No-take marine reserves increase abundance and biomass of reef fish on inshore fringing reefs of the Great Barrier Reef

D.H. WILLIAMSON; G.R. RUSS; A.M. AYLING

doi:10.1017/S0376892904001262

Abstract

The application of no-take marine reserve status to an area is expected to increase abundance and average size of individuals of species targeted by fisheries. The majority of the evidence supporting such expectations still involves comparisons of abundance at the one time of sites with and without marine reserve protection. Very few studies have data on the abundance and size structure of species targeted by fisheries in an area before reserve status is applied. Quantitative estimates of density and biomass of coral trout, Plectropomus spp., the major target of the hook and line fisheries on the Great Barrier Reef (GBR), Australia, on inshore fringing reefs of the Palm and Whitsunday Island groups, central GBR, are provided for 3–4 years before (1983–1984), and 12–13 years after (1999–2000) the establishment of no-take reserves in 1987. Quantitative estimates of density and biomass of coral trout in areas open to fishing were also collected in 1999–2000 at these two island groups. Density and biomass of coral trout increased significantly (by factors of 5.9 and 6.3 in the Palm Islands, and 4.0 and 6.2 in the Whitsunday Islands) in the reserve sites, but not the fished sites, between 1983–1984 and 1999–2000. In 1999–2000, density and biomass of coral trout and a secondary target of the fisheries, Lutjanus carponotatus, were significantly higher in the protected zones than in the fished zones at both island groups. The density and biomass of non-target fish species (Labridae, Siganidae and Chaetodontidae) did not differ significantly between reserve and fished zones at either island group. This is the most convincing data to date that the management zoning of the world's largest marine park has been effective, at least for coral trout on inshore reefs.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Evans, R.D. and Russ, G.R. 2004. Larger biomass of targeted reef fish in no‐take marine reserves on the Great Barrier Reef, Australia. Aquatic Conservation: Marine and Freshwater Ecosystems, Vol. 14, Issue. 5, p. 505.

Vincent, Amanda C. J. 2006. Coral Reef Conservation. p. 183.

Campbell, S.J. and Pardede, S.T. 2006. Reef fish structure and cascading effects in response to artisanal fishing pressure. Fisheries Research, Vol. 79, Issue. 1-2, p. 75.

Frisch, A. and Van Herwerden, L. 2006. Field and experimental studies of hybridization between coral trouts, Plectropomus leopardus and Plectropomus maculatus(Serranidae), on the Great Barrier Reef, Australia. Journal of Fish Biology, Vol. 68, Issue. 4, p. 1013.

Samoilys, Melita A. Martin-Smith, Keith M. Giles, Brian G. Cabrera, Brian Anticamara, Jonathan A. Brunio, Erwin O. and Vincent, Amanda C.J. 2007. Effectiveness of five small Philippines’ coral reef reserves for fish populations depends on site-specific factors, particularly enforcement history. Biological Conservation, Vol. 136, Issue. 4, p. 584.

Pillans, Suzanne Ortiz, Juan-Carlos Pillans, Richard D. and Possingham, Hugh P. 2007. The impact of marine reserves on nekton diversity and community composition in subtropical eastern Australia. Biological Conservation, Vol. 136, Issue. 3, p. 455.

Tetreault, Irene and Ambrose, Richard F. 2007. TEMPERATE MARINE RESERVES ENHANCE TARGETED BUT NOT UNTARGETED FISHES IN MULTIPLE NO‐TAKE MPAS. Ecological Applications, Vol. 17, Issue. 8, p. 2251.

Kulbicki, Michel Sarramégna, Sébastien Letourneur, Yves Wantiez, Laurent Galzin, René Mou-Tham, Gérard Chauvet, Claude and Thollot, Pierre 2007. Opening of an MPA to fishing: Natural variations in the structure of a coral reef fish assemblage obscure changes due to fishing. Journal of Experimental Marine Biology and Ecology, Vol. 353, Issue. 2, p. 145.

Frisch, A. J. McCormick, M. I. and Pankhurst, N. W. 2007. Reproductive periodicity and steroid hormone profiles in the sex-changing coral-reef fish, Plectropomus leopardus. Coral Reefs, Vol. 26, Issue. 1, p. 189.

Gaston, Kevin J. Jackson, Sarah F. Cantú-Salazar, Lisette and Cruz-Piñón, Gabriela 2008. The Ecological Performance of Protected Areas. Annual Review of Ecology, Evolution, and Systematics, Vol. 39, Issue. 1, p. 93.

Fairclough, D.V. Clarke, K.R. Valesini, F.J. and Potter, I.C. 2008. Habitat partitioning by five congeneric and abundant Choerodon species (Labridae) in a large subtropical marine embayment. Estuarine, Coastal and Shelf Science, Vol. 77, Issue. 3, p. 446.

Monk, Jacquomo Ierodiaconou, Daniel Bellgrove, Alecia and Laurenson, Laurie 2008. Using community-based monitoring with GIS to create habitat maps for a marine protected area in Australia. Journal of the Marine Biological Association of the United Kingdom, Vol. 88, Issue. 5, p. 865.

Kleczkowski, Matt Babcock, Russ C. and Clapin, Geordie 2008. Density and size of reef fishes in and around a temperate marine reserve. Marine and Freshwater Research, Vol. 59, Issue. 2, p. 165.

Bartholomew, Aaron Bohnsack, James A. Smith, Steven G. Ault, Jerald S. Harper, Douglas E. and McClellan, David B. 2008. Influence of marine reserve size and boundary length on the initial response of exploited reef fishes in the Florida Keys National Marine Sanctuary, USA. Landscape Ecology, Vol. 23, Issue. S1, p. 55.

Bell, James J. 2008. Connectivity between island Marine Protected Areas and the mainland. Biological Conservation, Vol. 141, Issue. 11, p. 2807.

Evans, R. D. Russ, G. R. and Kritzer, J. P. 2008. Batch fecundity of Lutjanus carponotatus (Lutjanidae) and implications of no-take marine reserves on the Great Barrier Reef, Australia. Coral Reefs, Vol. 27, Issue. 1, p. 179.

Siddiqui, Pirzada J.A. Farooq, Sumera Shafique, Seema Burhan, Zaib-un-Nisa and Farooqi, Zafar 2008. Conservation and management of biodiversity in Pakistan through the establishment of marine protected areas. Ocean & Coastal Management, Vol. 51, Issue. 5, p. 377.

Molloy, Philip P. Reynolds, John D. Gage, Matthew J.G. Mosqueira, Iago and Côté, Isabelle M. 2008. Links between sex change and fish densities in marine protected areas. Biological Conservation, Vol. 141, Issue. 1, p. 187.

Williamson, David H. Jones, Geoffrey P. and Thorrold, Simon R. 2009. An experimental evaluation of transgenerational isotope labelling in a coral reef grouper. Marine Biology, Vol. 156, Issue. 12, p. 2517.

Hardiman, Nigel and Burgin, Shelley 2010. Recreational impacts on the fauna of Australian coastal marine ecosystems. Journal of Environmental Management, Vol. 91, Issue. 11, p. 2096.

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No-take marine reserves increase abundance and biomass of reef fish on inshore fringing reefs of the Great Barrier Reef

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No-take marine reserves increase abundance and biomass of reef fish on inshore fringing reefs of the Great Barrier Reef

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