Genetic structure in natural populations of flukes and snails: a practical approach and review

P. JARNE; A. THÉRON

doi:10.1017/S0031182001007715

Abstract

Several aspects of the coevolutionary dynamics in host-parasite systems may be better quantified based on analyses of population structure using neutral genetic markers. This includes, for example, the migration rates of hosts and parasites. In this respect, the current situation, especially in fluke-snail systems is unsatisfactory, since basic population genetics data are lacking and the appropriate methodology has rarely been used. After reviewing the forces acting on population structure (e.g. genetic drift or the mating system) and how they can be analysed in models of structured populations, we propose a simplified, indicative framework for conducting analyses of population structure in hosts and parasites. This includes consideration of markers, sampling, data analysis, comparison of structure in hosts and parasites and use of external data (e.g. from population dynamics). We then focus on flukes and snails, highlighting important biological traits with regard to population structure. The few available studies indicate that asexual amplification of flukes within snails strongly influences adult flukes populations. They also show that the genetic structure among populations in strongly affected by traits in other than snails (e.g. definitive host dispersal behaviour), as snails populations have limited migration. Finally more studies would allow us to deepen our current understanding of selective interference between flukes and snails (e.g. manipulation of host mating system by parasites), and evaluate how this affect population structure at neutral markers.

Crossref Citations

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Charbonnel, N. Angers, B. Rasatavonjizay, R. Bremond, P. Debain, C. and Jarne, P. 2002. The influence of mating system, demography, parasites and colonization on the population structure ofBiomphalaria pfeifferiin Madagascar. Molecular Ecology, Vol. 11, Issue. 11, p. 2213.

Charbonnel, N. Angers, B. Rasatavonjizay, R. Bremond, P. and Jarne, P. 2002. Evolutionary aspects of the metapopulation dynamics of Biomphalaria pfeifferi, the intermediate host of Schistosoma mansoni . Journal of Evolutionary Biology, Vol. 15, Issue. 2, p. 248.

Trouvé, S. Degen, L. Renaud, F. and Goudet, J. 2003. EVOLUTIONARY IMPLICATIONS OF A HIGH SELFING RATE IN THE FRESHWATER SNAIL LYMNAEA TRUNCATULA. Evolution, Vol. 57, Issue. 10, p. 2303.

Dejong, R. J. Morgan, J. A. T. Wilson, W. D. Al‐Jaser, M. H. Appleton, C. C. Coulibaly, G. D’Andrea, P. S. Doenhoff, M. J. Haas, W. Idris, M. A. Magalhães, L. A. Moné, H. Mouahid, G. Mubila, L. Pointier, J.‐P. Webster, J. P. Zanotti‐Magalhães, E. M. Paraense, W. L. Mkoji, G. M. and Loker, E. S. 2003. Phylogeography of Biomphalaria glabrata and B. pfeifferi, important intermediate hosts of Schistosoma mansoni in the New and Old World tropics. Molecular Ecology, Vol. 12, Issue. 11, p. 3041.

Trouvae, S. Degen, L. Renaud, F. and Goudet, J. 2003. EVOLUTIONARY IMPLICATIONS OF A HIGH SELFING RATE IN THE FRESHWATER SNAIL LYMNAEA TRUNCATULA. Evolution, Vol. 57, Issue. 10, p. 2303.

Lockyer, Anne E Jones, Catherine S Noble, Leslie R and Rollinson, David 2004. Trematodes and snails: an intimate association. Canadian Journal of Zoology, Vol. 82, Issue. 2, p. 251.

SHRIVASTAVA, JAYA QIAN, BAO ZHEN MCVEAN, GILEAN and WEBSTER, JOANNE P. 2005. An insight into the genetic variation of Schistosoma japonicum in mainland China using DNA microsatellite markers. Molecular Ecology, Vol. 14, Issue. 3, p. 839.

CRISCIONE, CHARLES D. POULIN, ROBERT and BLOUIN, MICHAEL S. 2005. Molecular ecology of parasites: elucidating ecological and microevolutionary processes. Molecular Ecology, Vol. 14, Issue. 8, p. 2247.

