Abstract
Caprella mutica Schurin is an epifaunal amphipod crustacean which originates in north-east Asia and has spread throughout the world, yet very little is known about fundamental aspects of this species biology. This paper examined the survivorship of C. mutica reared under laboratory conditions at 13–14 °C, 14 h light: 10 h dark photoperiod and fed commercial salmon feed, the diatom Cylindrotheca fusiformis Reumann and Lewin, the macroalgae, Fucus vesiculosus L. and given no additional feed. In addition, growth, maturation and reproduction of C. mutica fed C. fusiformis were assessed. No significant difference in survivorship of C. mutica was observed for the diet types over the experimental period. C. mutica was able to survive for upto 20 days without additional food. Average survival time of males and females fed the diatom, C. fusiformis was 68.8 d (range = 62–73 d) and 82.0 d (range = 76–92 d). Juvenile C. mutica emerged from the brood pouch at a body length of 1.33 mm and moulted at 5.0–11.0 day intervals. Males exhibited faster growth rates than females after Instar VII. Females produced their first brood at Instar VII, 24–26 days post-hatching and with an average body length of 8.5 mm. Each female had an average of two broods sequentially and these were released at 20.2 day intervals. Brood size for a single female increased from 11.3 (±9.9) hatchlings at Instar VII to 25.5 (±11.5) at Instar IX and the maximum number of hatchlings produced by a single female was 82. The results suggest that C. mutica exhibits a number of life-history traits that would potentially enable it to withstand global transportation and to rapidly become established in an introduced region, if environmental conditions are suitable.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aoki, M., 1999. Morphological characteristics of young, maternal care behaviour and microhabitat use by caprellid amphipods. Journal of the Marine Biological Association of the United Kingdom 79: 629–638.
Arimoto, I., 1976. Taxonomic studies of caprellids (Crustacea, Amphipoda, Caprellidae) found in the Japanese adjacent waters. Special publications from the Seto Marine Biological Laboratory Series III. Nippon Printing & Publishing Co., Ltd, Osaka, Japan, pp. 111.
Ashton, G. V., 2007. Distribution and dispersal of the non-native caprellid amphipod, Caprella mutica Schurin 1935, PhD Thesis, Scottish Association for Marine Science. Aberdeen University, Aberdeen, pp. 175.
Ashton, G. V., K. Boos, R. Shucksmith & E. J. Cook, 2006. Rapid assessment of the distribution of marine non-native species in marinas in Scotland. Aquatic Invasions 4: 209–213.
Ashton, G. V., K. J. Willis, E. J. Cook & M. T. Burrows, 2007. Distribution of the introduced amphipod, Caprella mutica Schurin on the west coast of Scotland and a review of its global distribution. Hydrobiologia 590: 31–41.
Brown, J. R., R. J. Gowen & D. S. Mclusky, 1987. The effect of salmon farming on the benthos of a Scottish sea loch. Journal of Experimental Marine Biology and Ecology 109: 39–51.
Buschbaum, C. & L. Gutow, 2005. Mass occurrence of an introduced crustacean (Caprella cf. mutica) in the south-eastern North Sea. Helgoland Marine Research 59: 252–253.
Caine, E. A., 1978. Habitat adaptations of North American caprellid Amphipoda (Crustacea). Biological Bulletin 155: 288–296.
Caine, E. A., 1979. Population structures of two species of caprellid amphipods (Crustacea). Journal Experimental Biology and Ecology 40: 103–114.
Caine, E. A., 1980. Ecology of two littoral species of caprellid amphipods (Crustacea) from Washington, USA. Marine Biology 56: 327–335.
Carlton, J. T., 1985. Transoceanic and interoceanic dispersal of coastal marine organisms: the biology of ballast water. Oceanography and Marine Biology. An Annual Review 23: 313–371.
Carlton, J. T., 2003. Community assembly and historical biogeography in the North Atlantic Ocean: the potential role of human-mediated dispersal vectors. Hydrobiologia 503: 1–8.
