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Shifting dominance among Scarid species on reefs representing a gradient of fishing pressure

Published online by Cambridge University Press:  26 July 2008

Eric Clua  and
Pierre Legendre
Eric Clua
Affiliation:
Secrétariat de la Communauté du Pacifique (CPS), BP D5, 98848 Nouméa Cedex, Nouvelle-Calédonie École Pratique des Hautes Études, UMR 5244 EPHE-CNRS-UPVD, Université de Perpignan, 54 bis avenue Paul Alduy, 66860 Perpignan, France
Pierre Legendre
Affiliation:
Département de sciences biologiques, Université de Montréal, CP 6128, Montréal, Québec H3C 3J7, Canada
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Abstract

The present paper analyzes data collected between 2001 and 2002 on 81 reef fish species targeted by fishers at 5 sites in the Kingdom of Tonga (South Pacific). We first ranked the sites with respect to fishing pressure using two independent methods: (i) Tongan demography and reef surfaces available for fishing, and (ii) the differential effects of fishing on the whole set of 81 species grouped by their life history traits (LHT). We then focused on Parrotfish (Scaridae), which are heavily targeted in coral reef fisheries. We used the identified gradient of fishing pressure to study the effect of fishing on the community structure and test the hypothesis of “shifting dominance” amongst the 20 Scarid species present in the surveys. In addition to the classical effect of decreasing fish size in a family strongly targeted by fishers, the shifting dominance phenomenon includes a decrease in the abundance of the large-bodied and highly targeted species, favouring their replacement by smaller-bodied species from the same family, which are less impacted by fishing. In a context of interspecific competition amongst Scarids, the stress of fishing appears as a factor favouring the replacement of species with large maximum size, and LHT promoting low resilience, by smaller species with the opposite attributes. The discussion focuses on the various processes that can explain the shifting dominance phenomenon. The total density of resilient species, which increased along the gradient of increasing fishing pressure, can be used as an indicator of the over-exploitation of fish communities for reef fisheries management.

Keywords

Fishing pressureCoral reef fish assemblagesReef fisheries indicatorShifting dominanceScarid fishPacific Ocean.
Type
Research Article
Information
Aquatic Living Resources , Volume 21 , Issue 3: Special Issue (Advances in Fisheries Analysis and Modelling – Reversible and Irreversible Changes in Fish Resources and their usage) , July 2008 , pp. 339 - 348
Copyright
© EDP Sciences, IFREMER, IRD, 2008

