ten cohorts, in two resource areas. One of the fishing fleets is divided into two components representing commercial fishermen and recreational anglers. The seven fish species represent predator, prey, and competitor behaviors and one stock is treated as an endangered species. The results displayed in a series of figures demonstrate the potential unintended effects of simplistic management approaches and the need for a holistic and comprehensive approach to bycatch management. That is, an ecosystem model that explicitly incorporates socio-cultural and biophysical attributes into a common framework allows the magnitude and direction of behavioral responses to be predicted based on changes in governance or biophysical constraints to determine if management goals and objectives have been obtained through the use of quantitative metrics. |
| format |
article |
| topic_facet |
Fisheries Management |
| author |
Ward, John M. Benaka, Lee R. Moore, Christopher M. Meyers, Steve |
| author_facet |
Ward, John M. Benaka, Lee R. Moore, Christopher M. Meyers, Steve |
| author_sort |
Ward, John M. |
| title |
Bycatch in marine fisheries |
| title_short |
Bycatch in marine fisheries |
| title_full |
Bycatch in marine fisheries |
| title_fullStr |
Bycatch in marine fisheries |
| title_full_unstemmed |
Bycatch in marine fisheries |
| title_sort |
bycatch in marine fisheries |
| publishDate |
2012 |
| url |
http://hdl.handle.net/1834/30404 |
| work_keys_str_mv |
AT wardjohnm bycatchinmarinefisheries AT benakaleer bycatchinmarinefisheries AT moorechristopherm bycatchinmarinefisheries AT meyerssteve bycatchinmarinefisheries |
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