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Effects of epibiotic Enteromorpha spp. on the mole crab Emerita analoga in the Peruvian central coast

Published online by Cambridge University Press:  29 July 2008

Fausto N. Firstater*
Affiliation:
Laboratorio de Ecología, Departamento de Biología, FCEyN, Universidad Nacional de Mar del Plata, CC 573 Correo Central, B7600WAG, Mar del Plata, Argentina
Fernando J. Hidalgo
Affiliation:
Laboratorio de Ecología, Departamento de Biología, FCEyN, Universidad Nacional de Mar del Plata, CC 573 Correo Central, B7600WAG, Mar del Plata, Argentina
Betina J. Lomovasky
Affiliation:
Laboratorio de Ecología, Departamento de Biología, FCEyN, Universidad Nacional de Mar del Plata, CC 573 Correo Central, B7600WAG, Mar del Plata, Argentina Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Rivadavia 1917, (1033) Buenos Aires, Argentina
Percy Gallegos
Affiliation:
Departamento de Biología, Universidad Nacional Mayor de San Marcos, Apartado 1898, Lima 100, Peru
Patricia Gamero
Affiliation:
Departamento de Biología, Universidad Nacional Mayor de San Marcos, Apartado 1898, Lima 100, Peru
Oscar O. Iribarne
Affiliation:
Laboratorio de Ecología, Departamento de Biología, FCEyN, Universidad Nacional de Mar del Plata, CC 573 Correo Central, B7600WAG, Mar del Plata, Argentina Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Rivadavia 1917, (1033) Buenos Aires, Argentina
*
Correspondence should be addressed to: Fausto N. Firstater, Laboratorio de Ecología, Departamento de Biología, FCEyN, Universidad Nacional de Mar del Plata, CC 573 Correo Central, B7600WAG, Mar del Plata, Argentina email: [email protected]

Abstract

Epibiotic interactions between macroalgae and crustaceans have rarely been described. We examined the interaction between the mole crab, Emerita analoga and the opportunistic algae Enteromopha spp. in a sandy beach of the central coast of Peru. Enteromorpha spp. was found fouling the carapace of the mole crab that provides the only stable substrate to spore settlement in the beach environment. Epibiosis prevalence was up to 2.1%, and affected mainly larger, ovigerous females. Prevalence presented a seasonal pattern, with peaks during summer. Mole crab body condition was higher when fouled, whereas fecundity was not affected. Fouled mole crabs burrowed at lower speed, which was reversible by the removal of epibiotic algae. The burrowing depth was not affected by epibiosis. Contrary to the expected, the effects of algal epibiosis on demographic and life history parameters of mole crabs, with the exception of body condition, were mainly neutral but important on behavioural traits.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2008

