Hybridization Dynamics and Extensive Introgression in the Daphnia longispina Species Complex: New Insights from a High-Quality Daphnia galeata Reference Genome.

Jana Nickel,Stuart R Dennis,Anne Thielsch,Tilman Schell,Tania Holtzem,Mathilde Cordellier,Florian M Steiner,Markus Pfenninger,Klaus Schwenk,Markus Möst,Birgit C Schlick-Steiner,Emmanuelle Lerat

doi:10.1093/gbe/evab267

Abstract

Hybridization and introgression are recognized as an important source of variation that influence adaptive processes; both phenomena are frequent in the genus Daphnia, a keystone zooplankton taxon in freshwater ecosystems that comprises several species complexes. To investigate genome-wide consequences of introgression between species, we provide here the first high-quality genome assembly for a member of the Daphnia longispina species complex, Daphnia galeata. We further resequenced 49 whole genomes of three species of the complex and their interspecific hybrids both from genotypes sampled in the water column and from single resting eggs extracted from sediment cores. Populations from habitats with diverse ecological conditions offered an opportunity to study the dynamics of hybridization linked to ecological changes and revealed a high prevalence of hybrids. Using phylogenetic and population genomic approaches, we provide first insights into the intra- and interspecific genome-wide variability in this species complex and identify regions of high divergence. Finally, we assess the length of ancestry tracts in hybrids to characterize introgression patterns across the genome. Our analyses uncover a complex history of hybridization and introgression reflecting multiple generations of hybridization and backcrossing in the Daphnia longispina species complex. Overall, this study and the new resources presented here pave the way for a better understanding of ancient and contemporary gene flow in the species complex and facilitate future studies on resting egg banks accumulating in lake sediment.

Highlights

Gene flow between species can be pervasive and can affect substantial parts of the genome
It paves the way for further studies aiming at understanding how species boundaries are maintained in the face of gene flow
According to an analysis based on coverage and GC content of the contig sequences conducted with blobtools (Laetsch and Blaxter 2017), a portion of the assembly consisted of non-Daphnia contigs, which could be removed (267 contigs, equaling 22.97 Mb)

Summary

Introduction

Gene flow between species can be pervasive and can affect substantial parts of the genome. Hybridization and introgression are recognized as an important source of variation that can influence adaptive processes in plants, animals, yeast, and fungi (reviewed in Abbott et al [2013]; Arnold and Martin [2009]). The amount of realized gene flow varies among taxa and along the genome; it is governed by intrinsic genomic features such as recombination rate, structural variation, and intrinsic incompatibilities, as well as the species’ biology and ecology including ecological and sexual selection, migration, and mode of reproduction.

Methods

Results

Discussion

Conclusion