Recent evolution of alternative reproductive modes in the 'living fossil' <it>Triops cancriformis</it>

• Main Authors: Zierold Thorid, Hanfling Bernd, Gómez Africa
• Format: Article
• Language: English
• Published: BMC 2007-09-01
• Series: BMC Evolutionary Biology
• Online Access: http://www.biomedcentral.com/1471-2148/7/161

<p>Abstract</p> <p>Background</p> <p>The Notostraca is a small but ancient crustacean order with a contrasting combination of a conservative morphology and a wide range of reproductive modes. The tadpole shrimp <it>Triops cancriformis</it>, includes bisexual – the putatively ancestral state -, androdioecious and hermaphrodite populations. As hermaphroditism and androdioecy confer a colonisation advantage, we expect the postglacial colonisation of northern Europe to have been effected by lineages with such reproductive modes. Therefore, N European populations should be composed of closely related lineages reflecting a recent range expansion. In contrast, glacial refugia in the south should contain bisexual populations with high haplotype diversity and more population structuring. To test these hypotheses, we analysed the geographic distribution of reproductive modes based on new and published sex ratio data. In addition, we investigated the European phylogeography of <it>T. cancriformis </it>by sequencing over a 1000 bp of mitochondrial DNA (mtDNA) in individuals from a large sample of populations of the three recognised subspecies.</p> <p>Results</p> <p>Bisexual populations were only found in the Iberian Peninsula, with the rest of European populations showing low male proportions or no males. Androdioecious populations were found in Central and Eastern Europe. Regarding mtDNA diversity, Spanish and Moroccan populations of <it>T. c. mauritanicus </it>were highly divergent, and showed strong population structure. In contrast, <it>Triops c. cancriformis </it>and <it>T. c. simplex </it>formed a single mtDNA lineage with low haplotype diversity. This diversity was structured into two phylogenetic clades (A, B), coexisting in E Germany. Basal haplotypes of both lineages were found in the Iberian Peninsula. Most of the populations in clade A and B are either hermaphroditic or androdioecious, with the only bisexual population in these clades found in the Iberian Peninsula. The genetic divergence between these two clades suggests a split in the Late Pleistocene and their geographic distribution reflects a complex evolutionary history of European <it>Triops </it>populations, with possibly two episodes of range expansions – one of them by clade A – involving androdioecious and hermaphroditic populations.</p> <p>Conclusion</p> <p>As we predicted, N European populations of <it>T. cancriformis </it>are closely related, with few widely distributed haplotypes and indications of a recent range expansion involving hermaphroditic/androdioecious lineages. A possible second range expansion or long distance colonisation may have created the secondary contact zone between <it>T. c. cancriformis/simplex </it>clades A and B. The large haplotype diversity and strong genetic subdivision in the Iberian Peninsula, which is known to contain only bisexual populations, strongly suggest that this area was a Pleistocene refugium for <it>T. cancriformis</it>, although the occurrence of additional eastern refugia cannot be ruled out. Our data support the status of <it>T. c. mauritanicus </it>as a separate species and the colonisation of N Africa from the Iberian Peninsula. We suggest that hermaphroditism/androdioecy has evolved recently in <it>T. cancriformis </it>and has facilitated the postglacial colonisation of northern Europe.</p>