Ubiquity of Sicyopterus lagocephalus (Teleostei: Gobioidei) and phylogeography of the genus Sicyopterus in the Indo-Pacific area inferred from mitochondrial cytochrome b gene.

Sicyopterus lagocephalus is a Gobiidae Sicydiinae (Teleostei) thought to inhabit Indo-Pacific island rivers from Comoros Islands in the Indian Ocean to Australs Islands (French Polynesia) in the Pacific Ocean. Its biological cycle comprises a marine planctonic larval phase of several months allowing it to migrate from island to island, but the other species of the genus, with such a larval stage, have generally a more restricted range and are often endemic. To understand the organisation of a species with such a wide distribution, mtDNA cytochrome b sequences were amplified for 55 specimens of this genus covering most of its distribution range together with six close endemic species and other gobiids used as outgroups. The main result is the confirmation of the ubiquity of S. lagocephalus that occurs over a range of 18,000 km in the Indian and Pacific Oceans. Two clades were identified within this species, one clustering most of French Polynesian haplotypes and the other clustering most of Mascarene (including Comoros) haplotypes. The overall pattern of distribution and phylogenetic relationship suggests that the lineages leading to endemic species originated earlier than S. lagocephalus. This latter seems to be a secondary migrant species, having colonised both Indian and Pacific Oceans with a few exceptions, situated at the border of the range (Madagascar, Marquesas, Rapa). According to the results, the phylogeny of the Sicyopterus group, the age of the different lineages and the past history of the colonisation of the Indo-Pacific islands are discussed.

Intron polymorphism (EPIC-PCR) reveals phylogeographic structure of Zacco platypus in China: a possible target for aquaculture development.

The present study aims at a phylogeographic description of Zacco platypus from southeast China, in order to detect subdivisions within the nominal species. Two main basins were sampled: the Chang Jiang (Yangstze River) in central and east China (Hunan and Sichuan provinces) and the Xi Jiang, the more southern main tributary of the Zhu Jiang (Pearl River, Guangxi province). A total of 27 intron systems were tested, five of them were informative and gave 12 interpretable and polymorphic loci. Within the diversity of Z. platypus, four genetic groups were identified by multidimensional (FCA) analyses, corresponding to distinct genetic pools. The geographical distribution of the genetic groups corresponds neither with the drainage structure, nor the geographic distances between samples. It follows that isolation by distance and limited migration are insufficient to explain this geographic structure. The history of the river network therefore appears to have played an important role.

Natural and artificial secondary contact in brown trout (Salmo trutta, L.) in the French western Pyrenees assessed by allozymes and microsatellites.

Analysis of allozyme polymorphism in brown trout (Salmo trutta) populations from south-western France shows that two genetically differentiated wild forms (characterised by the LDH-C1*100 and 90 alleles) introgress in this area. As allozymes could not evaluate the impact of stocking in the Atlantic basin, microsatellites have been necessary to detect the influence of hatchery fish and to confirm that the observed structure was natural. Microsatellites confirm the distinctness of the two wild forms based on allozyme loci. This situation provides a new example of secondary contact for this species in the Atlantic basin, with various levels of mixing being seen between the two population groups. The origin of these forms is discussed in the light of previous studies concerning modern and ancestral Atlantic trout (Hamilton et al, 1989) and lineages stemming from different glacial refuges (Garcia Marin et al, 1999; Weiss et al, 2000). This local analysis provides new insights in defining the evolutionary history of this species and confirms the important role of glaciation events in this history.

The genetic diversity of native, stocked and hybrid populations of marble trout in the Soca river, Slovenia.

The marble trout (Salmo marmoratus) is an endangered species in Slovenia (and in Italy, Croatia and Albania) because of hybridization resulting from intensive stocking. Eleven populations of trout from the Soca river basin (Slovenia) were analysed using 31 presumptive enzyme loci. Three European control samples representing the main European genotypes of brown trout were also analysed. This analysis confirmed the existence of extensive hybridization in the main river, resulting in an equal mixture of alleles belonging to marble trout, and Danubian and Atlantic brown trout (Salmo trutta). Despite the high level of introgression observed in the main Soca River, nearly pure populations of marble trout were found in the headwaters of five tributaries. The five stations with pure marble trout will be the basis of a rehabilitation programme. Hardy-Weinberg and linkage disequilibria were observed and hypotheses are discussed to explain this. A scenario for the colonization of the Adriatic region is proposed.

Robertsonian heterozygosity in wild mice: fertility and transmission rates in Rb(16.17) translocation heterozygotes.

Breeding data show that there is no distortion of the transmission ratio of chromosomal types in the progeny of wild mice heterozygous for Rb(16.17) nor was litter size significantly affected by chromosomal heterozygosity. The relevance of these results to those obtained with artificial hybrids and to processes of chromosomal differentiation are discussed.