The contribution of genetics and genomics to understanding the ecology of the mountain pine beetle system

Cullingham, Catherine I; Janes, Jasmine K; Hamelin, Richard C; James, Patrick M A; Murray, Brent W; Sperling, Felix A H

doi:10.1139/cjfr-2018-0303

Author(s)

Cullingham, Catherine I

Janes, Jasmine K

Hamelin, Richard C

James, Patrick M A

Murray, Brent W

Sperling, Felix A H

Publication Date

2019

Abstract

Environmental change is altering forest insect dynamics worldwide. As these systems change, they pose significant ecological, social, and economic risk through, for example, the loss of valuable habitat, green space, and timber. Our understanding of such systems is often limited by the complexity of multiple interacting taxa. As a consequence, studies assessing the ecology, physiology, and genomics of each key organism in such systems are increasingly important for developing appropriate management strategies. Here we summarize the genetic and genomic contributions made by the TRIA project - a long-term study of the mountain pine beetle (Dendroctonus ponderosae Hopkins) system encompassing beetle, fungi, and pine. Contributions include genetic and genomic resources for species identification, sex determination, detection of selection, functional genetic analysis, mating system confirmation, hybrid stability tests, and integrated genetic studies of multiple taxa. These resources and subsequent findings have accelerated our understanding of the mountain pine beetle system, facilitating improved management strategies (e.g., enhancements to stand susceptibility indices and predictive models) and highlighting mechanisms for promoting resilient forests. Further, work from the TRIA project serves as a model for the increasing number and severity of invasive and native forest insect outbreaks globally (e.g., Dutch elm disease and thousand cankers disease).

Citation

Canadian Journal of Forest Research, v.49, p. 721-730

ISSN

1208-6037

0045-5067

Link

https://hdl.handle.net/1959.11/27160

Language

en

Publisher

Canadian Science Publishing

Rights

Attribution 4.0 International

Title

The contribution of genetics and genomics to understanding the ecology of the mountain pine beetle system

Type of document

Journal Article

Entity Type

Publication

Name	Size	format	Description	Link
administrative/TheContributionJanes2019JournalArticle_AcceptedVersion.pdf	1179.836 KB	application/pdf	Post-print version	View document
openpublished/TheContributionJanes2019JournalArticle.pdf	4109.177 KB	application/pdf	Published version	View document

Author(s)	Cullingham, Catherine I Janes, Jasmine K Hamelin, Richard C James, Patrick M A Murray, Brent W Sperling, Felix A H
Publication Date	2019
Abstract	Environmental change is altering forest insect dynamics worldwide. As these systems change, they pose significant ecological, social, and economic risk through, for example, the loss of valuable habitat, green space, and timber. Our understanding of such systems is often limited by the complexity of multiple interacting taxa. As a consequence, studies assessing the ecology, physiology, and genomics of each key organism in such systems are increasingly important for developing appropriate management strategies. Here we summarize the genetic and genomic contributions made by the TRIA project - a long-term study of the mountain pine beetle (Dendroctonus ponderosae Hopkins) system encompassing beetle, fungi, and pine. Contributions include genetic and genomic resources for species identification, sex determination, detection of selection, functional genetic analysis, mating system confirmation, hybrid stability tests, and integrated genetic studies of multiple taxa. These resources and subsequent findings have accelerated our understanding of the mountain pine beetle system, facilitating improved management strategies (e.g., enhancements to stand susceptibility indices and predictive models) and highlighting mechanisms for promoting resilient forests. Further, work from the TRIA project serves as a model for the increasing number and severity of invasive and native forest insect outbreaks globally (e.g., Dutch elm disease and thousand cankers disease).
Citation	Canadian Journal of Forest Research, v.49, p. 721-730
ISSN	1208-6037 0045-5067
Link	https://hdl.handle.net/1959.11/27160
Language	en
Publisher	Canadian Science Publishing
Rights	Attribution 4.0 International
Title	The contribution of genetics and genomics to understanding the ecology of the mountain pine beetle system
Type of document	Journal Article
Entity Type	Publication

The contribution of genetics and genomics to understanding the ecology of the mountain pine beetle system

Files: