Abstract
Two species of sympatric hermit crab, Diogenes moosai Rahayu & Forest, 1995 and D. lopochir Morgan, 1989, spatially defined in the Matang mangrove estuary, and facing high mortality due to tidal emersion, predation and competition are hypothesised to adopt different reproductive strategies for successful recruitment. The crabs were sampled by a small otter trawl at mid-estuary, river mouth, mudflat and shoal area along the estuary to adjacent coastal area. Diogenes moosai was widespread in the mudflat as well as in the subtidal shoal area where D. lopochir was dominant. Diogenes moosai showed year-round reproduction, whereas D. lopochir a discontinuous spawning pattern. Major reproduction in both species, however, occurred in January/February and July which resulted in two major recruitment pulses in a year. Diogenes moosai also suffered very high mortality resulting from cockle harvesting on the mudflat, twice that of D. lopochir. Our results show that the more widespread species at higher risk of exposure to extreme physical conditions (in the mudflat), predation and competition for shell resources, generally spreads its reproduction over the year, while the dominantly subtidal species at greater risk of predation only reproduces less regularly but at the most favourable period.
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References
Abesamis, R. A. & G. R. Russ, 2010. Patterns of recruitment of coral reef fishes in a monsoonal environment. Coral Reefs 29: 911–921.
Ameyaw-Akumfi, C., 1975. The breeding biology of two sympatric species of intertidal hermit crabs, Clibanarius chapini and Clibanarius senegalensis. Journal of Marine Biology 29: 15–28.
Appeltans, W., P. Bouchet, G.A. Boxshall, C. De Broyer, N. J. de Voogd, D. P. Gordon, B. W. Hoeksema, T. Horton, M. Kennedy, J. Mees, G. C. B. Poore, G. Read, S, Stöhr, T. C. Walter & M. J. Costello (eds), 2012. World Register of Marine Species. http://www.marinespecies.org. Accessed 22 Sept 2012.
Branco, J. O., A. Turra & F. X. Souto, 2002. Population biology and growth of the hermit crab Dardanus insignis at Armação do Itapocoroy, southern Brazil. Journal of the Marine Biological Association of the United Kingdom 82: 597–603.
Carlon, D. B. & J. P. Ebersole, 1995. Life history variation among three temperate hermit crabs: the importance of size in reproductive strategies. The Biological Bulletin 188: 329–337.
Chew, L. L, 2012. Dynamics and trophic role of zooplankton community in the Matang mangrove estuaries and adjacent coastal waters (Peninsular Malaysia), with special emphasis on copepods. Ph.D. Thesis, University of Malaya, Kuala Lumpur, Malaysia.
Chew, L. L. & V. C. Chong, 2011. Copepod community structure and abundance in a tropical mangrove estuary, with comparisons to coastal waters. Hydrobiologia 666: 127–143.
Chew, L. L. & V. C. Chong, 2012. Phytoplankton fuel the energy flow from zooplankton to small nekton in turbid mangrove waters. Marine Ecology Progress Series 469: 7–24.
Cowan Jr, J. H., K. A. Rose, E. D. Houde & S. B. Wang, 1999. Modelling effects of increased larval mortality on bay anchovy population dynamics in the mesohaline Chesapeake Bay: evidence for compensatory reserve. Marine Ecology Progress Series 185: 133–146.
Elwood, R. W. & C. W. Glass, 1981. Negotiation or aggression during shell fights of the hermit crabs Pagurus bernhardus? Animal Behaviour 29: 1239–1244.
Fraser, D. F. & J. F. Gilliam, 1992. Nonlethal impacts of predator invasion: facultative suppression of growth and reproduction. Ecology 73: 959–970.
Garcia, R. B. & L. M. Mantellato, 2001. Population dynamics of the hermit crab Paguristes erythrops (Diogenidae) from Anchieta Island, southern Brazil. Journal of the Marine Biological Association of the United Kingdom 85: 955–960.
Gayanilo, F. C., P. Sparre & D. Pauly, 1994. The FAO-ICLARM Stock Assessment Tools (Fisat) User’s Guide. Food and Agricultural Organisation of the United Nations, Rome: 124.
Hazlett, B. A. & D. Rittschof, 2000. Predation-reproduction conflict resolution in the hermit crab, Clibanarius vittatus. Ethology 106: 811–818.
Hines, A. H., 1992. Constraint on reproductive output in brachyuran crabs: pinnotherids test the rule. American Zoologist 32: 503–511.
Imazu, M. & A. Asakura, 1994. Distribution, reproduction and shell utilization patterns in three species of intertidal hermit crabs on a rocky shore on the Pacific coast of Japan. Journal of Experimental Marine Biology and Ecology 184: 41–65.
Kennish, R., 1997. Seasonal patterns of food availability: influences on the reproductive output and body condition of the herbivorous crab Grapsus albolineatus. Oecologia 109: 209–218.
Lancaster, I., 1990. Reproduction and life history strategy of the hermit crab Pagurus bernhardus. Journal of Marine Biological Association of the United Kingdom 70: 129–142.
Law, R., 1979. Optimal life histories under age-specific predation. The American Naturist 114: 399–417.
Litulo, C., 2005a. Population biology and fecundity of the Indo-Pacific hermit crab Clibanarius longitarsus (Anomura: Diogenidae). Journal of the Marine Biological Association of the United Kingdom 85: 121–125.
Litulo, C., 2005b. Population structure and reproduction of the hermit crab Dardanus deformis (Anomura: Diogenidae) in the Indian Ocean. Journal of the Marine Biological Association of the United Kingdom 85: 883–887.
Manjón-Cabeza, M. E. & J. E. García-Raso, 1998. Population structure and growth of the hermit crab Diogenes pugilator (Decapoda: Anomura: Diogenidae) from the northeastern Atlantic. Journal of Crustacean Biology 18: 753–762.
Mantellato, F. L., V. F. Alarcon & R. B. Garcia, 2002. Egg production strategies of the tropical hermit crab Paguristes tortugae from Brazil. Journal of Crustacean Biology 22: 390–397.
Mantellato, F. L., D. L. A. Espósito, M. Terossi, R. Biagi & A. L. Meireles, 2007. Population features of the Western Atlantic hermit crab Pagurus exilis (Anomura, Paguridae) in Brazil. Atlântica Rio Grande 29: 107–114.
Mura, M., F. Orrù & A. Cau, 2006. Reproduction strategy of the deep-sea hermit crabs Pagurus alatus and Pagurus excavatus of the Central-Western Mediterranean Sea. Hydrobiologia 557: 51–57.
Okamura, K., K. Tanaka, R. Siow, A. Man, M. Kodama & T. Ichikawa, 2010. Spring tide hypoxia with relation to chemical properties of the sediments in the Matang mangrove estuary, Malaysia. Japan Agriculture Research Quarterly 44: 325–333.
Pauly, D., 1982. Studying single species dynamics in a tropical multispecies context. In Pauly, D., & G. I. Murphy (eds), Theory and management of tropical fisheries. ICLARM Conference Proceedings 9: 33–70.
Pauly, D., 1984. Fish Population Dynamics in Tropical Waters: A Manual for Use with Programmable Calculators. International Center for Living Aquatic Resources Management, Manila: 325 pp.
Pauly, D. & N. A. Navaluna, 1983. Monsoon-induced seasonality in the recruitment of Philippine fishes. FAO Fisheries Report 291: 823–833.
PerSparre, & S. C. Venema, 1998. Introduction to Tropical Fish Stock Assessment: Manual. Food and Agriculture Organization of the United Nations, the University of Michigan, Ann Arbor: 422 pp.
Pillai, C. K. & T. Subramoniam, 1984. Monsoon-dependent breeding in the field crab Paratelphusa hydrodromous (Herbst). Hydrobiologia 119: 7–14.
Pullen, E. J., C. R. Mock & R. D. Ringo, 1968. A net for sampling the intertidal zone of an estuary. Limnology and Oceanography 13: 200–202.
Ramarn, T., V. C. Chong & Y. Hanamura, 2012. Population structure and reproduction of the mysid shrimp Acanthomysis thailandica (Crustacea: Mysidae) in a tropical mangrove estuary, Malaysia. Zoological Studies 51: 768–782.
Reese, E. S., 1968. Annual breeding seasons of the three sympatric species of tropical intertidal crabs, with a discussion of factors controlling breeding. Journal of Experimental Marine Biology and Ecology 2: 308–318.
