Restocking Ucides cordatus (Decapoda: Ocypodidae): interespecific associations as a limiting factor to the survival of released recruits

Ventura, Robson; Silva, Ubiratã A. T. da; Cottens, Kelly; Boeger, Walter A; Ostrensky, Antonio

Abstracts

Simulations in the laboratory were used to investigate whether survivorship rates of Ucides cordatus youngsters produced in the laboratory are significantly affected by other crab species after their release in natural environments. Furthermore, it was investigated whether the release of first instar juveniles instead of megalopae would reduce the mortality related to interspecific predation. A preliminary estimate of the crab community structure in the target area of a restocking program was undertaken and indicated a great dominance of fiddler crabs (Uca spp). Based on this information, experiments were conducted to assess the ecological relationship between Ucides cordatus megalopae and first instar juveniles and fiddler crabs of different size classes in the presence of mangrove sediment, simulating natural conditions, as well as in the absence of any kind of refuge. It was observed that fiddler crabs not only compete with, and prey on U. cordatus youngsters, both as megalopae and juveniles. Furthermore, it was observed that the predation behavior of fiddler crabs is exercised only by individuals with carapaces wider than 0.5 cm. The results of the assay simulating natural conditions showed that, even when sediment was provided as a refuge, the same pattern was observed, with survivorship rates significantly lower in the presence of Uca crabs.

Predation; Fiddler crab; Sediment; Release

Simulações em laboratório foram efetuadas visando investigar se após liberação na natureza a sobrevivência de recrutas de Ucides cordatus produzidos em laboratório é afetada por outras espécies de caranguejos. Adicionalmente, foi verificado se com a liberação de juvenis no estágio 1, ao invés de megalopas, haveria redução da mortalidade causada por predação interespecífica. Para tanto foi realizada estimativa prévia da estrutura da comunidade de caranguejos presente na área-alvo de um programa de repovoamento em desenvolvimento na região de Santo Amaro, Baía de Todos os Santos, Brazil, cujos resultados mostraram grande dominância de caranguejos violinista (Uca spp.). Com base nessa informação, foram realizados experimentos para verificar as relações ecológicas entre megalopas e juvenis 1 de Ucides cordatus e as diferentes classes de tamanho das outras espécies de Uca, em presença de sedimento do mangue, simulando condições naturais, e na ausência de refúgio. Observou-se que os caranguejos violinista competem predando tanto juvenis quanto megalopas de Ucides cordatus. Além disso, foi visto que esse comportamento de predação é exercido apenas por indivíduos com largura de carapaça maior que 0,5 cm. Os resultados do teste de simulação das condições do ambiente natural evidenciaram que o mesmo padrão de predação foi observado mesmo quando o sedimento foi oferecido como refúgio, sendo as taxas de sobrevivência significativamente menores na presença de espécies de Uca.