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References

Bellwood, D.R., Hoey, A.S., Choat, H.J., 2003, Limited functional redundancy in high diversity systems: resilience and ecosystem function on coral reefs. Ecol. Lett. 6, 281285. CrossRef
Bergh, M.O., Getz, W.M., 1989, Stability and harvesting of competing populations with genetic variation in life history strategy. Theor. Pop. Biol. 36, 77124. CrossRef
Bernot, R.J., Dodds, W.K., Quist, M.C., Guy, C.S., 2004, Larval fish-induced phenotypic plasticity of coexisting Daphnia: an enclosure experiment. Freshw. Biol. 49, 8797. CrossRef
Boyd, H., Charles, A., 2006, Creating community-based indicators to monitor sustainability of local fisheries. Ocean Coast. Manage. 49, 237258. CrossRef
Bradford, D.F., Cooper, S.D., Jenkins, T.M Jr., Kratz, K., Sarnelle, O., Brown, A.D., 1998, Influences of natural acidity and introduced fish on faunal assemblages in California alpine lakes. Can. J. Fish. Aquat. Sci. 55, 24782491. CrossRef
Buckland S.T., Anderson D.R., Burnham K.P., Laake J.L., 1993, Distance sampling – Estimation of abundance of biological populations. London: Chapman and Hall.
Campbell, S.J., Pardede, S.T., 2006, Reef fish structure and cascading effects in response to artisanal fishing pressure. Fish. Res. 79, 7583. CrossRef
Clark, J.S., Grimm, E.C., Lynch, J., Mueller, P.G., 2001, Effects of Holocene climate change on the C4 grassland/woodland boundary in the Northern Plains, USA. Ecology 82, 620636.
Clua, E., 2007, Influence relative des facteurs écologiques et de la pêche sur la structuration des stocks de poissons récifaux dans six pêcheries du royaume des Tonga (Pacifique sud). Thèse de doctorat EPHE. Cybium 31, 38.
Clua, E., Legendre, P., Vigliola, L., Magron, F., Kulbicki, M., Sarramegna, S., Labrosse, P., Galzin, R., 2006a, Medium-scale approach (MSA) for improved assessment of coral reef fish habitat. J. Exp. Mar. Biol. Ecol. 333, 219230. CrossRef
Clua, E., Beliaeff, B., Chauvet, C., David, G., Ferraris, J., Kronen, M., Kulbicki, M., Labrosse, P., Letourneur, Y., Pelletier, D., Thébaud, O., Léopold, M., 2006b, Toward multidisciplinary indicator dashboards for coral reef fisheries management. Aquat. Living Resour. 18, 199213. CrossRef
Dalzell P., 1996, Catch rates, selectivity and yields of reef fishing. In: Polunin NVC, Roberts CM (eds), Reef fisheries. London: Chapman and Hall, pp. 161–192.
Dulvy, N.K., Polunin, N.V.C., Mill, A.C., Graham, N.A.J., 2004, Size structural change in lightly exploited coral reef fish communities: evidence for weak indirect effects. Can. J. Fish. Aquat. Sci. 61, 466475. CrossRef
Fox, R., Bellwood, D.R., 2008, Quantifying herbivory across a coral reef depth gradient. Mar. Ecol. Prog. Ser. 339, 4959. CrossRef
Friedlander, A.M., Parrish, J.D., 1998, Habitat characteristics affecting fish assemblages on a Hawaiian coral reef. J. Exp. Mar. Biol. Ecol. 224, 130. CrossRef
Ghiselin, M.T., 1969, The evolution of hermaphrodism among animals. Q. Rev. Biol. 44, 189208. CrossRef
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. CrossRef
Gust, N., Choat, H.J., McCormick, M.I., 2001, Spatial variability in reef fish distribution, abundance, size and biomass: a multi scale analysis. Mar. Ecol. Prog. Ser. 214, 237251. CrossRef
Harmelin, J.G., Bachet, F., Garcia, F., 1995, Mediterranean marine reserves: fish indices as tests of protection efficiency. Mar. Ecol. 16, 233250. CrossRef
Hiatt, R.W., Strasburg, D.W., 1960, Ecological relationships of the fish fauna on coral reefs of the Marshall Islands. Ecol. Monogr. 30, 65127. CrossRef
Hoey, A.S., Bellwood, D.R., 2008, Cross-shelf variation in the role of parrotfishes on the Great Barrier Reef. Coral Reefs 27, 3747. CrossRef
Hughes, T.P., Rodrigues, M.J., Bellwood, D.R., Ceccarelli, D., Hoegh-Guidberg, O., McCoock, L., Moltschaniwskyj, N., Pratchett, M.S., Steneck, R.S., Willis, B., 2007, Phase shifts, herbivory, and the resilience of coral reefs to climate change. Curr. Biol. 17, 360365. CrossRef
