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Acta Parasitologica

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Volume 62, Issue 3 (Sep 2017)

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Population structure of the monogenean, Paramazocraes thrissocles (Mazocraeidae) on the gills of clupeoid fish, Thryssa mystax of Visakhapatnam coast, Bay of Bengal

Bade Sailaja / Ummey Shameem / Rokkam Madhavi
Published Online: 2017-07-05 | DOI: https://doi.org/10.1515/ap-2017-0071

Abstract

An investigation was undertaken on the population biology of the mazocraeid monogenean Paramazocreas thrissocles occurring on the gills of the engraulid fish Thryssa mystax at Visakhapatnam coast , Bay of Bengal. The influence of season and host size on the parasite population density and the dispersion pattern of the parasite in the host population were analysed. A distinct seasonal pattern in the prevalence and intensity to infection is noted with higher parasite loads prevailing during warmer summer months and very low or no infection during winter months. The heavy infections are found to be promoted by high temperatures prevailing during summer months coupled with high host density and the larger size of fish examined during this period. A positive correlation between host size and prevalence and mean intensity to infection with the monogenean was noted, larger fish often carrying heavy infections. Further the monogenean showed an aggregated distribution on the host population as evidenced by the low value of negative binomial parameter ‘K’.

Keywords: Paramazocraes thrissocles; Mazocraeidae; Thryssa mystax; population dynamics; Bay of Bengal

References

  • Alston S., Lewis J.W. 1994. The ergasilid parasites (Copepoda: Poecilastomoida) of British freshwater fish. In: (Eds: A.W. Pike and J.W. Lewis) Parasitic Diseases of Fish, Otley Samera Publ. Ltd.Google Scholar

  • Appleby C. 1996. Seasonal occurrence, topographical distribution and transmission of Gyrodactylus callariatis (Monogenea) infecting juvenile Atlantic cod, Gadus morhua, in the Oslo Fjord, Norway. Journal of Fish Biology, 48, 1266–1274Google Scholar

  • Awachie J.B.E. 1968. On the bionomics of Crepidostomum metoecus and Crepidostomum farionis (Muller, 1784) (Trematoda: Allocreadiidae). Parasitology, 58, 307–324CrossrefGoogle Scholar

  • Bliss C. I., Fisher R.A. 1953. Fitting the negative binomial distribution to biological data and a note on the efficient fitting of the negative binomial. Biometrics, 9, 176–200CrossrefGoogle Scholar

  • Bush A.O., Lafferty K.D., Jeffrey. M.L., Shostak A.W. 1997. Parasitology meets ecology on its own terms: Margolis et al. revisited. Journal of Parasitology, 83, 575–583CrossrefGoogle Scholar

  • Chubb J.C. 1977. Seasonal occurrence of helminths in freshwater fishes. Part I. Monogenea. Advances in Parasitology, 15, 133–199CrossrefGoogle Scholar

  • Chubb J.C. 1979. Seasonal occurrence of helminths in freshwater fishes. Part II. Trematoda. Advances in Parasitology, 17, 141–313CrossrefGoogle Scholar

  • Costa G., Freitas N., Dellinger T.H., Mackenzie K. 2007. Gill monogeneans of the club mackerel, Scomber japonicus from Madeiran waters of the Atlantic Ocean, Portugal. Journal of Helminthology, 81, 33–38CrossrefGoogle Scholar

  • Crofton H.D. 1971. A quantitative approach to parasitism. Parasitology, 62, 179–193CrossrefGoogle Scholar

  • Dharmamba M. 1959. Studies on the maturation and spawning habits of some common clupeoids of Lawson’s Bay, Waltair. Indian Journal of Fisheries, 6, 374–388Google Scholar

  • Elliott J.M. (Ed.) 1977. Some methods for the statistical analysis of samples of benthic invertebrates. Freshwater Biological Association, Scientific Publication No. 25.Google Scholar

  • Ernst I., Whittington I.D., Corneillie S., Talbot C. 2005. Effects of temperature, salinity, desiccation and chemical treatments on egg embryonation and hatching success of Benedenia seriolae (Monogenea: Capsalidae), a parasite of farmed Seriola spp. Journal of Fish Diseases, 28, 157–164CrossrefGoogle Scholar

  • Hudson P.J., Rizolli A., Grenfell B.T., Heesterbeek H. Dobro A.P. (Eds) 2002. The Ecology of Wildlife Diseases. Oxford University Press, Oxford.Google Scholar

  • Kim K.H., Ahn K.J., Kim C.S. 2001. Seasonal abundance of Prosomicrocotyla gotoi (Monogenea) and Opecoelus sphaericus (Digenea) from greenlings Hexagrammos otakii in a southern coastal area in Korea. Aquaculture, 192, 147–153CrossrefGoogle Scholar

  • Koie M. 1988a. Parasites in European eel Anguilla anguilla (L.) from Danish freshwater, brackish and marine localities. Ophelia, 29, 93–118.CrossrefGoogle Scholar

  • Koie M. 1988b. Parasites in eels, Anguilla anguilla (L.) from eutrophic Lake Esrum (Denmark). Acta Parasitologica, 33, 89–100Google Scholar

  • Lester R.J.G. 2012. Overdispersion in marine fish parasites, Journal of Parasitology, 98, 718–721CrossrefWeb of ScienceGoogle Scholar

  • Luo Y., Brown C.L., Yang T. 2010. Seasonal dynamics of Diplectanum grouper parasitism on wild versus cultured groupers, Epinephelus spp., and linkage between infestation and host species phylogeny. Journal of Parasitology, 96, 541–546CrossrefGoogle Scholar

