Host plants and Wolbachia shape the population genetics of sympatric herbivore populations

Zhen Fu; Amanda R. Meier; Brendan Epstein; Alan O. Bergland; Carmen I. Castillo Carrillo; William R. Cooper; Regina K. Cruzado; David R. Horton; Andrew S. Jensen; Joanna L. Kelley; Arash Rashed; Stuart R. Reitz; Silvia I. Rondon; Jenita Thinakaran; Erik J. Wenninger; Carrie H. Wohleb; David W. Crowder; William E. Snyder

doi:10.1111/eva.13079

Evolutionary Applications (Dec 2020)

Host plants and Wolbachia shape the population genetics of sympatric herbivore populations

Zhen Fu,
Amanda R. Meier,
Brendan Epstein,
Alan O. Bergland,
Carmen I. Castillo Carrillo,
William R. Cooper,
Regina K. Cruzado,
David R. Horton,
Andrew S. Jensen,
Joanna L. Kelley,
Arash Rashed,
Stuart R. Reitz,
Silvia I. Rondon,
Jenita Thinakaran,
Erik J. Wenninger,
Carrie H. Wohleb,
David W. Crowder,
William E. Snyder

Affiliations

Zhen Fu: Department of Entomology Washington State University Pullman WA USA
Amanda R. Meier: Department of Entomology University of Georgia Athens GA USA
Brendan Epstein: Department of Plant and Microbial Biology University of Minnesota St. Paul MN USA
Alan O. Bergland: Department of Biology University of Virginia Charlottesville VA USA
Carmen I. Castillo Carrillo: Departamento de Protección Vegetal Estación Experimental Santa Catalina Instituto Nacional de Investigaciones Agropecuarias (INIAP) Quito Ecuador
William R. Cooper: Temperate Tree Fruit and Vegetable Research USDA‐ARS Wapato WA USA
Regina K. Cruzado: Department of Entomology, Plant Pathology, and Nematology University of Idaho Moscow ID USA
David R. Horton: Temperate Tree Fruit and Vegetable Research USDA‐ARS Wapato WA USA
Andrew S. Jensen: Northwest Potato Research Consortium Lakeview OR USA
Joanna L. Kelley: School of Biological Sciences Washington State University Pullman WA USA
Arash Rashed: Department of Entomology, Plant Pathology, and Nematology University of Idaho Moscow ID USA
Stuart R. Reitz: Malheur Experiment Station Oregon State University Ontario OR USA
Silvia I. Rondon: Department of Crop and Soil Science Hermiston Agricultural Research and Extension Center Hermiston OR USA
Jenita Thinakaran: Temperate Tree Fruit and Vegetable Research USDA‐ARS Wapato WA USA
Erik J. Wenninger: Department of Entomology, Plant Pathology, and Nematology Kimberly Research and Extension Center University of Idaho Kimberly ID USA
Carrie H. Wohleb: Washington State University Extension Moses Lake WA USA
David W. Crowder: Department of Entomology Washington State University Pullman WA USA
William E. Snyder: Department of Entomology University of Georgia Athens GA USA

DOI: https://doi.org/10.1111/eva.13079
Journal volume & issue: Vol. 13, no. 10
pp. 2740 – 2753

Abstract

Read online

Abstract Changing climate and land‐use practices have the potential to bring previously isolated populations of pest insects into new sympatry. This heightens the need to better understand how differing patterns of host–plant association, and unique endosymbionts, serve to promote genetic isolation or integration. We addressed these factors in populations of potato psyllid, Bactericera cockerelli (Šulc), a generalist herbivore that vectors a bacterial pathogen (Candidatus Liberibacter solanacearum, causal pathogen of zebra chip disease) of potato (Solanum tuberosum L.). Genome‐wide SNP data revealed two major genetic clusters—psyllids collected from potato crops were genetically similar to psyllids found on a common weed, Lycium spp., but dissimilar from those found on another common non‐crop host, Solanum dulcamara L. Most psyllids found on Lycium spp. and potato represented a single mitochondrial cytochrome oxidase I (COI) haplotype that has been suggested to not be native to the region, and whose arrival may have been concurrent with zebra chip disease first emerging. The putatively introduced COI haplotype usually co‐occurred with endosymbiotic Wolbachia, while the putatively resident COI haplotype generally did not. Genetic intermediates between the two genetic populations of insects were rare, consistent with recent sympatry or reproductive isolation, although admixture patterns of apparent hybrids were consistent with introgression of genes from introduced into resident populations. Our results suggest that both host–plant associations and endosymbionts are shaping the population genetic structure of sympatric psyllid populations associated with different non‐crop hosts. It is of future interest to explicitly examine vectorial capacity of the two populations and their potential hybrids, as population structure and hybridization might alter regional vector capacity and disease outbreaks.

Published in Evolutionary Applications

ISSN: 1752-4571 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General): Evolution
Website: https://onlinelibrary.wiley.com/journal/17524571

About the journal

Abstract

Keywords