Expectations and outcomes of reserve network performance following re-zoning of the Great Barrier Reef Marine Park

Michael J. Emslie; Murray Logan; David H. Williamson; Anthony M. Ayling; M. Aaron MacNeil; Daniela Ceccarelli; Alistair J. Cheal; Richard D. Evans; Kerryn A. Johns; Michelle J. Jonker; Ian R. Miller; Kate Osborne; Garry R. Russ; Hugh P.A. Sweatman

doi:10.1016/j.cub.2015.01.073

Expectations and outcomes of reserve network performance following re-zoning of the Great Barrier Reef Marine Park

Michael J. Emslie, Murray Logan, David H. Williamson, Anthony M. Ayling, M. Aaron MacNeil, Daniela Ceccarelli, Alistair J. Cheal, Richard D. Evans, Kerryn A. Johns, Michelle J. Jonker, Ian R. Miller, Kate Osborne, Garry R. Russ, Hugh P.A. Sweatman

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110 Citas (Scopus)

Resumen

Summary Networks of no-take marine reserves (NTMRs) are widely advocated for preserving exploited fish stocks and for conserving biodiversity. We used underwater visual surveys of coral reef fish and benthic communities to quantify the short- to medium-term (5 to 30 years) ecological effects of the establishment of NTMRs within the Great Barrier Reef Marine Park (GBRMP). The density, mean length, and biomass of principal fishery species, coral trout (Plectropomus spp., Variola spp.), were consistently greater in NTMRs than on fished reefs over both the short and medium term. However, there were no clear or consistent differences in the structure of fish or benthic assemblages, non-target fish density, fish species richness, or coral cover between NTMR and fished reefs. There was no indication that the displacement and concentration of fishing effort reduced coral trout populations on fished reefs. A severe tropical cyclone impacted many survey reefs during the study, causing similar declines in coral cover and fish density on both NTMR and fished reefs. However, coral trout biomass declined only on fished reefs after the cyclone. The GBRMP is performing as expected in terms of the protection of fished stocks and biodiversity for a developed country in which fishing is not excessive and targets a narrow range of species. NTMRs cannot protect coral reefs directly from acute regional-scale disturbance but, after a strong tropical cyclone, impacted NTMR reefs supported higher biomass of key fishery-targeted species and so should provide valuable sources of larvae to enhance population recovery and long-term persistence.

Idioma original	English
Número de artículo	11805
Páginas (desde-hasta)	983-992
Número de páginas	10
Publicación	Current Biology
Volumen	25
N.º	8
DOI	https://doi.org/10.1016/j.cub.2015.01.073
Estado	Published - abr. 20 2015
Publicado de forma externa	Sí

Nota bibliográfica

Funding Information:
Funding for the inshore reef monitoring program was provided by the Australian Research Council (ARC), the CRC Reef Research Centre, the Australian Government’s Marine and Tropical Sciences Research Facility (MTSRF), and the National Environmental Research Program (NERP). The offshore reef monitoring program was primarily funded by the Australian Institute of Marine Science (AIMS). Additional funding was provided by the CRC Reef Research Centre, the Australian Government’s Marine and Tropical Sciences Research Facility (MTSRF), and the National Environmental Research Program (NERP). We thank Tim Simmonds for assistance with the figures.

Publisher Copyright:
© 2015 Elsevier Ltd All rights reserved.

ASJC Scopus Subject Areas

General Neuroscience
General Biochemistry,Genetics and Molecular Biology
General Agricultural and Biological Sciences

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Emslie, M. J., Logan, M., Williamson, D. H., Ayling, A. M., MacNeil, M. A., Ceccarelli, D., Cheal, A. J., Evans, R. D., Johns, K. A., Jonker, M. J., Miller, I. R., Osborne, K., Russ, G. R., & Sweatman, H. P. A. (2015). Expectations and outcomes of reserve network performance following re-zoning of the Great Barrier Reef Marine Park. Current Biology, 25(8), 983-992. Artículo 11805. https://doi.org/10.1016/j.cub.2015.01.073

Emslie, MJ, Logan, M, Williamson, DH, Ayling, AM, MacNeil, MA, Ceccarelli, D, Cheal, AJ, Evans, RD, Johns, KA, Jonker, MJ, Miller, IR, Osborne, K, Russ, GR & Sweatman, HPA 2015, 'Expectations and outcomes of reserve network performance following re-zoning of the Great Barrier Reef Marine Park', Current Biology, vol. 25, n.º 8, 11805, pp. 983-992. https://doi.org/10.1016/j.cub.2015.01.073