Cook, E. J., K. D. Black, M. D. J. Sayer, C. J. Cromey, D. L. Angel, E. Spanier, A. Tsemel, T. Katz, N. Eden, I. Karakassis, M. Tsapakis, E. T. Apostolaki & A. Malej, 2006. The influence of caged mariculture on the early development of sublittoral fouling communities: a pan-European study. ICES Journal of Marine Science 63: 637–649.
Costello, M. J. & A. A. Myers, 1989. Breeding periodicity and sex ratios in epifaunal marine amphipoda in Lough Hyne, Ireland. Estuarine, Coastal and Shelf Science 29: 409–419.
Coutts, A. D. M., K. M. Moore & C. L. Hewitt, 2003. Ships‘ sea-chests: an overlooked transfer mechanism for non-indigenous marine species? Marine Pollution Bulletin 46: 1504–1515.
Cunha, M. R., M. H. Moreira & J. C. Sorbe, 2000. Predicting amphipods‘ brood size variation in brackish environments: an empirical model for Corophium multisetosum Stock, 1952 (Corophiidae) in Ria de Aveiro (NW Portugal). Journal of Experimental Marine Biology and Ecology 248: 207–223.
Fleury, B. G., J. C. Coll, E. Tentori, S. Duquesne & L. Figueiredo, 2000. Effect of nutrient enrichment on the complementary (secondary) metabolite composition of the soft coral Sarcophyton ehrenbergi (Cnidaria: Octocorallia: Alcyonaceae) of the Great Barrier Reef. Marine Biology 136: 63–68.
Garcia-Meunier, P., C. Martel, J. Pigeot, G. Chevalier, P. Goulletquer & P. G. Sauriau, 2001. Human impact and maine bioinvasions: setting genetic analysis of the japanese drill, Ocinebrellus inornatus (Recluz, 1851), Recently introduced into the French Atlantic Coasts. Proceedings of the Second International Conference on Marine Bioinvasions. Massachusetts Institute of Technology, Cambridge, Massachusetts.
Gardella, C. M., 1962. Some aspects of the biology and development of caprellids (Crustacea: Amphipoda). Master’s thesis, University of Washington.
Hayward, P. J. & J. S. Ryland, 2000. Handbook of the Marine Fauna of North-West Europe. Oxford University Press, 800 pp.
Hepner, M., 1963. Reproduction biology and life cycle of Caprella septentrionalis Kroyer (Amphipoda, Caprellidae) in the White Sea. Zoologichesky Zhurnad 42: 1619–1630.
Hughes, R. G., 1978. Life-histories and abundance of epizotes of the hydroid Nemertesia antennina (L.). Journal of Marine Biological Association of the UK 58: 313–332.
Hulme, M., G. J. Jenkins, X. Lu, J. R. Turnpenny, T. D. Mitchell, R. G. Jones, Lowe, J., J. M. Murphy, D. Hassell, P. Boorman, R. McDonald & S. Hill, 2002. The UKCIP02 Scientific Report, Climate Change Scenarios for the United Kingdom. Tyndell Centre for Climate Change Research, Norwich, UK.
Imada, K. & T. Kikuchi, 1984. Studies on some reproductive traits of three caprellids (Crustacea: Amphipoda) and their seasonal fluctuations in the Sargassum bed. Publications of the Amakusa Marine Biological Laboratory 7: 151–172.
Keith, D. E., 1969. Aspects of feeding in Caprella californica Stimpson and Caprella equilibra Say (Amphipoda). Crustaceana 16: 119–124.
Lewbel, G. S., 1978. Sexual dimorphism and intraspecific aggression, and their relationship to sex ratios in Caprella gorgonia Laubitz & Lewbel (Crustacea: Amphipoda: Caprellidae). Journal of Experimental Marine Biology and Ecology 33: 133–151.
Maranhão, P. & J. C. Marques, 2003. The influence of temperature and salinity on the duration of embryonic development, fecundity and growth of the amphipod Echinogammarus marinus Leach (Gammaridae). Acta Oecologica 24: 5–13.
