Anostracans muddy the water: Anostracans from North American lakes show unclear phylogenetic relationships between taxa, and distinctive dispersal patterns
Résumé
Dispersal is essential for all organisms to enable colonization of new areas. Like many other aquatic invertebrates, Anostraca (Crustacea) disperse passively as dormant fertilized eggs. Here, we first study the genetic diversity of Branchinecta fairy shrimps (identified morphologically as B. readingi) inhabiting lakes in Saskatchewan and British Columbia, Canada. Secondly, we attempt to reconstruct the phylogeny and dispersal events that explain their genetic distribution. Finally, we compare genetic diversity and distribution of Branchinecta sp. and Artemia franciscana, the two anostracans inhabiting the Saskatchewan lakes but with different salinity niches. To this aim, we sequenced CO1 and 16S gene fragments of the Branchinecta individuals collected from eight Saskatchewan lakes. We found a relatively high number of haplotypes for both markers (79 in CO1 and 76 in 16S) in Branchinecta from Saskatchewan. Three genetic clades at the CO1 gene region were found in Saskatchewan Branchinecta, with one of these clades being widely recorded previously in the USA (but described as B. mackini). In contrast, 54 CO1 haplotypes were previously recorded in A. franciscana in Saskatchewan for which all CO1 sequences belonged to one genetic clade. This suggests that Branchinecta sequences might be originating from several distinct Ice Age refugia, contrary to A. franciscana which might be originating from a single refuge. High density of suitable habitats (>100,000 lakes in Saskatchewan), weak priority effects and frequent dispersal events could explain high genetic diversity found in the studied Branchinecta. However, we found no genetic support for a distinction between B. readingi and B. mackini.