Reese, E. S., 1969. Behavioural adaptations of intertidal hermit crabs. American Zoologist 9: 343–355.
Rose, K. A., J. H. Cowan Jr, K. O. Winemiller, R. A. Myers & R. Hilborn, 2001. Compensatory density dependence in fish populations: importance, controversy, understanding and prognosis. Fish and Fisheries 2: 293–327.
Ruppert, E. E., R. S. Fox & R. D. Barnes, 2004. Invertebrate Zoology: A Functional Evolutionary Approach (Seventh Edition). Brooks/Cole, Cengage Learning, Stamford: 963pp.
Sarpedonti, V. & V. C. Chong, 2008. Abundance and distribution of Stolephorus baganensis Hardenberg 1933 and Thryssa kammalensis (Bleeker 1849) larvae in relation to ontogeny and environmental factors in a Malaysian estuary. Tropical Zoology 21: 195–208.
Schaffer, W. M., 1974. Selection for optimal life histories: the effects of age structure. Ecology 55: 291–303.
Singh, H. R., 2003. The biology of the estuarine ariid catfishes (family: Ariidae) of the Matang Mangrove ecosystem (Perak, Malaysia). Ph.D. Thesis, University of Malaya, Kuala Lumpur, Malaysia, unpublished.
Squires, H. J., G. P. Ennis & G. Dawe, 2001. On biology of two sympatic species of hermit crabs. NAFO Scientific Council Studies 34: 7–17.
Teoh, H. W., 2013. Ecology of hermit crabs (Family: Diogenidae) in Matang estuary and adjacent coastal waters. Ph.D. Thesis, University of Malaya, Kuala Lumpur, Malaysia.
Teoh, H. W., & V. C. Chong, 2013. Shell use and partitioning of two sympatric species of hermit crabs on a tropical mudflat. Journal of Sea Research. doi:10.1016/j.seares.2013.10.008.
Turra, A. & F. P. P. Leite, 2000. Population biology and growth of three sympatric intertidal hermit crabs in south-eastern Brazil. Journal of the Marine Biological Association of the United Kingdom 80: 1061–1069.
Turra, A. & F. P. P. Leite, 2002. Shell utilization patterns of a tropical intertidal hermit crab assemblage. Journal of the Marine Biological Association of the United Kingdom 82: 97–107.
Underwood, A. J., M. G. Chapman & S. D. Connell, 2000. Observation in ecology: you can’t make progress on processes without understanding the patterns. Journal of Experimental Marine Biology and Ecology 250: 97–115.
Vandarajan, S. & T. Subramoniam, 1982. Reproduction of the continuously breeding tropical hermit crab Clibanarius clibanarius. Marine Ecology Progress Series 8: 197–201.
Wada, S., A. Mima & A. Ito, 2005. Reproductive phenology of sympatric hermit crabs in temperate Japan. Journal of the Marine Biological Association of the United Kingdom 85: 889–894.
Yap, Y. N., 1995. The biology of sciaenid fishes in the Matang mangrove waters. M.Sc. Thesis, Department of Zoology, University of Malaya, Kuala Lumpur, Malaysia, unpublished.
Ziegler, T. A. & R. B. Forward Jr, 2006. Larval release behaviors of the striped hermit crab, Clibanarius vittatus (Bosc): Temporal pattern in hatching. Journal of Experimental Marine Biology and Ecology 335: 245–255.
Acknowledgments
The authors would like to thank University of Malaya (UM) for providing research facilities and financial support through Postgraduate Research Fund (PPP). This research was also supported by a grant from JIRCAS (Japan International Research Center for Agricultural Sciences) given to the second author. The Department of Fisheries Malaysia is acknowledged for providing a special trawl permit in near shore waters. Special thanks to Dr. Dwi Listyo Rahayu from Raffles Museum of Biodiversity Research (RMBR) for identification of hermit crabs.
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Teoh, H.W., Chong, V.C. Reproduction strategies and population dynamics of two Diogenes hermit crabs (Superfamily: Paguroidea) in a tropical mangrove estuary. Hydrobiologia 724, 255–265 (2014). https://doi.org/10.1007/s10750-013-1738-8
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DOI: https://doi.org/10.1007/s10750-013-1738-8