Maranhão, P., N. Bengala, M. Pardal & J. C. Marques, 2001. The influence of environmental factors on the population dynamics, reproductive biology and productivity of Echinogammarus marinus Leach (Amphipoda, Gammaridae) in the Mondego estuary (Portugal). Acta Oecologica 22: 139–152.
Nishimura, S., 1995. Guide to the Seashore Animals of Japan with Color Pictures and Keys, Vol. II. Hoikusha, Japan.
Pearson, T. H. & K. D. Black, 2001. The environmental impacts of marine fish cage culture. Sheffield Academic Press, Sheffield, pp. 1–31.
Skadsheim, A., 1989. Regional variation in amphipod life history: effects of temperature and salinity on breeding. Journal of Experimental Marine Biology and Ecology 127: 262–270.
Smith, D. L., M. J. Wonham, L. D. McCann, G. M. Ruiz, A. H. Hines & J. T. Carlton, 1999. Invasion Pressure to a Ballast-flooded Estuary and an Assessment of Inoculant Survival. Biological Invasions 1: 67–87.
Steele, D. H. & V. J. Steele, 1973. The biology of Gammarus (Crustacea, Amphipoda) in the northwestern Atlantic. VII. The duration of embryonic development of five species at various temperatures. Canadian Journal of Zoology 51: 995–999.
Takeuchi, I. & R. Hirano, 1991. Growth and reproduction of Caprella danilevskii (Crustacea: Amphipoda) reared in the laboratory. Marine Biology 110: 391–397.
Takeuchi, I. & R. Hirano, 1992a. Growth and reproduction of the epifaunal amphipod Caprella okadai Arimoto (Crustacea: Amphipoda: Caprellidea). Journal of Experimental Marine Biology and Ecology 161: 201–212.
Takeuchi, I. & R. Hirano, 1992b. Duration and Size of Embryos in Epifaunal Amphipods Caprella danilevskii Czerniavski and C. okadai Arimoto (Crustacea, Amphipoda, Caprellidea). Journal of Experimental Marine Biology and Ecology 164: 161–169.
Takeuchi, I., H. Yamakawa & M. Fujiwara, 1990. Density fluctuation of caprellid amphipods (Crustacea) inhabiting the red alga Gelidium amansii (Lamouroux) Lamouroux, with emphasis on Caprella okadai Arimoto. La mer, la Société franco-japonaise d’océanographie, Tokyo 28: 30–36.
Vassilenko, S. V., 1967. Fauna of Caprellidae (Amphipoda) of the Possjet Bay (Sea of Japan) and some data on their ecology. Issledovanija Fauny Morei (Explorations of the fauna of the seas of the USSR), Biotzenozy Zalika Possjet Japanskovo Morja 5: 196–229.
Welton, J. S. & R. T. Clarke, 1980. Laboratory studies on the reproduction and growth of the amphipod, Gammarus pulex (L.). Journal of Animal Ecology 49: 581–592.
Weston, D. P., 1990. Quantitative examination of macrobenthic community changes along an organic enrichment gradient. Marine Ecology Progress Series 61: 233–244.
Willis, K. J., E. J. Cook, M. Lozano-Fernandez & I. Takeuchi, 2004. First record of the alien caprellid amphipod, Caprella mutica, for the UK. Journal of the Marine Biological Association of the United Kingdom 84: 1027–1028.
Zar, J. H., 1996. Biostatistical analysis. Prentice-Hall.
Acknowledgements
This paper was supported by an Argos Grant to Matias Lozano-Fernandez and the British Ecological Society (No. 2135). The authors would like to thank Scottish Seafarms for access to their site for sample collection and to Dr F. Cottier, Mr R. Shucksmith and Dr G. Ashton for their valuable comments on this paper.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Cook, E.J., Willis, K.J. & Lozano-Fernandez, M. Survivorship, growth and reproduction of the non-native Caprella mutica Schurin, 1935 (Crustacea: Amphipoda). Hydrobiologia 590, 55–64 (2007). https://doi.org/10.1007/s10750-007-0757-8
Issue Date:
DOI: https://doi.org/10.1007/s10750-007-0757-8