The role of forest genetic resources in responding to biotic and abiotic factors in the context of anthropogenic climate change

The role of forest genetic resources in responding to biotic and abiotic factors in the context of anthropogenic climate change

•This study reviews the importance of forest genetic resources in adaptation to climate change.•Climate change will render previously locally-adapted populations less suited to new conditions.•Climate change will affect the distribution of FGR through its effects on pests, diseases and fire.•We prov...

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Published in:Forest ecology and management Vol. 333; pp. 76 - 87
Main Authors: Alfaro, René I., Fady, Bruno, Vendramin, Giovanni Giuseppe, Dawson, Ian K., Fleming, Richard A., Sáenz-Romero, Cuauhtémoc, Lindig-Cisneros, Roberto A., Murdock, Trevor, Vinceti, Barbara, Navarro, Carlos Manuel, Skrøppa, Tore, Baldinelli, Giulia, El-Kassaby, Yousry A., Loo, Judy
Format: Journal Article
Language:English
Published: Elsevier B.V 01-12-2014
Elsevier
Subjects:
Adaptation
Climate change
Disturbances
Ecology
Evolutionary
Forests
Genetics
Life Sciences
Natural disturbances
Populations
Tree genetic variation
Trees
Natural disturbances
Tree genetic variation
Climate change
Adaptation
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Summary:•This study reviews the importance of forest genetic resources in adaptation to climate change.•Climate change will render previously locally-adapted populations less suited to new conditions.•Climate change will affect the distribution of FGR through its effects on pests, diseases and fire.•We provide management strategies for conserving the evolutionary potential of forest genetic resources. The current distribution of forest genetic resources on Earth is the result of a combination of natural processes and human actions. Over time, tree populations have become adapted to their habitats including the local ecological disturbances they face. As the planet enters a phase of human-induced climate change of unprecedented speed and magnitude, however, previously locally-adapted populations are rendered less suitable for new conditions, and ‘natural’ biotic and abiotic disturbances are taken outside their historic distribution, frequency and intensity ranges. Tree populations rely on phenotypic plasticity to survive in extant locations, on genetic adaptation to modify their local phenotypic optimum or on migration to new suitable environmental conditions. The rate of required change, however, may outpace the ability to respond, and tree species and populations may become locally extinct after specific, but as yet unknown and unquantified, tipping points are reached. Here, we review the importance of forest genetic resources as a source of evolutionary potential for adaptation to changes in climate and other ecological factors. We particularly consider climate-related responses in the context of linkages to disturbances such as pests, diseases and fire, and associated feedback loops. The importance of management strategies to conserve evolutionary potential is emphasised and recommendations for policy-makers are provided.
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ISSN:0378-1127
1872-7042
DOI:10.1016/j.foreco.2014.04.006