Predação; Caranguejo-violinista; Sedimento; Liberação

ARIYAMA, H. Studies on Ecology and Stock Enhancement of Swimming Crab Portunus trituberculatus in Osaka Bay. Bull. Osaka Prefect. Fish. expl. Stat. , v. 12, p. 1 - 90, 2000.
BARSHAW, D. E.; LAVALLI, K. L. Predation upon postlarval lobsters, Homarus americanus, by cunners, Tautogolabrus adspersus, and mud crabs, Neopanope sayi, on three different substrates: eelgrass, mud, and rocks. Mar. Ecol. Prog. Ser., v. 48, p. 119-123, 1988.
BEHRENS YAMADA, S.; BOULDING, E. G. Claw morphology, prey size selection and foraging efficiency in generalist and specialist shell-breaking crabs. J. expl mar. Biol. Ecol., v. 220, p. 191-211, 1998.
BOEGER W. A.; PIE M. R.; OSTRENSKY A.; PATELLA L. Lethargic crab disease: multidisciplinary evidence supports a mycotic etiology. Mem. Inst. Oswaldo Cruz, v. 100, n. 2, p. 161-167, 2005.
BRANCO, J. O. Aspectos bioecológicos do caranguejo Ucides cordatus (Linnaeus, 1763) (Crustacea, Decapoda) do manguezal de Itacorubi, Santa Catarina, Br. Arq. Biol. Tecnol., v. 36, p. 133-148, 1993.
CRANE, J. Fiddler crabs of the world, Ocypodidae: genus Uca. Princeton: Princeton University Press, 1975.736 p.
DITTEL, A.; EPIFANIO, C. E.; NATUNEWICZ, C. Predation on mud crab megalopae, Panopeus herbstii, H. Milne Edwards: effect of habitat complexity, predator species and postlarval densities. J. expl mar. Biol. Ecol, v. 198, p. 191-202, 1996.
GLÄSER, M. Interrelations between mangrove ecosystem, local economy and social sustainability in Caeté Estuary, North Brazil. Wetl. Ecol. Manag., v.11, n. 4, p. 265-272, 2003.
HECK JR., K. L.; HAMBROOK J. A. Intraspecific interactions and risk of predation for Dyspanopeus sayi (Decapoda: Xanthidae) living on polychaete (Filograna implexa Serpulidae) colonies. Mar. Ecol. Prog. Ser., v. 12, n. 3, p. 243-250, 1991.
HEMMI, J. M. Predator avoidance in fiddler crabs: Escape decisions in relation to the risk of predation. Anim. Behav., v. 69, p. 603-614, 2005.
LUPPI, T. A.; SPIVAK, E. D.; ANGER, K. Experimental studies on predation and cannibalism of the settlers of Chasmagnathus granulata and Cyrtograpsus angulatus Brachyura: Grapsidae. J. expl mar. Biol. Ecol., v. 265, p. 29-48, 2001.
MASUNARI, S. Distribuição e abundância dos caranguejos Uca Leach (Crustacea, Decapoda, Ocypodidae) na Baía de Guaratuba, Paraná Brasil. Rev. Bras. Zool. v. 23, n. 4, p. 901-914, 2006.
MOKSNES, P. O.; LIPCIUS, R. N., PIHL, L.; VAN MONTFRANS, J. Cannibal-prey dynamics in juveniles and postlarvae of the blue crab. J. expl mar. Biol. Ecol., v. 215, p. 157-187, 1997.
MONTAGUE, C. L. A natural history of temperate western Atlantic fiddler crabs (Genus Uca) with reference to their impact on salt marsh. Contr. mar. Sci., v.23, p.25-55, 1980.
OLMI, E. J.; LIPCIUS, R. N. Predation on postlarvae of the blue crab Callinectes sapidus Rathbun by sand shrimp Crangon septemspinosa Say and grass shrimp Palaemonetes pugio Holthius. J. expl mar. Biol. Ecol., v. 151, p. 169-183, 1991.
SECOR, D. H.; HINES, A. H.; PLACE, A. R. Japanese Hatchery-based stock enhancement: Lessons for the Chesapeake Bay Blue Crab Maryland: Sea Grant Publication Number UM-SG-TS-2002-02, 2002. 46 p.
SILVA, U. A. T.; OSTRENSKY, A.; VENTURA, R.; SANTOS, A. F.; BOEGER, W. A. A produção de caranguejo-uçá em laboratório. Panorama da Aqüicultura v. 16, v. 94, p. 15-21, 2006.
SILVA, U. A. T.; MENEZES, F. R.; SOUZA, R. V.; COELHO NETO, A.; BOEGER, W. A.; OSTRENSKY, A. A aqüicultura a serviço da conservação: A produção de larvas de caranguejo-uçá em sistema de cultivo em mesocosmos. Panorama da Aqüicultura, v. 113, p. 24-31, 2009.
VENTURA, R.; SILVA, U. A. T.; PERBICHE-NEVES, G.; OSTRENSKY, A.; BOEGER, W. A.; PIE, M. R. Duration of the pre-settlement period of the Mangrove Crab Ucides cordatus (Decapoda: Ocypodidae) under laboratory conditions. Braz. Arch. Biol. Techn, v. 51 (5), p. 957-962, 2008.
ZEIL, J.; HEMMI, J. M. The visual ecology of fiddler crabs. J. comp. Physiol., v.192, p.1-25, 2006.

Publication Dates

Publication in this collection
03 Nov 2010
Date of issue
Sept 2010

History

Reviewed
31 Mar 2010
Received
18 Sept 2009
Accepted
14 Apr 2010

This work is licensed under a Creative Commons Attribution 4.0 International License.

[1] ARIYAMA, H. Studies on Ecology and Stock Enhancement of Swimming Crab Portunus trituberculatus in Osaka Bay. Bull. Osaka Prefect. Fish. expl. Stat. , v. 12, p. 1 - 90, 2000.

[2] BARSHAW, D. E.; LAVALLI, K. L. Predation upon postlarval lobsters, Homarus americanus, by cunners, Tautogolabrus adspersus, and mud crabs, Neopanope sayi, on three different substrates: eelgrass, mud, and rocks. Mar. Ecol. Prog. Ser., v. 48, p. 119-123, 1988.

[3] BEHRENS YAMADA, S.; BOULDING, E. G. Claw morphology, prey size selection and foraging efficiency in generalist and specialist shell-breaking crabs. J. expl mar. Biol. Ecol., v. 220, p. 191-211, 1998.

