Disease resistance in whitebark pine and potential for restoration of a threatened species

Disease resistance in whitebark pine and potential for restoration of a threatened species

Societal impact statement Forests world‐wide are being negatively affected by non‐native, invasive pathogens and pests, and some tree species face uncertain futures. To retain these species as components of future forests, the rare genetic resistance that exists needs to be identified and harnessed....

Full description

Saved in:
Bibliographic Details
Published in:Plants, people, planet Vol. 6; no. 2; pp. 341 - 361
Main Authors: Sniezko, Richard A., Johnson, Jeremy S., Kegley, Angelia, Danchok, Robert
Format: Journal Article
Language:English
Published: Lancaster John Wiley & Sons, Inc 01-03-2024
Wiley
Subjects:
Blister rust
Blistering
Cronartium ribicola
Disease resistance
Economic importance
Economics
Ecosystem services
Endangered & extinct species
endangered species
Evergreen trees
Forests
Genetic diversity
Geographical variations
Government agencies
Infections
Keystone species
Pathogens
Pests
Pine
Pine trees
Pinus albicaulis
Plant species
Population genetics
Populations
quantitative resistance
Restoration
Seedlings
Threatened species
Trees
white pine blister rust
whitebark pine
Oregon
Canada
Montana
United States > US
British Columbia Canada
California
North America
Idaho
Nevada
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Societal impact statement Forests world‐wide are being negatively affected by non‐native, invasive pathogens and pests, and some tree species face uncertain futures. To retain these species as components of future forests, the rare genetic resistance that exists needs to be identified and harnessed. The applied tree improvement program for whitebark pine (Pinus albicaulis), a threatened (in the United States) and endangered (in Canada) keystone species in many forests in western North America, provides an example of what can be accomplished in a relatively short timeframe. The level and frequency of resistance vary by location, and this information will be used to implement the national restoration plan. Summary Forest trees face serious threats from non‐native diseases and pests, often causing high mortality of both the existing trees and regeneration. Developing populations with genetic resistance can help restore forests and retain affected species. Resistance programs have historically focused on species of high economic importance; however, the threats to species of little direct economic value that provide other important ecosystem services are also great. We examined the frequency, level, and geographic variation in genetic resistance to white pine blister rust in the threatened Pinus albicaulis (whitebark pine), a keystone species in high‐elevation ecosystems in western North America. In the two trials reported here, 2‐year‐old seedling progeny of 225 whitebark pine parent trees were inoculated with two geographic sources of the fungal pathogen Cronartium ribicola and evaluated over 5 years for an array of resistance traits. The trials focused primarily on parent trees from the Oregon and Washington populations. We found unexpectedly high levels of quantitative resistance in some seedling families and populations, in stark contrast to levels observed in similar resistance programs with other North American white pine species such as Pinus monticola and Pinus lambertiana. The level of resistance found in some whitebark pine populations provides optimism about potential recovery efforts for this species. Restoration efforts are underway by government agencies, tribes, and non‐government organizations in both the United States and Canada. These efforts may help boost support for applied genetic resistance programs in other forest tree species severely affected by non‐native pathogens or pests. Forests world‐wide are being negatively affected by non‐native, invasive pathogens and pests, and some tree species face uncertain futures. To retain these species as components of future forests, the rare genetic resistance that exists needs to be identified and harnessed. The applied tree improvement program for whitebark pine (Pinus albicaulis), a threatened (in the United States) and endangered (in Canada) keystone species in many forests in western North America, provides an example of what can be accomplished in a relatively short timeframe. The level and frequency of resistance vary by location, and this information will be used to implement the national restoration plan.
ISSN:2572-2611
2572-2611
DOI:10.1002/ppp3.10443