  • Mamaev Yu. L. 1982. Notes on the systematics of mazocraeid monogeneans with a redescription of some poorly described taxa. Helminthologia, 19, 25–39Google Scholar

  • Mo T.A. 1997. Seasonal occurrence of Gyrodactylus derjavini (Monogenea) on brown trout, Salmo trutta and Atlantic salmon, S. salar, in the Sanvikselva river, Norway. Journal of Parasitology, 83, 1025–1029CrossrefGoogle Scholar

  • Morand S., Poulin R., 1998. Density, body mass and parasite species richness of terrestrial mammals. Evolutionary Ecology, 12, 717–727CrossrefGoogle Scholar

  • Nie P., Kennedy C.R. 1991. Occurrence and seasonal dynamics of Pseudodactylogyrus anguillae (Yin and Sproston) (Monogenea) in eel, Anguilla anguilla (L.) in England. Journal of Fish Biology, 39, 897–900Google Scholar

  • Nie P., Yao W.J. 2000. Seasonal population dynamics of parasitic copepods, Sinergasilus spp. on farmed fish in China. Aquaculture, 197, 239–245Google Scholar

  • Noble E.R., Noble G.A. 1976. Parasite-Host specificity. In Parasitology: The Biology of Animal Parasites. Journal of Fish Diseases, 8, 479–498Google Scholar

  • Ozer A., Ozturk T., Ozturk M.O. 2004. Prevalence and intensity of Gyrodactylus arcuatus Bychowsky, 1922 (Monogenea) infestations on the three-spined stickleback, Gasterosteus aculeatus L., 1758. Turkish Journal of Veterinary Animal Science, 28, 807–812Google Scholar

  • Poulin R. 1995. Phylogeny, ecology and richness of parasite communities in vertebrates. Ecological Monographs, 65, 283–302CrossrefGoogle Scholar

  • Poulin R. 2000. Variation in the interspecific relationship between the length and intensity of parasite infection: biological and statistical causes. Journal of Fish Biology, London, 56, 123–137Google Scholar

  • Poulin R. 2006. Variation in infection parameters among populations within parasite species: Intrinsic properties versus local factors. International Journal of Parasitology, 36, 877–885CrossrefGoogle Scholar

  • Raeymaekers J.A.M., Huyse T., Maelfait H., Hellemans B., Volckaert F. A. M. 2008. Community structure, population structure and topographical specialization of Gyrodactylus (Monogenea) ectoparasites living on sympatric stickleback species. Folia Parasitologica, 55, 187–196CrossrefGoogle Scholar

  • Rawson M.V., Rogers W.A. 1973. Seasonal abundance of Gyrodactylus macrochiri. Hoffman and Putz, 1964 on blue gill and largemouth bass. Journal of Wildlife Diseases, 9, 174–177CrossrefGoogle Scholar

  • Rhode K. (Ed.) 1982. Ecology of Marine parasites. University of Queensland Press, St. LuciaGoogle Scholar

  • Sailaja B., Shameem U., Madhavi R. 2016. Redescription and morphometric analysis of Paramazocraes thrissocles Tripathi, 1959 and P. setipinna Zhang and Ding in Zhang, Yang and Liu, 2001 (Monogenea: Mazocraeidae) infecting clupeoid fishes of Visakhapatnam coast, Bay of Bengal. Systematic Parasitology, 93, 193–203CrossrefGoogle Scholar

  • Shaw D.J., Dobson A.P. 1995. Patterns of macroparasite abundance and aggregation in wildlife populations: A quantitative review. Parasitology, 111, S111-133CrossrefGoogle Scholar

  • Silan P., Maillad C. 1989. Biology of Serranicotyle labracis, ectoparasite of Dicentrarchus labrax (teleostei): contribution to the study of its populations. Marine Biology, 103, 481–487CrossrefGoogle Scholar

  • Tavares L.E.R., Luque J.L., Bicudo A.J.A. 2005. Community ecology of metazoan parasites of the anchovy Anchoa tricolor (Osteicnthyes: Engraulidae) from the coaatal zone of the State of Rio de Janeiro, Brazil. Brazilain Journal of Biology, 65, 533–540CrossrefGoogle Scholar

  • Timi J.T., Poulin R 2003. Parasite community structure within and across host populations of pelagic fish, how repeatable is it. International Journal of Parasitology, 33, 1353–1362CrossrefGoogle Scholar

  • Tripathi Y.R. 1959. Monogenetic trematodes from fishes of India. Indian Journal of Helminthology, 27, 62–105Google Scholar

  • Venkataraman, G. 1956. Studies on some aspects of the biology of the common anchovy, Thrissocles mystax (Bloch and Schneider). Indian Journal of Fisheries, 3, 311–333Google Scholar

  • Winger A.C., Marte K., Roar K., Rune K. 2008. Seasonal dynamics and persistence of Gyrodactylus salaris in two riverine anadromous Arctic charr populations. Environmental Biology of Fishes, 83, 117–123Google Scholar

  • Yang T.B., Liu J.F., Gibson D.I., Dong A. 2006. Spatial distribution of two species of monogeneans on the gills of Siganus fuscescens (Houttuyn) and their seasonal dynamics in caged versus wild-caught hosts. Journal of Parasitology, 92, 933–940CrossrefGoogle Scholar

About the article

Received: 2016-06-26

Revised: 2017-03-14

Accepted: 2017-04-26

Published Online: 2017-07-05

Published in Print: 2017-09-26


Citation Information: Acta Parasitologica, ISSN (Online) 1896-1851, ISSN (Print) 1230-2821, DOI: https://doi.org/10.1515/ap-2017-0071.

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