[4] BOEGER W. A.; PIE M. R.; OSTRENSKY A.; PATELLA L. Lethargic crab disease: multidisciplinary evidence supports a mycotic etiology. Mem. Inst. Oswaldo Cruz, v. 100, n. 2, p. 161-167, 2005.

[5] BRANCO, J. O. Aspectos bioecológicos do caranguejo Ucides cordatus (Linnaeus, 1763) (Crustacea, Decapoda) do manguezal de Itacorubi, Santa Catarina, Br. Arq. Biol. Tecnol., v. 36, p. 133-148, 1993.

[6] CRANE, J. Fiddler crabs of the world, Ocypodidae: genus Uca. Princeton: Princeton University Press, 1975.736 p.

[7] DITTEL, A.; EPIFANIO, C. E.; NATUNEWICZ, C. Predation on mud crab megalopae, Panopeus herbstii, H. Milne Edwards: effect of habitat complexity, predator species and postlarval densities. J. expl mar. Biol. Ecol, v. 198, p. 191-202, 1996.

[8] GLÄSER, M. Interrelations between mangrove ecosystem, local economy and social sustainability in Caeté Estuary, North Brazil. Wetl. Ecol. Manag., v.11, n. 4, p. 265-272, 2003.

[9] HECK JR., K. L.; HAMBROOK J. A. Intraspecific interactions and risk of predation for Dyspanopeus sayi (Decapoda: Xanthidae) living on polychaete (Filograna implexa Serpulidae) colonies. Mar. Ecol. Prog. Ser., v. 12, n. 3, p. 243-250, 1991.

[10] HEMMI, J. M. Predator avoidance in fiddler crabs: Escape decisions in relation to the risk of predation. Anim. Behav., v. 69, p. 603-614, 2005.

[11] LUPPI, T. A.; SPIVAK, E. D.; ANGER, K. Experimental studies on predation and cannibalism of the settlers of Chasmagnathus granulata and Cyrtograpsus angulatus Brachyura: Grapsidae. J. expl mar. Biol. Ecol., v. 265, p. 29-48, 2001.

[12] MASUNARI, S. Distribuição e abundância dos caranguejos Uca Leach (Crustacea, Decapoda, Ocypodidae) na Baía de Guaratuba, Paraná Brasil. Rev. Bras. Zool. v. 23, n. 4, p. 901-914, 2006.

[13] MOKSNES, P. O.; LIPCIUS, R. N., PIHL, L.; VAN MONTFRANS, J. Cannibal-prey dynamics in juveniles and postlarvae of the blue crab. J. expl mar. Biol. Ecol., v. 215, p. 157-187, 1997.

[14] MONTAGUE, C. L. A natural history of temperate western Atlantic fiddler crabs (Genus Uca) with reference to their impact on salt marsh. Contr. mar. Sci., v.23, p.25-55, 1980.

[15] OLMI, E. J.; LIPCIUS, R. N. Predation on postlarvae of the blue crab Callinectes sapidus Rathbun by sand shrimp Crangon septemspinosa Say and grass shrimp Palaemonetes pugio Holthius. J. expl mar. Biol. Ecol., v. 151, p. 169-183, 1991.

[16] SECOR, D. H.; HINES, A. H.; PLACE, A. R. Japanese Hatchery-based stock enhancement: Lessons for the Chesapeake Bay Blue Crab Maryland: Sea Grant Publication Number UM-SG-TS-2002-02, 2002. 46 p.

[17] SILVA, U. A. T.; OSTRENSKY, A.; VENTURA, R.; SANTOS, A. F.; BOEGER, W. A. A produção de caranguejo-uçá em laboratório. Panorama da Aqüicultura v. 16, v. 94, p. 15-21, 2006.

[18] SILVA, U. A. T.; MENEZES, F. R.; SOUZA, R. V.; COELHO NETO, A.; BOEGER, W. A.; OSTRENSKY, A. A aqüicultura a serviço da conservação: A produção de larvas de caranguejo-uçá em sistema de cultivo em mesocosmos. Panorama da Aqüicultura, v. 113, p. 24-31, 2009.

[19] VENTURA, R.; SILVA, U. A. T.; PERBICHE-NEVES, G.; OSTRENSKY, A.; BOEGER, W. A.; PIE, M. R. Duration of the pre-settlement period of the Mangrove Crab Ucides cordatus (Decapoda: Ocypodidae) under laboratory conditions. Braz. Arch. Biol. Techn, v. 51 (5), p. 957-962, 2008.

[20] ZEIL, J.; HEMMI, J. M. The visual ecology of fiddler crabs. J. comp. Physiol., v.192, p.1-25, 2006.

Brasil

Brasil

Restocking Ucides cordatus (Decapoda: Ocypodidae): interespecific associations as a limiting factor to the survival of released recruits

Abstracts

Publication Dates

History