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Surf zone fish abundance and diversity at two sandy beaches separated by long rocky jetties

Published online by Cambridge University Press:  21 November 2012

Fábio Lameiro Rodrigues  and
João Paes Vieira
Fábio Lameiro Rodrigues*
Affiliation:
Programa de Pós-Graduação em Oceanografia Biológica—Laboratório de Ictiologia, Instituto de Oceanografia, Universidade Federal do Rio Grande (FURG), Avenida Itália km 8, Caixa Postal 474, 96201-900 Rio Grande, Rio Grande do Sul, Brazil
João Paes Vieira
Affiliation:
Laboratório de Ictiologia, Instituto de Oceanografia, Fundação Universidade do Rio Grande (FURG)
*
Correspondence should be addressed to: F.L. Rodrigues, Programa de Pós-Graduação em Oceanografia Biológica—Laboratório de Ictiologia, Instituto de Oceanografia, Universidade Federal do Rio Grande (FURG), Avenida Itália km 8, Caixa Postal 474, 96201-900 Rio Grande, Rio Grande do Sul, Brazil email: oceanolameiro@yahoo.com.br
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Abstract

In this work, we evaluated the influence of long rocky jetties (~5 km) on fish abundance and diversity between sheltered and exposed marine sandy beaches. We also described and compared the fish community structure and investigated the relationships between environmental variables and fish assemblages. Fish were collected monthly with a beach seine net from May 2001 to May 2002 at the Cassino and Mar Grosso beaches. Twenty-nine taxa were caught and the fish assemblage showed similar composition between beaches (Sj = 62.1%; %Min = 52.3%), with 18 species in common. Most of the fish were juveniles, mainly young-of-the-year with sizes ≤60 mm total length. Eight species (Trachinotus marginatus, Mugil liza, Brevoortia pectinata, Menticirrhus littoralis, Menticirrhus americanus, Odontesthes argentinensis and Oncopterus darwinii) were the most abundant, accounting for 95.6% of the total catch. At both beaches, only T. marginatus, M. liza and M. littoralis were frequent and abundant, but with some differences in their relative abundance. The canonical correspondence analysis results showed that temperature had the highest correlation with fish abundance. Seasonal changes in fish assemblage structure were evident, with a greater species diversity and abundance in the spring and summer. The overall results indicate that the presence of jetties had no effect on fish assemblages of adjacent sandy beaches. Moreover, differences between beaches were related to some species abundance and not to differences in the number and composition of species between beaches.

Keywords

fish nurserieswave exposureman-made structuresbeach seine netmultivariate analysisfish assemblage
Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 93 , Issue 4 , June 2013 , pp. 867 - 875
Copyright
Copyright © Marine Biological Association of the United Kingdom 2012 