Jennings S., Lock J.M., 1996, Population and ecosystem effects of reef fishing. In: Polunin NVC, Roberts CM (eds.), Reef fisheries. London: Chapman and Hall, pp. 193–218.
Jennings, S., Polunin, N.V.C., 1997, Impacts of predator depletion by fishing on the biomass and diversity of non-target reef fish communities. Coral Reefs 16, 7182. CrossRef
Jennings, S., Greenstreet, S.P.R., Reynolds, J.D., 1999, Structural change in an exploited fish community: a consequence of differential fishing effects on species with contrasting life histories. J. Anim. Ecol. 68, 617627. CrossRef
Jennings, S., 2005, Indicators to support an ecosystem approach to fisheries. Fish Fish. 6, 212232. CrossRef
Jennings, S., Reynolds, J.D., Mills, S.C., 1998, Life history correlates of responses to fisheries exploitation. Proc. R. Soc. B 265, 333339. CrossRef
Kulbicki M., 1992, Distribution of the major life-history strategies of coral reef fishes across the Pacific Ocean. Proc. 7th Intern. Coral Reef Symp., Guam, Vol. 2, 908–919.
Klomp, K., Clarke, K., Marks, K., Miller, M., 2003, Condition of reef fish on Jamaica's north coast signals late stages of overexploitation. Proc. Ann. Gulf Carib. Fish. Inst. 54, 592606.
Kronen, M., 2003, Fishing for fortunes? A socioeconomic assessment of Tonga's artisanal fisheries. Fish. Res. 70, 121134.
Legendre, P., 2005, Species associations: the Kendall coefficient of concordance revisited. J. Agric. Biol. Environ. Stat. 10, 226245. CrossRef
Legendre, P., Gallagher, E., 2001, Ecologically meaningful transformations for ordination of species data. Oecologia 129, 271280. CrossRef
Legendre P., Legendre L., 1998, Numerical ecology, 2nd English edition. Amsterdam: Elsevier Science BV.
Levin, L.A., Neira, C., Grosholz, E.D., 2006, Invasive cordgrass modifies wetland trophic function. Ecology 87, 419432. CrossRef
McClanahan, T.R., Mangi, S., 2001, The effect of closed area and beach seine exclusion on coral reef fish catches. Fish. Manage. Ecol. 8, 107121. CrossRef
McCormick, M.I., 1994, Comparison of field methods for measuring surface topography and their associations with a tropical reef fish assemblage. Mar. Ecol. Prog. Ser. 112, 8796. CrossRef
Murawski, S.A., 2000, Definitions of overfishing from an ecosystem perspective. ICES J. Mar. Sci. 57, 649658. CrossRef
Randall, J.E., Smith, T.G., Williams, J.T., Kulbicki, M., Moutham, G., Labrosse, P., Kronen, M., Clua, E., 2004, Check-list of the shore and epipelagic fishes of Tonga. Atoll Res. Bull. 502, 135. CrossRef
Roberts, C.M., 1995, Effects of fishing on the ecosystem structure of coral reefs. Conserv. Biol. 9, 988995. CrossRef
Russ, G.R., Alcala, A.C., 1989, Effects of intense fishing pressure on an assemblage of coral reef fishes. Mar. Ecol. Prog. Ser. 56, 1327. CrossRef
Russ G.R., 1991, Coral reef fisheries: effects and yields. In: Sale P.F. (ed.) The ecology of fishes on coral reefs. San Diego, Academic Press, pp. 601–635.
Russ, G.R., Alcala, A.C., 1998, Natural fishing experiments in marine reserves 1983–1993: roles of life history and fishing intensity in family responses. Coral Reefs 17, 399416. CrossRef
Sadovy Y., 1996, Reproduction of reef fisheries species. In: Polunin NVC, Roberts CM (eds.), Reef fisheries. London: Chapman and Hall, pp. 15–59.
Scandol, J.P., Holloway, M., Gibbs, P.J., Astles, K.L., 2005, Ecosystem-based fisheries management: an Australian perspective. Aquat. Living Resour. 18, 261273. CrossRef
Shapiro, D.Y., 1988, Behavioral influences on gene structure and other new ideas concerning sex change in fishes. Environ. Biol. Fishes 23, 283297. CrossRef
Warner, R.R., 1988, Sex change in fishes: hypotheses, evidence, and objections. Environ. Biol. Fishes 22, 8110. CrossRef
Watson, M., Munro, J.L., 2004, Settlement and recruitment in moderately exploited and overexploited Caribbean ecosystems: implications for marine protected areas. Fish. Res. 69, 415425. CrossRef
Zand, M., 1976, Indexes associated with information theory in water quality. J. Water Pollut. Control Fed. 48, 20262041.