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Tsui, Clement Kin Ming; Roe, Amanda D.; El-Kassaby, Yousry A.; Rice, Adrianne V.; Massoumi Alamouti, Sepideh; Sperling, Felix A. H.; Cooke, Janice E. K.; Bohlmann, Jörg; Hamelin, Richard C.

<b>Abstract</b><br/>We investigated the population structure of Grosmannia clavigera (Gc), a fungal symbiont of the mountain pine beetle (MPB) that plays a crucial role in the establishment and reproductive success of this pathogen. This insect–fungal complex has destroyed over 16 million ha of lodgepole pine forests in Canada, the largest MPB epidemic in recorded history. During this current epidemic, MPB has expanded its range beyond historically recorded boundaries, both northward and eastward, and has now reached the jack pine of Alberta, potentially threatening the Canadian boreal forest. To better understand the dynamics between the beetle and its fungal symbiont, we sampled 19 populations in western North America and genotyped individuals from these populations with eight microsatellite markers. The fungus displayed high haplotype diversity, with over 250 unique haplotypes observed in 335 single spore isolates. Linkage equilibria in 13 of the 19 populations suggested that the fungus reproduces sexually. Bayesian clustering and distance analyses identified four genetic clusters that corresponded to four major geographical regions, which suggested that the epidemic arose from multiple geographical sources. A genetic cluster north of the Rocky Mountains, where the MPB has recently become established, experienced a population bottleneck, probably as a result of the recent range expansion. The two genetic clusters located north and west of the Rocky Mountains contained many fungal isolates admixed from all populations, possibly due to the massive movement of MPB during the epidemic. The general agreement in north–south differentiation of MPB and G. clavigera populations points to the fungal pathogen’s dependence on the movement of its insect vector. In addition, the patterns of diversity and the individual assignment tests of the fungal associate suggest that migration across the Rocky Mountains occurred via a northeastern corridor, in accordance with meteorological patterns and observation of MPB movement data. Our results highlight the potential of this pathogen for both expansion and sexual reproduction, and also identify some possible barriers to gene flow. Understanding the ecological and evolutionary dynamics of this fungus–beetle association is important for the modelling and prediction of MPB epidemics.; <b>Usage notes</b><br /><div class="o-metadata__file-usage-entry"><h4 class="o-heading__level3-file-title">GC293-data</h4><div class="o-metadata__file-description">This is a microsatellite data set of 8 loci for the fungus Grosmannia clavigera. Cokumn A contains the strain code, column B represents the sampling location, while columns C-R have the raw data of fragment size.</div><div class="o-metadata__file-name"></div></div>

Montana; Alberta; British Columbia; Idaho

Dryad version number: 1</p>

Version status: submitted</p>

Dryad curation status: Published</p>

Sharing link: https://datadryad.org/stash/share/klLwFiQZtK73M6Al8eweCDb7g1p8qIhTeZjHHUTav1Q</p>

Storage size: 56596</p>

Visibility: public</p>

University of British Columbia Library

10.14288/1.0397705

https://doi.org/10.5683/SP2/GVWMKI; https://doi.org/10.5061/dryad.48jg20v0

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