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First among equals: why some habitats should be considered more important than others during marine reserve planning

Published online by Cambridge University Press:  18 May 2009

ALASTAIR R. HARBORNE*
Affiliation:
Marine Spatial Ecology, Laboratory School of Biosciences, Hatherly Laboratory, University of Exeter, Prince of Wales Road Exeter EX4 4PS, UK e-mail: [email protected]

Summary

Reserve selection algorithms (RSAs) are a powerful tool for marine conservation, but need biological realistic constraints. A common constraint is that the RSA aims to include the same percentage area of each habitat in the reserve network. The example of Caribbean reefs is used to argue that there is significant additional scope to set specific areal targets for each habitat type, as in many terrestrial case studies. Ten Caribbean habitats are weighted by data on their biodiversity, functional value to ecosystem processes and ecosystem services. These weightings vary depending on the criteria used, and are particularly distinct for ecosystem services. Furthermore, a percentage goal for a habitat can be achieved in multiple ways by including different combinations of habitat patches from across a seascape. RSAs may treat these combinations equally, but some habitat patches are more ‘valuable’ than others because, for example, high abundances of grazers make the benthic community resilient. Incorporating some of these considerations into RSAs is relatively easy, while others are more difficult. However, establishing how to integrate patterns of biodiversity, and ecological processes, functions, goods and services across seascapes into RSAs offers opportunities to improve the design of networks of reserves.

Type
EC Perspectives
Copyright
Copyright © Foundation for Environmental Conservation 2009