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References

REFERENCES

Aguilera, S. (1992) Estructura poblacional del “muy muy” Emerita analoga, Stimpson 1857 (Crustacea: Anomura) en relación al tamaño del sedimento, en la playa de Cerro Guañape, La Libertad. Bachelor thesis, Universidad Nacional de Trujillo, Trujillo, Peru.Google Scholar
Alexander, R.R., Stanton, R.J. and Dodd, J.R. (1993) Influence of sediment grain size on the burrowing of bivalves—correlation with distribution and stratigraphic persistence of selected neogene clams. Palaios 8, 289303.CrossRefGoogle Scholar
Alvitres, V., Gutierrez, R., Veneros, B., Chanamé, J. and Fupuy, J. (1998) Distribución de la Población de Emerita analoga, durante abril–octubre 1995, playas de Trujillo, La Libertad—Perú. Revista de la Asociación Peruana de Ecología 1, 6571.Google Scholar
Alvitres, V., Fupuy, J., Chanamé, J., Chambergo, A. and Cortez, M. (2002) Effects of La Niña 98–2000 on the population structure of Emerita analoga, Lambayeque, Perú. Investigaciones Marinas 30, 130131.CrossRefGoogle Scholar
Barea-Arco, J., Pérez-Martínez, C. and Morales-Baquero, R. (2001) Evidence of a mutualistic relationship between an algal epibiont and its host, Daphnia pulicaria. Limnology and Oceanography 46, 871881.CrossRefGoogle Scholar
Bazzaz, F.A., Chiariello, N.R., Coley, P.D. and Pitelka, L.F. (1987) Allocating resources to reproduction and defense. BioScience 37, 5867.CrossRefGoogle Scholar
Brazeiro, A. (2005) Geomorphology induces life history changes in invertebrates of sandy beaches: the case of the mole crab Emerita analoga in Chile. Journal of the Marine Biological Association of the United Kingdom 85, 113120.CrossRefGoogle Scholar
Callow, M.E., Callow, J.A., Pickett-Heaps, J.D. and Wetherbee, J. (1997) Primary adhesion of Enteromorpha (Chlorophyta, Ulvales) propagules: quantitative settlement studios and video microscopy. Journal of Phycology 33, 938947.CrossRefGoogle Scholar
Callow, M.E. and Callow, J.A. (2002) Marine biofouling: a sticky problem. Biologist 49, 15.Google ScholarPubMed
Celentano, E. and Defeo, O. (2006) Habitat harshness and morphodynamics: life history traits of the mole crab Emerita brasiliensis in Uruguayan sandy beaches. Marine Biology 149, 14531461.CrossRefGoogle Scholar
Contreras, H., Defeo, O. and Jaramillo, E. (1999) Life history of Emerita analoga (Stimpson) (Anomura, Hippidae) in a sandy beach of south central Chile. Estuarine, Coastal and Shelf Science 48, 101112.CrossRefGoogle Scholar
Contreras, H., Jaramillo, E. and Quijon, P. (2000) Historia natural de Emerita analoga (Stimpson) (Anomura, Hippidae) en una playa arenosa del norte de Chile. Revista Chilena de Historia Natural 73, 705715.CrossRefGoogle Scholar
Contreras, H., Jaramillo, E., Duarte, C. and McLachlan, A. (2003) Population abundances, growth and natural mortality of the crustacean macroinfauna at two sand beach morphodynamic types in southern Chile. Revista Chilena de Historia Natural 76, 543561.CrossRefGoogle Scholar
Dam, E., Styrishave, B., Rewitz, K.F. and Andersen, O. (2006) Intermoult duration affects the susceptibility of shore crabs Carcinus maenas (L.) to pyrene and their ability to metabolise it. Aquatic Toxicology 80, 290297.CrossRefGoogle Scholar
Dirección de Hidrografía y Navegación (2006) Tabla de mareas 2006. Puertos de la costa del Perú, Océano Pacífico—América del Sur, 2006 edition. Ministerio de Defensa, Marina de Guerra del Perú, República del PerÚ.Google Scholar
Dugan, J.E., Wenner, A.M. and Hubbard, D.M. (1991) Geographic variation in the reproductive biology of the sand crab Emerita analoga (Stimpson) on the California coast. Journal of Experimental Marine Biology and Ecology 150, 6381.CrossRefGoogle Scholar