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abstract = "Summary Networks of no-take marine reserves (NTMRs) are widely advocated for preserving exploited fish stocks and for conserving biodiversity. We used underwater visual surveys of coral reef fish and benthic communities to quantify the short- to medium-term (5 to 30 years) ecological effects of the establishment of NTMRs within the Great Barrier Reef Marine Park (GBRMP). The density, mean length, and biomass of principal fishery species, coral trout (Plectropomus spp., Variola spp.), were consistently greater in NTMRs than on fished reefs over both the short and medium term. However, there were no clear or consistent differences in the structure of fish or benthic assemblages, non-target fish density, fish species richness, or coral cover between NTMR and fished reefs. There was no indication that the displacement and concentration of fishing effort reduced coral trout populations on fished reefs. A severe tropical cyclone impacted many survey reefs during the study, causing similar declines in coral cover and fish density on both NTMR and fished reefs. However, coral trout biomass declined only on fished reefs after the cyclone. The GBRMP is performing as expected in terms of the protection of fished stocks and biodiversity for a developed country in which fishing is not excessive and targets a narrow range of species. NTMRs cannot protect coral reefs directly from acute regional-scale disturbance but, after a strong tropical cyclone, impacted NTMR reefs supported higher biomass of key fishery-targeted species and so should provide valuable sources of larvae to enhance population recovery and long-term persistence.",

author = "Emslie, {Michael J.} and Murray Logan and Williamson, {David H.} and Ayling, {Anthony M.} and MacNeil, {M. Aaron} and Daniela Ceccarelli and Cheal, {Alistair J.} and Evans, {Richard D.} and Johns, {Kerryn A.} and Jonker, {Michelle J.} and Miller, {Ian R.} and Kate Osborne and Russ, {Garry R.} and Sweatman, {Hugh P.A.}",

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AU - Ceccarelli, Daniela

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N2 - Summary Networks of no-take marine reserves (NTMRs) are widely advocated for preserving exploited fish stocks and for conserving biodiversity. We used underwater visual surveys of coral reef fish and benthic communities to quantify the short- to medium-term (5 to 30 years) ecological effects of the establishment of NTMRs within the Great Barrier Reef Marine Park (GBRMP). The density, mean length, and biomass of principal fishery species, coral trout (Plectropomus spp., Variola spp.), were consistently greater in NTMRs than on fished reefs over both the short and medium term. However, there were no clear or consistent differences in the structure of fish or benthic assemblages, non-target fish density, fish species richness, or coral cover between NTMR and fished reefs. There was no indication that the displacement and concentration of fishing effort reduced coral trout populations on fished reefs. A severe tropical cyclone impacted many survey reefs during the study, causing similar declines in coral cover and fish density on both NTMR and fished reefs. However, coral trout biomass declined only on fished reefs after the cyclone. The GBRMP is performing as expected in terms of the protection of fished stocks and biodiversity for a developed country in which fishing is not excessive and targets a narrow range of species. NTMRs cannot protect coral reefs directly from acute regional-scale disturbance but, after a strong tropical cyclone, impacted NTMR reefs supported higher biomass of key fishery-targeted species and so should provide valuable sources of larvae to enhance population recovery and long-term persistence.

AB - Summary Networks of no-take marine reserves (NTMRs) are widely advocated for preserving exploited fish stocks and for conserving biodiversity. We used underwater visual surveys of coral reef fish and benthic communities to quantify the short- to medium-term (5 to 30 years) ecological effects of the establishment of NTMRs within the Great Barrier Reef Marine Park (GBRMP). The density, mean length, and biomass of principal fishery species, coral trout (Plectropomus spp., Variola spp.), were consistently greater in NTMRs than on fished reefs over both the short and medium term. However, there were no clear or consistent differences in the structure of fish or benthic assemblages, non-target fish density, fish species richness, or coral cover between NTMR and fished reefs. There was no indication that the displacement and concentration of fishing effort reduced coral trout populations on fished reefs. A severe tropical cyclone impacted many survey reefs during the study, causing similar declines in coral cover and fish density on both NTMR and fished reefs. However, coral trout biomass declined only on fished reefs after the cyclone. The GBRMP is performing as expected in terms of the protection of fished stocks and biodiversity for a developed country in which fishing is not excessive and targets a narrow range of species. NTMRs cannot protect coral reefs directly from acute regional-scale disturbance but, after a strong tropical cyclone, impacted NTMR reefs supported higher biomass of key fishery-targeted species and so should provide valuable sources of larvae to enhance population recovery and long-term persistence.

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Expectations and outcomes of reserve network performance following re-zoning of the Great Barrier Reef Marine Park

Resumen

Nota bibliográfica

ASJC Scopus Subject Areas

ODS de las Naciones Unidas

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