Abstract
Aphids provide a good model system to understand the ecological speciation concept, since the majority of the species are host-specific, and they spend their entire lifecycle on certain groups of host plants. Aphid species that apparently have wide host plant ranges have often turned out to be complexes of host-specialized biotypes. Here we investigated the various host-associated populations of the two recently diverged species, Aphis gossypii and A. rhamnicola, having multiple primary hosts, to understand the complex evolution with host-associated speciation. Using mitochondrial DNA marker and nine microsatellite loci, we reconstructed the haplotype network, and analyzed the genetic structure and relationships. Approximate Bayesian computation was also used to infer the ancestral primary host and host-associated divergence, which resulted in Rhamnus being the most ancestral host for A. gossypii and A. rhamnicola. As a result, Aphis gossypii and A. rhamnicola do not randomly use their primary and secondary host plants; rather, certain biotypes use only some secondary and specific primary hosts. Some biotypes are possibly in a diverging state through specialization to specific primary hosts. Our results also indicate that a new heteroecious race can commonly be derived from the heteroecious ancestor, showing strong evidence of ecological specialization through a primary host shift in both A. gossypii and A. rhamnicola. Interestingly, A. gossypii and A. rhamnicola shared COI haplotypes with each other, thus there is a possibility of introgression by hybridization between them by cross-sharing same primary hosts. Our results contribute to a new perspective in the study of aphid evolution by identifying complex evolutionary trends in the gossypii sensu lato complex.
Highlights
Phytophagous insects are a group of tremendous diversity that covers a quarter of all known terrestrial biodiversity [1,2]
We performed species identification through morphology and host plant relationships as a first step and tested DNA barcoding for all individuals collected on their shared host plants (e.g. Capsella, Rhamnus, and Rubia), we found that there were a lot of the haplotypes cross-shared between A. gossypii and A. rhamnicola
Our results identify the genetic structure between the various primary and secondary host-associated populations (HAPs) of the two species, A. gossypii and A. rhamnicola, encompassing the most various aphid samples from wild host plants
Summary
Phytophagous insects are a group of tremendous diversity that covers a quarter of all known terrestrial biodiversity [1,2]. Nrf.re.kr) The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. BTL Bio-Test Labor GmbH provided support via salary for TT, but did not have any additional role in the study design, data collection and analysis, decision to publish, or preparation of the manuscript. BTL Bio-Test Labor GmbH provided support via salary for TT, but did not have any additional role in the study design, data collection and analysis, decision to publish, or preparation of the manuscript. (www.biotestlab.de) The specific roles of these authors are articulated in the ‘author contributions’ section
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