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References

REFERENCES

Able, K.W., Grothues, T.M., Rowe, P.M., Wuenschel, M.J. and Vasslides, J.M. (2011) Near-surface larval and juvenile fish in coastal habitats: comparisons between the inner shelf and an estuary in the New York Bight during summer and fall. Estuaries and Coasts 34, 726738.CrossRefGoogle Scholar
Amara, R. (2003) Seasonal ichthyodiversity and growth patterns of juvenile flatfish on a nursery ground in the Southern Bight of the North Sea (France). Environmental Biology of Fishes 67, 191201.CrossRefGoogle Scholar
Anderson, M.J. (2001) A new method for non-parametric multivariate analysis of variance. Austral Ecology 26, 3246.Google Scholar
Anderson, M.J., Gorley, R.N. and Clake, K.R. (2008) PERMANOVA + for PRIMER: guide to software and statistical methods. Plymouth: PRIMER-E Ltd.Google Scholar
Ayvazian, S.G. and Hyndes, G.A. (1995) Surf-zone fish assemblages in south-western Australia: do adjacent nearshore habitats and the warm Leeuwin Current influence the characteristics of the fish fauna? Marine Biology 122, 527536.CrossRefGoogle Scholar
Beck, M.W., Heck, K.L. Jr, Able, K.W., Childers, D.L., Eggleston, D.B., Gillanders, B.M., Halpern, B., Hays, C.G., Hoshino, K., Minello, T.J., Orth, R.J., Sheridan, P.F. and Weinstein, M.P. (2001) The identification, conservation and management of estuarine and marine nurseries for fish and invertebrates. Bioscience 51, 633641.CrossRefGoogle Scholar
Beck, M.W., Heck, K.L. Jr, Able, K.W., Childers, D.L., Eggleston, D.B., Gillanders, B.M., Halpern, B.S., Hays, C.G., Hoshino, K., Minello, T.J., Orth, R.J., Sheridan, P.F. and Weinstein, M.P. (2003) The role of nearshore ecosystems as fish and shellfish nurseries. Issues in Ecology 11, 112.Google Scholar
Bell, K.N.I., Cowley, P.D. and Whitfield, A.K. (2001) Seasonality in frequency of marine access to an intermittently open estuary: implications for recruitment strategies. Estuarine, Coastal and Shelf Science 52, 327337.CrossRefGoogle Scholar
Beyst, B., Buysse, D.Dewicke, A. and Mees, J. (2001) Surf zone hyperbenthos of Belgian sandy beaches: seasonal patterns. Estuarine, Coastal and Shelf Science 53, 877895.CrossRefGoogle Scholar
Beyst, B., Hostens, K. and Mees, J. (2002) Factors influencing the spatial variation in fish and macrocrustacean communities in the surf zone of sandy beaches in Belgium. Journal of the Marine Biological Association of the United Kingdom 82, 181187.CrossRefGoogle Scholar
Calliari, L.J. and Klein, A.H.F. (1993) Características morfodinâmicas e sedimentológicas das praias oceânicas entre Rio Grande e Chuí, RS. Pesquisas 20, 4856.Google Scholar
Calliari, L.J., Holland, K.T., Pereira, P.S., Guedes, R.M.C. and Santo, R.E. (2007) The influence of mud on the inner shelf, shoreface, beach and surf zone morphodynamics—Cassino, southern Brazil. In Proceedings of the Coastal Sediments'07, New Orleans, MS, pp. 111.CrossRefGoogle Scholar
Cenci, E., Pizzolon, M., Chimento, M. and Mazzoldi, C. (2011) The influence of a new artificial structure on fish assemblages of adjacent hard substrata. Estuarine, Coastal and Shelf Science 91, 133149.CrossRefGoogle Scholar
Clark, B.M (1997) Variation in surf-zone fish community structure across a wave-exposure gradient. Estuarine, Coastal and Shelf Science 44, 659674.CrossRefGoogle Scholar
de Oliveira, A.O. and Calliari, L.J. (2006) Morfodinâmica da praia do Mar Grosso, São José do Norte/RS. Gravel 4, 2326.Google Scholar
Félix, F.C., Spach, H.L., Moro, P.S., Hackradt, C.W., de Queiroz, G.M.L.N. and Hostim-Silva, M. (2007) Ichthyofauna composition across a wave-energy gradient on southern Brazil beaches. Brazilian Journal of Oceanography 55, 281292.CrossRefGoogle Scholar
Figueiredo, S.A., Cowell, P. and Short, A. (2007) Intermittent backbeach discharge to the surfzone: modes and geomorphologic implications. Journal of Coastal Research SI50, 610614.Google Scholar
Garcia, A.M. and Vieira, J.P. (2001) O aumento da diversidade de peixes no estuário da Lagoa dos Patos durante o episódio El Niño 1997–1998. Atlântica 23, 8596.Google Scholar
Garcia, A.M., Vieira, J.P. and Winemiller, K.O. (2001) Dynamics of the shallow-water fish assemblage of the Patos Lagoon estuary (Brazil) during cold and warm ENSO episodes. Journal of Fish Biology 59, 12181238.Google Scholar
Garcia, A.M., Vieira, J.P., Winemiller, K.O., Moraes, L.E. and Paes, E.T. (2012) Factoring scales of spatial and temporal variation in fish abundance in a subtropical estuary. Marine Ecology Progress Series 461, 121135.CrossRefGoogle Scholar
