Abstract
Organisms that live at the freshwater surface layer (the neuston) occupy a high energy habitat that is threatened by human activities. Daphniids of the genera Scapholeberis and Megafenestra are adapted to the neuston but are poorly studied for biogeography and diversity. Here we assess the global phylogeography of neustonic daphniids. We obtained 402 new multigene sequences from the 12S rRNA, 16S rRNA, and tRNA (val) regions of the mitochondrial genomes of daphniids from 186 global sites. We assessed the intercontinental origins and boundaries of mitochondrial lineages and the relative rates of evolution in neustonic and planktonic daphniids. We identified 17 divergent lineages in the neustonic daphniids that were associated with biogeographic regions. Six of these lineages had intercontinental ranges – four of these were Transberingian. Patagonian populations of Scapholeberis rammneri were monophyletic and nested within a closely related clade of western North American haplotypes, suggesting an introduction from the Western Nearctic to South America. The Eastern Palearctic was more diverse than other regions, containing eight of the major lineages detected in the Scapholeberinae. The Genus Scapholeberis had high levels of divergence compared to non-neustonic daphniids. Neustonic daphniids have more divergent biogeographic lineages than previously appreciated.
Highlights
Organisms that live at the freshwater surface layer occupy a high energy habitat that is threatened by human activities
Several species have been recorded on multiple continents (e.g., S. mucronata, S. rammneri, S. armata, and S. kingii)
Cornetti et al.[14] suggested that the conflict in their data may be due to the independent evolution of the neustonic habit in Scapholeberis and Megafenestra. They proposed that the 12S and 16S rRNA gene regions should be the “first choice” of genetic marker over mitochondrial protein-coding regions for the study of daphniids. Their reasoning is based on the finding that daphniid phylogenies using mitochondrial rRNA gene regions show much more agreement with the phylogenies from 636 nuclear loci than do the phylogenies using mitochondrial protein coding regions
Summary
Organisms that live at the freshwater surface layer (the neuston) occupy a high energy habitat that is threatened by human activities. Daphniids of the genera Scapholeberis and Megafenestra are adapted to the neuston but are poorly studied for biogeography and diversity. The current lack of biogeographical knowledge for the neuston hinders a detailed understanding of the biotic implications of ongoing changes and threats for freshwater Some arthropods, such as daphniids of the Subfamily Scapholeberinae Dumont et Pensaert have adult stages that are adapted to the neuston. Cornetti et al.[14] suggested that the conflict in their data may be due to the independent evolution of the neustonic habit in Scapholeberis and Megafenestra They proposed that the 12S and 16S rRNA gene regions should be the “first choice” of genetic marker over mitochondrial protein-coding regions for the study of daphniids.
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