Huyse, Tine Poulin, Robert and Théron, André 2005. Speciation in parasites: a population genetics approach. Trends in Parasitology, Vol. 21, Issue. 10, p. 469.

Prugnolle, Franck Théron, André Pointier, Jean Pierre Jabbour-Zahab, Roula Jarne, Philippe Durand, Patrick and de Meeûs, Thierry 2005. DISPERSAL IN A PARASITIC WORM AND ITS TWO HOSTS: CONSEQUENCE FOR LOCAL ADAPTATION. Evolution, Vol. 59, Issue. 2, p. 296.

NOËL, S. ANGERS, B. and LAPOINTE, F.-J. 2005. Peromyscuspopulations and theirCuterebraparasites display congruent phylogeographical structure. Parasitology, Vol. 131, Issue. 2, p. 237.

Prugnolle, Franck Théron, André Pointier, Jean Pierre Jabbour-Zahab, Roula Jarne, Philippe Durand, Patrick and Meeûs, Thierry de 2005. DISPERSAL IN A PARASITIC WORM AND ITS TWO HOSTS: CONSEQUENCE FOR LOCAL ADAPTATION. Evolution, Vol. 59, Issue. 2, p. 296.

Whiteman, Noah Kerness and Parker, Patricia G. 2005. Using parasites to infer host population history: a new rationale for parasite conservation. Animal Conservation, Vol. 8, Issue. 2, p. 175.

Huyse, T. Pampoulie, C. Audenaert, V. and Volckaert, F. A M. 2006. FIRST REPORT OF GYRODACTYLUS SPP. (PLATYHELMINTHES: MONOGENEA) IN THE WESTERN MEDITERRANEAN SEA: MOLECULAR AND MORPHOLOGICAL DESCRIPTIONS. Journal of Parasitology, Vol. 92, Issue. 4, p. 682.

Criscione, Charles D. and Blouin, Michael S. 2006. MINIMAL SELFING, FEW CLONES, AND NO AMONG-HOST GENETIC STRUCTURE IN A HERMAPHRODITIC PARASITE WITH ASEXUAL LARVAL PROPAGATION. Evolution, Vol. 60, Issue. 3, p. 553.

SILVA, L. K. LIU, S. and BLANTON, R. E. 2006. Microsatellite analysis of pooledSchistosoma mansoniDNA: an approach for studies of parasite populations. Parasitology, Vol. 132, Issue. 3, p. 331.

Wang, T.P. Shrivastava, J. Johansen, M.V. Zhang, S.Q. Wang, F.F. and Webster, J.P. 2006. Does multiple hosts mean multiple parasites? Population genetic structure of Schistosoma japonicum between definitive host species. International Journal for Parasitology, Vol. 36, Issue. 12, p. 1317.

Criscione, Charles D. and Blouin, Michael S. 2006. MINIMAL SELFING, FEW CLONES, AND NO AMONG‐HOST GENETIC STRUCTURE IN A HERMAPHRODITIC PARASITE WITH ASEXUAL LARVAL PROPAGATION. Evolution, Vol. 60, Issue. 3, p. 553.

Wethington, A. R. Zavodna, M. Smith, M. K. Oliveira, G. Lewis, F. and Minchella, D. J. 2007. Population genetic structure of Biomphalaria glabrata in a schistosomiasis-endemic region in Brazil. Journal of Molluscan Studies, Vol. 73, Issue. 1, p. 45.

KEENEY, DEVON B. WATERS, JONATHAN M. and POULIN, ROBERT 2007. Clonal diversity of the marine trematode Maritrema novaezealandensis within intermediate hosts: the molecular ecology of parasite life cycles. Molecular Ecology, Vol. 16, Issue. 2, p. 431.

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Genetic structure in natural populations of flukes and snails: a practical approach and review

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Genetic structure in natural populations of flukes and snails: a practical approach and review

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