Gibson, R.N., Ansell, A.D. and Robb, L. (1993) Seasonal and annual variations in abundance and species composition of fish and macrocrustacean communities on a Scottish sandy beach. Marine Ecology Progress Series 98, 89105.CrossRefGoogle Scholar
Harris, S.A., Cyrus, D.P. and Beckley, L.E. (2001) Horizontal trends in larval fish diversity and abundance along an ocean–estuarine gradient on the northern KwaZulu-Natal coast, South Africa. Estuarine, Coastal and Shelf Science 53, 221235.CrossRefGoogle Scholar
Inoue, T., Suda, Y. and Sano, M. (2008) Surf zone fishes in an exposed sandy beach at Sanrimatsubara, Japan: does fish assemblage structure differ among microhabitats? Estuarine, Coastal and Shelf Science 77, 111.CrossRefGoogle Scholar
Inui, R., Nishida, T., Onikura, N., Eguchi, K., Kawagishi, M., Nakatani, M. and Oikawa, S. (2010) Physical factors influencing immature-fish communities in the surf zones of sandy beaches in northwestern Kyushu Island, Japan. Estuarine, Coastal and Shelf Science 86, 467476.CrossRefGoogle Scholar
Krebs, C.J. (1999) Ecological methodology. 2nd edition. San Francisco, CA: Benjamin Cummings Publishing, 624 pp.Google Scholar
Lasiak, T.A. (1986) Juveniles, food and the surf zone habitat: implications for teleost nursery areas. South African Journal of Zoology 21, 5156.CrossRefGoogle Scholar
Layman, C.A. (2000) Fish assemblage structure of the shallow ocean surf-zone on the eastern shore of Virginia Barrier Islands. Estuarine, Coastal and Shelf Science 51, 201213.CrossRefGoogle Scholar
Lemos, V.M., Varela, A.S. Jr, Velasco, G. and Vieira, J.P. (2011) The reproductive biology of the plata pompano, Trachinotus marginatus (Teleostei: Carangidae), in southern Brazil. Zoologia 28, 603609.CrossRefGoogle Scholar
Lepš, J. and Šmilauer, P. (2003) Multivariate analysis of ecological data using CANOCO. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Lima, M.S.P. and Vieira, J.P. (2009) Variação espaço-temporal da ictiofauna da zona de arrebentação da Praia do Cassino, Rio Grande do Sul (Brasil). Zoologia 26, 499510.CrossRefGoogle Scholar
Magurran, A.E. (2004) Measuring biological diversity. Oxford: Blackwell Publishing, 265 pp.Google Scholar
Martin, D., Bertasi, F., Colangelo, M.A., Vries, M., Frost, M., Hawkins, S.J., Macpherson, E., Moschella, P.S., Satta, M.P., Thompson, R.C. and Ceccherelli, V.U. (2005) Ecological impact of coastal defence structures on sediment and mobile fauna: evaluating and forecasting consequences of unavoidable modifications of native habitats. Coastal Engineering 52, 10271051.CrossRefGoogle Scholar
Mikami, S., Nakane, Y. and Sano, M. (2012) Influence of offshore breakwaters on fish assemblage structure in the surf zone of a sandy beach in Tokyo Bay, central Japan. Fisheries Science 78, 113121.CrossRefGoogle Scholar
Möller, O.O., Piola, A.R., Freitas, A.C. and Campos, E.J.D. (2008) The effects of river discharge and seasonal winds on the shelf off southeastern South America. Continental Shelf Research 28, 16071624.CrossRefGoogle Scholar
Möller, O.O., Castello, J.P. and Vaz, A.C. (2009) The effect of river discharge and winds on the interannual variability of the pink shrimp Farfantepenaeus paulensis production in Patos Lagoon. Estuaries and Coasts 32, 787796.CrossRefGoogle Scholar
Monteiro-Neto, C., Cunha, L.P.R. and Musick, J.A. (2003) Community structure of surf-zone fishes at Cassino Beach, Rio Grande do Sul, Brazil. Journal of Coastal Research 35, 492501.Google Scholar
Mont'Alverne, R., Moraes, L.E., Rodrigues, F.L. and Vieira, J.P. (2012) Do mud deposition events on sandy beaches affect surf zone ichthyofauna? A southern Brazilian case study. Estuarine, Coastal and Shelf Science 102/103, 116125.CrossRefGoogle Scholar
Moraes, L.E., Paes, E., Garcia, A.M., Möller, O. Jr and Vieira, J.P. (2012) Delayed response of fish abundance to environmental changes: a novel multivariate time-lag approach. Marine Ecology Progress Series 456, 159168.CrossRefGoogle Scholar
Nakane, Y., Suda, Y. and Sano, M. (2011) Food habits of fishes on an exposed sandy beach at Fukiagehama, south-west Kyushu Island, Japan. Helgoland Marine Research 65, 123131.CrossRefGoogle Scholar
Nanami, A. and Endo, T. (2007) Seasonal dynamics of fish assemblage structures in a surf zone on an exposed sandy beach in Japan. Ichthyological Research 54, 277286.CrossRefGoogle Scholar
