Data from: Response to selection for parasitism of a sub-optimal, low-preference host in an aphid parasitoid
<p>Risks of post-introduction evolution in insects introduced to control invasive pests have been discussed for some time, but little is known about responses to selection or genetic architectures of host adaptation and thus about the likelihood or rapidity of evolutionary shifts. We report here results on the response to selection and genetic architecture of parasitism of a sub-optimal, low-preference host species by an aphid parasitoid, <em>Aphelinus rhamni</em>, a candidate for introduction against the soybean aphid, <em>Aphis glycines</em>. The parasitoid was collected in Beijing, China, from the soybean aphid on a Rhamnus species. In the laboratory at the USDA-ARS, Newark, Delaware, we selected <em>A. rhamni</em> for increased parasitism of <em>Rhopalsiphum padi</em> by rearing the parasitoid on this aphid for three generations. We measured parasitism of <em>R. padi</em> at generations two and three, and at generation three, crossed and backcrossed parasitoids from the populations reared on <em>R. padi</em> with those from populations reared on <em>Aphis glycines</em> and compared parasitism of both <em>R. padi</em> and <em>Aphis glycines</em> among F1 and backcross females. <em>Aphelinus rhamni</em> responded rapidly to selection for parasitism of <em>R. padi</em>. Selection for <em>R. padi</em> parasitism reduced parasitism of <em>Aphis glycines</em>, the original host of <em>A. rhamni</em>. However, parasitism of <em>R. padi</em> did not increase from generation two to generation three of selection, suggesting reduced variance available for selection, which was indeed found. We tested the associations between 184 single nucleotide polymorphisms (SNP) and increased parasitism of <em>R. padi</em> and found 28 SNP loci, some of which were associated with increased and others with decreased parasitism of <em>R. padi</em>. We assembled and annotated the <em>A. rhamni</em> genome, mapped all SNP loci to contigs, and tested whether genes on contigs with SNP loci associated with parasitism were enriched for candidate genes or gene functions. We identified 80 genes on these contigs that mapped to 1.2 Mb of the 483 Mb genome of <em>A. rhamni</em> but found little enrichment of candidate genes or gene functions. </p><div><br>Resources in this dataset:</div><br><ul><li><p>Resource Title: data_dictionary_selection_response_Aphelinus_rhamni.</p> <p>File Name: data_dictionary_selection_response_Aphelinus_rhamni.csv</p><p>Resource Description: data dictionary for phenotype files</p></li><br><li><p>Resource Title: Selection_response_Aphelinus_rhamni_generation_2.</p> <p>File Name: Selection_response_Aphelinus_rhamni_generation_2_2011.csv</p><p>Resource Description: Phenotypic data for parasitism of Rhopalosiphum padi by Aphelinus rhamni after two generations of selection on this aphid. </p></li><br><li><p>Resource Title: Selection_response_Aphelinus_rhamni_generation_3.</p> <p>File Name: Selection_response_Aphelinus_rhamni_generation_3_2011.csv</p><p>Resource Description: Phenotypic data for parasitism of Rhopalosiphum padi by Aphelinus rhamni after three generations of selection on this aphid.</p></li><br><li><p>Resource Title: Selection_response_Aphelinus_rhamni_F1.</p> <p>File Name: Selection_response_Aphelinus_rhamni_F1_2011.csv</p><p>Resource Description: Phenotypic data for parasitism of Rhopalosiphum padi by Aphelinus rhamni F1 females from cross between control females and females from three generations of selection on this aphid.</p></li><br><li><p>Resource Title: Selection_response_Aphelinus_rhamni_BC.</p> <p>File Name: Selection_response_Aphelinus_rhamni_BC_2011.csv</p><p>Resource Description: Phenotypic data for parasitism of Rhopalosiphum padi by backcross females of Aphelinus rhamni from crosses between control males and F1 females that were hybrids of control females and males from populations that had been selected on this aphid for three generations.</p></li></ul><p></p>
| Main Authors: | , , , |
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| Format: | Dataset biblioteca |
| Published: |
2021
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| Subjects: | Crop and pasture protection (incl. pests, diseases and weeds), Genomics and transcriptomics, Genetics, Environmental sciences, Biosecurity science and invasive species ecology, host adaptation, response to selection, quantitative genetics, genomics, parasitoid, Hymenoptera, NP304, data.gov, ARS, |
| Online Access: | https://figshare.com/articles/dataset/Data_from_Response_to_selection_for_parasitism_of_a_sub-optimal_low-preference_host_in_an_aphid_parasitoid/24855219 |
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