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References

Airamé, S., Dugan, J.E., Lafferty, K.D., Leslie, H., McArdle, D.A. & Warner, R.R. (2003) Applying ecological criteria to marine reserve design: a case study from the California Channel Islands. Ecological Applications 13: S170S184.CrossRefGoogle Scholar
Arponen, A., Heikkinen, R.K., Thomas, C.D. & Moilanen, A. (2005) The value of biodiversity in reserve selection: representation, species weighting, and benefit functions. Conservation Biology 19: 20092014.CrossRefGoogle Scholar
Arponen, A., Moilanen, A. & Ferrier, S. (2008) A successful community-level strategy for conservation prioritization. Journal of Applied Ecology 45: 14361445.CrossRefGoogle Scholar
Ball, I.R. & Possingham, H.P. (2000) MARXAN (V1.8.2): Marine Reserve Design Using Spatially Explicit Annealing, a Manual. Brisbane, Australia: University of Queensland.Google Scholar
Brooks, T.M., da Fonseca, G.A.B. & Rodrigues, A.S.L. (2004) Protected areas and species. Conservation Biology 18: 616618.CrossRefGoogle Scholar
Chan, K.M.A., Shaw, M.R., Cameron, D.R., Underwood, E.C. & Daily, G.C. (2006) Conservation planning for ecosystem services. PLoS Biology 4: 21382152.CrossRefGoogle ScholarPubMed
Cowen, R.K., Paris, C.B. & Srinivasan, A. (2006) Scaling of connectivity in marine populations. Science 311: 522527.CrossRefGoogle ScholarPubMed
Egoh, B., Rouget, M., Reyers, B., Knight, A.T., Cowling, R.M., van Jaarsveld, A.S. & Welz, A. (2007) Integrating ecosystem services into conservation assessments: a review. Ecological Economics 63: 714721.CrossRefGoogle Scholar
Fernandes, L., Day, J., Lewis, A., Slegers, S., Kerrigan, B., Breen, D., Cameron, D., Jago, B., Hall, J., Lowe, D., Innes, J., Tanzer, J., Chadwick, V., Thompson, L., Gorman, K., Simmons, M., Barnett, B., Sampson, K., De'ath, G., Mapstone, B., Marsh, H., Possingham, H., Ball, I., Ward, T., Dobbs, K., Aumend, J., Slater, D. & Stapleton, K. (2005) Establishing representative no-take areas in the Great Barrier Reef: large-scale implementation of theory on marine protected areas. Conservation Biology 19: 17331744.CrossRefGoogle Scholar
Fraschetti, S., D'Ambrosio, P., Micheli, F., Pizzolante, F., Bussotti, S. & Terlizzi, A. (2009) Design of marine protected areas in a human-dominated seascape. Marine Ecology Progress Series 375: 1324.CrossRefGoogle Scholar
Game, E.T., McDonald-Madden, E., Puotinen, M.L. & Possingham, H.P. (2008 a) Should we protect the strong or the weak? Risk, resilience, and the selection of marine protected areas. Conservation Biology 22: 16191629.CrossRefGoogle ScholarPubMed
Game, E.T., Watts, M.E., Wooldridge, S. & Possingham, H.P. (2008 b) Planning for persistence in marine reserves: a question of catastrophic importance. Ecological Applications 18: 670680.CrossRefGoogle ScholarPubMed
Graham, N.A.J., Dulvy, N.K., Jennings, S. & Polunin, N.V.C. (2005) Size-spectra as indicators of the effects of fishing on coral reef fish assemblages. Coral Reefs 24: 118124.CrossRefGoogle Scholar
Grober-Dunsmore, R., Frazer, T.K., Lindberg, W.J. & Beets, J. (2007) Reef fish and habitat relationships in a Caribbean seascape: the importance of reef context. Coral Reefs 26: 201216.CrossRefGoogle Scholar
Harborne, A.R., Mumby, P.J., Kappel, C.V., Dahlgren, C.P., Micheli, F., Holmes, K.E. & Brumbaugh, D.R. (2008) Tropical coastal habitats as surrogates of fish community structure, grazing, and fisheries value. Ecological Applications 18: 16891701.CrossRefGoogle ScholarPubMed
Harborne, A.R., Mumby, P.J., Micheli, F., Perry, C.T., Dahlgren, C.P., Holmes, K.E. & Brumbaugh, D.R. (2006 a) The functional value of Caribbean coral reef, seagrass and mangrove habitats to ecosystem processes. Advances In Marine Biology 50: 57189.CrossRefGoogle ScholarPubMed
Harborne, A.R., Mumby, P.J., Żychaluk, K., Hedley, J.D. & Blackwell, P.G. (2006 b) Modeling the beta diversity of coral reefs. Ecology 87: 28712881.CrossRefGoogle ScholarPubMed
Heijnis, C.E., Lombard, A.T., Cowling, R.M. & Desmet, P.G. (1999) Picking up the pieces: a biosphere reserve framework for a fragmented landscape. The Coastal Lowlands of the Western Cape, South Africa. Biodiversity and Conservation 8: 471496.CrossRefGoogle Scholar