Pereira, P.S., Calliari, L.J. and Barletta, R.C. (2010) Heterogeneity and homogeneity of southern Brazilian beaches: a morphodynamic and statistical approach. Continental Shelf Research 30, 270280.CrossRefGoogle Scholar
Ramos, L.A. and Vieira, J.P. (2001) Composição específica e abundância de peixes de zonas rasas dos cinco estuários do Rio Grande do Sul, Brasil. Boletim do Instituto de Pesca 27, 109121.Google Scholar
Roberts, C.M. (1997) Connectivity and management of Caribbean coral reefs. Science 278, 14541457.CrossRefGoogle ScholarPubMed
Robertson, A.I. and Lenanton, R.C.J. (1984) Fish community structure and food chain dynamics in the surf-zone of sandy beaches: the role of detached macrophyte detritus. Journal of Experimental Marine Biology and Ecology 84, 265283.CrossRefGoogle Scholar
Rodrigues, F.L. and Vieira, J.P. (2010) Feeding strategy of Menticirrhus americanus and Menticirrhus littoralis (Perciformes: Sciaenidae) juveniles in a sandy beach surf zone of southern Brazil. Zoologia 6, 873880.CrossRefGoogle Scholar
Romer, G.S. (1990) Surf zone fish community and species response to a wave energy gradient. Journal of Fish Biology 36, 279287.CrossRefGoogle Scholar
Santos, R.S. and Nash, R.D. (1995) Seasonal changes in a sandy beach fish assemblage at Porto Pim, Faial, Azores. Estuarine, Coastal and Shelf Science 41, 579591.CrossRefGoogle Scholar
Sato, N., Asahida, T., Terashima, H., Hurbungs, M.D. and Ida, H. (2008) Species composition and dynamics of larval and juvenile fishes in the surf zone of Mauritius. Environmental Biology of Fishes 81, 229238.CrossRefGoogle Scholar
Selleslagh, J. and Amara, R. (2008) Inter-season and interannual variations in fish and macrocrustacean community structure on an eastern English Channel sandy beach: influence of environmental factors. Estuarine, Coastal and Shelf Science 77, 721730.CrossRefGoogle Scholar
Siegle, E. and Calliari, L.J. (2008) High-energy events and short-term changes in superficial beach sediments. Brazilian Journal of Oceanography 56, 149152.CrossRefGoogle Scholar
Silva, M.A., Araujo, F.G., Azevedo, M.C.C. and Santos, J.N.S. (2004) The nursery function of sandy beaches in a Brazilian tropical bay for 0-group anchovies (Teleostei: Engraulidae): diel, seasonal and spatial patterns. Journal of the Marine Biological Association of the United Kingdom 84, 12291232.CrossRefGoogle Scholar
Strydom, N.A. (2003) Occurrence of larval and early juvenile fishes in the surf zone adjacent to two intermittently open estuaries, South Africa. Environmental Biology of Fishes 66, 349359.CrossRefGoogle Scholar
Suda, Y., Inoue, T. and Uchida, H. (2002) Fish communities in the surf zone of a protected sandy beach at Doigahama, Yamaguchi Pefecture, Japan. Estuarine, Coastal and Shelf Science 55, 8196.CrossRefGoogle Scholar
Tomazelli, L.J. (1993) O regime de ventos e a taxa de migração das dunas eólicas costeiras do Rio Grade do Sul, Brasil. Pesquisas 20, 1826.Google Scholar
Valesini, F.J., Potter, I.C. and Clarke, K.R. (2004) To what extent are the fish compositions at nearshore sites along a heterogeneous coast related to habitat type? Estuarine, Coastal and Shelf Science 60, 737754.CrossRefGoogle Scholar
Vasconcellos, R.M., Santos, J.N.S., Silva, M.A. and Araújo, F.G. (2007) Efeito do grau de exposição às ondas sobre a comunidade de peixes juvenis em praias arenosas do Município do Rio de Janeiro, Brasil. Biota Neotropica 7, 93100.CrossRefGoogle Scholar
Vieira, E.F. and Rangel, S.R.S. (1988) Planície Costeira do Rio Grande do Sul: geografia física, vegetação e dinâmica socio-demográfica. Porto Alegre, Brazil: SAGRA.Google Scholar
Vieira, J.P. (1991) Juvenile mullets (Pisces: Mugilidae) in the estuary of Lagoa dos Patos, RS, Brazil. Copeia 2, 409418.CrossRefGoogle Scholar
Vieira, J.P., Garcia, A.M. and Grimm, A.M. (2008) Preliminary evidences of El Niño effects on the mullet fishery of Patos Lagoon estuary (Brazil). Arquivos de Biologia e Tecnologia 51, 433440.Google Scholar
Wilber, D.H., Clarke, D.G., Burlas, M.H., Rubenc, H. and Will, R.J. (2003) Spatial and temporal variability in surf zone fish assemblages on the coast of northern New Jersey. Estuarine, Coastal and Shelf Science 56, 291304.CrossRefGoogle Scholar
Young, G.C., Potter, I.C., Hyndes, G.A. and de Lestang, S. (1997) The ichthyofauna of an intermittently open estuary: implications of bar breaching and low salinities on faunal composition. Estuarine, Coastal and Shelf Science 45, 5368.CrossRefGoogle Scholar