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Assisted species migration and hybridization to conserve cold‐adapted plants under climate change

Kimberly M. Charles, Ivana Stehlik

2020Conservation Biology28 citationsDOI

Abstract

Temperature rise due to climate change is putting many arctic and alpine plants at risk of extinction because their ability to react is outpaced by the speed of climate change. We considered assisted species migration (ASM) and hybridization as methods to conserve cold-adapted species (or the genes thereof) and to minimize the potential perturbation of ecosystems due to climate change. Assisted species migration is the deliberate movement of individuals from their current location to where the species' ecological requirements will be matched under climate projections. Hybridization refers to crossbreeding of closely related species, where for arctic and alpine plants, 1 parent is the threatened cold-adapted and the other its reproductively compatible, warm-adapted sibling. Traditionally, hybridization is viewed as negative and leading to a loss of biodiversity, even though hybridization has increased biodiversity over geological times. Furthermore, the incorporation of warm-adapted genes into a hybrid may be the only means for the persistence of increasingly more maladapted, cold-adapted species. If approached with thorough consideration of fitness-related parameters of the source population and acknowledgement of the important role hybridization has played in shaping current biodiversity, ASM and hybridization could help save partial or whole genomes of key cold-adapted species at risk due to climate change with minimal negative effects on ecosystem functioning.

Topics & Concepts

BiodiversityClimate changeThreatened speciesEcologyEcosystemArcticPopulationExtinction (optical mineralogy)Environmental changeGeographyBiologyReproductive isolationPaleontologyDemographySociologyHabitatSpecies Distribution and Climate ChangeGenetic diversity and population structurePlant and Fungal Interactions Research
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