Klein, C., Wilson, K., Watts, M., Stein, J., Berry, S., Carwardine, J., Smith, M.S., Mackey, B. & Possingham, H. (2009) Incorporating ecological and evolutionary processes into continental-scale conservation planning. Ecological Applications 19: 206217.CrossRefGoogle ScholarPubMed
Klein, C.J., Steinback, C., Scholz, A.J. & Possingham, H.P. (2008) Effectiveness of marine reserve networks in representing biodiversity and minimizing impact to fishermen: a comparison of two approaches used in California. Conservation Letters 1: 4451.CrossRefGoogle Scholar
Knight, A.T., Cowling, R.M. & Campbell, B.M. (2006) An operational model for implementing conservation action. Conservation Biology 20: 408419.CrossRefGoogle ScholarPubMed
Leathwick, J., Moilanen, A., Francis, M., Elith, J., Taylor, P., Julian, K., Hastie, T. & Duffy, C. (2008) Novel methods for the design and evaluation of marine protected areas in offshore waters. Conservation Letters 1: 91102.CrossRefGoogle Scholar
Leslie, H., Ruckelshaus, M., Ball, I.R., Andelman, S. & Possingham, H.P. (2003) Using siting algorithms in the design of marine reserve networks. Ecological Applications 13: S185S198.CrossRefGoogle Scholar
Lindeman, K.C., Diaz, G.A., Serafy, J.E. & Ault, J.S. (1998) A spatial framework for assessing cross-shelf habitat use among newly settled grunts and snappers. Proceedings of the Gulf and Caribbean Fisheries Institute 50: 385–416.Google Scholar
Margules, C.R. & Pressey, R.L. (2000) Systematic conservation planning. Nature 405: 243253.CrossRefGoogle ScholarPubMed
Moberg, F. & Folke, C. (1999) Ecological goods and services of coral reef ecosystems. Ecological Economics 29: 215233.CrossRefGoogle Scholar
Mumby, P.J. (2006) Connectivity of reef fish between mangroves and coral reefs: algorithms for the design of marine reserves at seascape scales. Biological Conservation 128: 215222.CrossRefGoogle Scholar
Mumby, P.J., Broad, K., Brumbaugh, D.R., Dahlgren, C.P., Harborne, A.R., Hastings, A., Holmes, K.E., Kappel, C.V., Micheli, F. & Sanchirico, J.N. (2008) Coral reef habitats as surrogates of species, ecological functions, and ecosystem services. Conservation Biology 22: 941951.CrossRefGoogle ScholarPubMed
Mumby, P.J., Edwards, A.J., Arias-González, J.E., Lindeman, K.C., Blackwell, P.G., Gall, A., Gorczynska, M.I., Harborne, A.R., Pescod, C.L., Renken, H., Wabnitz, C.C.C. & Llewellyn, G. (2004) Mangroves enhance the biomass of coral reef fish communities in the Caribbean. Nature 427: 533536.CrossRefGoogle ScholarPubMed
Mumby, P.J., Hastings, A. & Edwards, H.J. (2007) Thresholds and the resilience of Caribbean coral reefs. Nature 450: 98101.CrossRefGoogle ScholarPubMed
Pressey, R.L., Cabeza, M., Watts, M.E., Cowling, R.M. & Wilson, K.A. (2007) Conservation planning in a changing world. Trends in Ecology and Evolution 22: 583592.CrossRefGoogle Scholar
Pressey, R.L., Cowling, R.M. & Rouget, M. (2003) Formulating conservation targets for biodiversity pattern and process in the Cape Floristic Region, South Africa. Biological Conservation 112: 99127.CrossRefGoogle Scholar
Roberts, C.M., Andelman, S., Branch, G., Bustamante, R.H., Castilla, J.C., Dugan, J., Halpern, B.S., Lafferty, K.D., Leslie, H., Lubchenco, J., McArdle, D., Possingham, H. P., Ruckelshaus, M. & Warner, R.R. (2003) Ecological criteria for evaluating candidate sites for marine reserves. Ecological Applications 13: S199S214.CrossRefGoogle Scholar
Rossi, E. & Kuitunen, M. (1996) Ranking of habitats for the assessment of ecological impact in land use planning. Biological Conservation 77: 227234.CrossRefGoogle Scholar
Rouget, M., Cowling, R.M., Pressey, R.L. & Richardson, D.M. (2003) Identifying spatial components of ecological and evolutionary processes for regional conservation planning in the Cape Floristic Region, South Africa. Diversity and Distributions 9: 191210.CrossRefGoogle Scholar
Sala, E., Aburto-Oropeza, O., Paredes, G., Parra, I., Barrera, J.C. & Dayton, P.K. (2002) A general model for designing networks of marine reserves. Science 298: 19911993.CrossRefGoogle ScholarPubMed
Stewart, R.R., Ball, I.R. & Possingham, H.P. (2007) The effect of incremental reserve design and changing reservation goals on the long-term effliciency of reserve systems. Conservation Biology 21: 346354.CrossRefGoogle Scholar
Williams, J.C., ReVelle, C.S. & Levin, S.A. (2004) Using mathematical optimization models to design nature reserves. Frontiers in Ecology and the Environment 2: 98105.CrossRefGoogle Scholar