Dugan, J.E., Hubbard, D.M. and Page, H.M. (1995) Scaling population density to body size: tests in two soft sediment intertidal communities. Journal of Coastal Research 11, 849857.Google Scholar
Dugan, J.E., Hubbard, D.M. and Lastra, M. (2000) Burrowing abilities and swash behavior of three crabs, Emerita analoga Stimpson, Blepharipoda occidentalis Randall, and Lepidopa californica Efford (Anomura, Hippoidea), of exposed sandy beaches. Journal of Experimental Marine Biology and Ecology 255, 229245.CrossRefGoogle ScholarPubMed
Fong, P., Boyer, K.E. and Zedler, J.B. (1998) Developing an indicator of nutrient enrichment in coastal estuaries and lagoons using tissue nitrogen content of the opportunistic alga, Enteromorpha intestinalis (L. Link). Journal of Experimental Marine Biology and Ecology 231, 6379.CrossRefGoogle Scholar
Fong, P., Fong, J.J. and Fong, C.R. (2004) Growth, nutrient storage, and release of dissolved organic nitrogen by Enteromorpha intestinalis in response to pulses of nitrogen and phosphorus. Aquatic Botany 78, 8395.CrossRefGoogle Scholar
Hayden, H.S., Blomster, J., Maggs, C.A., Silva, P.C., Stanhope, M.J. and Waalland, J.R. (2003) Linnaeus was right all along: Ulva and Enteromorpha are not distinct genera. European Journal of Phycology 38, 277294.CrossRefGoogle Scholar
Hidalgo, F.J., Firstater, F.N., Lomovasky, B.J., Gallegos, P. and Iribarne, O.O. (2006) Predation effects by birds on intertidal mole crab (Emerita analoga) fouled by macro-algae. In Book of abstracts of the censor midterm symposium, concepción, 4–8 September 2006, pp. 1136.Google Scholar
Jaramillo, E., Dugan, J.E. and Contreras, H. (2000) Abundance, tidal movement, population structure and burrowing rate of Emerita analoga (Anomura, Hippidae) at a dissipative and a reflective sandy beach in south central Chile. Marine Ecology 21, 113127.CrossRefGoogle Scholar
Lastra, M., Jaramillo, E., López, J., Contreras, H., Duarte, C. and Rodríguez, J.G. (2004) Population abundances, tidal movement, burrowing ability and oxygen uptake of Emerita analoga (Stimpson) (Crustacea, Anomura) on a sandy beach of South-Central Chile. Marine Ecology 25, 7189.CrossRefGoogle Scholar
Laudien, J. and Wahl, M. (1999) Indirect effects of epibiosis on host mortlity: seastar predation on differently fouled mussels. Marine Ecology 20, 3547.CrossRefGoogle Scholar
Lee, H.H. and Hsu, C.C. (2003) Population biology of the swimming crab Portunus sanguinolentus in the waters off Northern Taiwan. Journal of Crustacean Biology 23, 691699.CrossRefGoogle Scholar
Lépez, I., Furet, L. and Aracena, O. (2001) Población de Emerita analoga (Stimpson 1857) en playas Amarilla y Rinconada, Antofagasta: Aspectos abióticos, bióticos y concentración de cobre. Gayana (Concepción) 65, 5576.CrossRefGoogle Scholar
Lotze, H.K., Schramm, W., Schories, D. and Worm, B. (1999) Control of macroalgal blooms at early developmental stages: Pilayella littoralis versus Enteromorpha spp. Oecologia 119, 4654.CrossRefGoogle ScholarPubMed
Lotze, H.K. and Worm, B. (2002) Complex interactions of climatic and ecological controls on macroalgal recruitment. Limnology and Oceanography 47, 17341741.CrossRefGoogle Scholar
McGaw, I.J. (2006) Epibionts of sympatric species of Cancer crabs in Barkley Sound, British Columbia. Journal of Crustacean Biology 26, 8593.CrossRefGoogle Scholar
Mayer-Pinto, M. and Junqueira, A.O.R. (2003) Effects of organic pollution on the initial development of fouling communities in a tropical bay, Brazil. Marine Pollution Bulletin 46, 14951503.CrossRefGoogle Scholar
Nilssen, E.M. and Sundet, J.H. (2006) The introduced species red king crab (Paralithodes camtschaticus) in the Barents Sea: II. Growth increments and moulting probability. Fisheries Research 82, 319326.CrossRefGoogle Scholar
Osorio, C., Bahamonde, N. and López, M.T. (1967) El limache Emerita analoga (Stimpson) en Chile (Crustacea, Decapoda, Anomura). Boletín del Museo Nacional de Historia Natural, Santiago 29, 61116.CrossRefGoogle Scholar
Paul, V.J. and van Alstyne, K.L. (1988) Chemical defense and chemical variation in some tropical Pacific species of Halimeda (Halimedaceae: Chlorophyta). Coral Reefs 6, 263269.CrossRefGoogle Scholar
Salvat, B. (1964) Les conditions hidrodinamiques interstitelle des sediments meubles intertidale et la repartition verticale de la genne endoyeé. A.C.R. Académie Sciencia Paris, 259, 15671571.Google Scholar
Siegel, P.R. (1984) Food-induced size-specific molt synchrony of the sand crab, Emerita analoga (Stimpson). Biological Bulletin. Marine Biological Laboratory, Woods Hole 167, 579589.CrossRefGoogle ScholarPubMed
Sokal, R.R. and Rohlf, F.J. (1998) Biometry: the principles and practice of statistics in biological research, 3rd edition. San Francisco: W.H. Freeman and Company.Google Scholar
Sousa, A.I., Martins, I., Lillebø, A.I., Flindt, M.R. and Pardal, M.A. (2007) Influence of salinity, nutrients and light on the germination and growth of Enteromorpha sp. spores. Journal of Experimental Marine Biology and Ecology 341, 142150.CrossRefGoogle Scholar
Tarazona, J., Salzwedel, H. and Arntz, W.E. (1988) Positive effects of “El Niño” on macrozoobenthos inhabiting hypoxic areas of the Peruvian upwelling system. Oecologia 76, 184190.CrossRefGoogle ScholarPubMed
Tarazona, J., Gutiérrez, D., Paredes, C. and Indacochea, A. (2003) Overview and challenges of marine biodiversity research in Peru. Gayana (Concepción) 67, 206231.CrossRefGoogle Scholar
Tello, E. (2006) Boletín semanal de la temperatura superficial del agua de mar en el litoral peruano. Callao, PerÚ; Instituto del Mar del Perú, Dirección de Investigaciones Oceanográficas; http://www.imarpe.gob.pe/imarpe/boletinesTSM-2006/tsm07_2006.pdf.Google Scholar
Valiela, I., McClelland, J., Hauxwell, J., Behr, P.J., Hersh, D. and Foreman, K. (1997) Macroalgal blooms in shallow estuaries: controls and ecophysiological and ecosystem consequences. Limnology and Oceanography 42, 11051118.CrossRefGoogle Scholar
van Alstyne, K.L. (1988) Herbivore grazing increases polyphenolic defenses in the intertidal brown alga Fucus distichus. Ecology 69, 655663.CrossRefGoogle Scholar
Villegas, M.J., Stotz, W. and Laudien, J. (2006) First record of an epibiosis between the sand crab Emerita analoga (Stimpson, 1857) (Decapoda: Hippidae) and the mussel Semimytilus algosus (Gould, 1850) (Bivalvia, Mytilidae) in southern Peru. Helgoland Marine Research 60, 2531.CrossRefGoogle Scholar
Wahl, M. (1989) Marine epibiosis. I. Fouling and antifouling: some basic aspects. Marine Ecology Progress Series 58, 175189.CrossRefGoogle Scholar
Wahl, M., Hay, M.E. and Enderlein, P. (1997) Effects of epibiosis on consumer–prey interactions. Hydrobiologia 355, 4959.CrossRefGoogle Scholar
Wahl, M. and Mark, O. (1999) The predominantly facultative nature of epibiosis: experimental and observational evidence. Marine Ecology Progress Series 187, 5966.CrossRefGoogle Scholar
Williams, L.G. (1947) A comparative size study of the mole crab, Emerita talpoida Say, associated with epizoic Enteromorpha flexuosa (Wulfen) J. Ag. Ecology 28, 204207.CrossRefGoogle Scholar
Zar, J.H. (1999) Biostatistical analysis, 4th edition. Upper Saddle River, NJ: Prentice-Hall.Google Scholar