Warming drives poleward range contractions of Beringian endemic plant species at high latitudes

Aim Species are expected to disperse poleward in response to climate change. For species that are endemic to the high latitudes, this implies that many in the future would face a “no‐where‐to‐go” situation as they are currently occupying the northernmost portion of the continent. Further, because en...

Full description

Saved in:
Bibliographic Details
Published inDiversity & distributions Vol. 29; no. 4; pp. 509 - 523
Main Authors Oke, Tobi A., Stralberg, Diana, Reid, Donald G., Bennett, Bruce A., Cannings, Syd, Willier, Caitlin, Fulkerson, Justin R., Cooke, Hilary A., Mantyka-Pringle, Chrystal S.
Format Journal Article
LanguageEnglish
Published Oxford Wiley 01.04.2023
John Wiley & Sons, Inc
Subjects
Alaska
alpine
Barriers
Beringia
Bioclimatology
Centroids
Climate change
Conservation
Dispersion
Endemic plants
Endemic species
Endemism
Environmental factors
Flowers & plants
Geological history
Glaciers
Grasslands
high latitude
Latitude
Plant species
poleward
Precipitation
Refugia
RESEARCH ARTICLE
Species richness
Taiga & tundra
Topography
Tundra
Vegetation
warming
Yukon
Alaska
United States > US
North America
Beringia
Online AccessGet full text

Cover

More Information
Summary:Aim Species are expected to disperse poleward in response to climate change. For species that are endemic to the high latitudes, this implies that many in the future would face a “no‐where‐to‐go” situation as they are currently occupying the northernmost portion of the continent. Further, because endemism may arise from a combination of physical barriers, climate and geological history, the persistence of many species may require spatial matching of multiple environmental factors within a limited dispersal space. Thus, it is not clear how endemic species might spatially adjust their distributions in response to climate change and whether there are future climate change refugia for these species. Location Northwest North America. Taxa Plants. Time Period Current and the future (2040). Methods We used ensemble bioclimatic models to evaluate drivers and directional patterns of future change in the distributions of 66 North American Beringian and amphi‐Beringian species currently occurring in Alaska and the Yukon. We explored the spatial pattern of species richness, losses and climate change refugia across the region. Results More than 80% of the species showed northward shifts in their latitudinal centroids under intermediate warming and are expected to shift their range northward by more than 140 km on average by 2040. Additionally, more than 60% were projected to experience range contractions and up to 20% of the species would have the potential to expand their ranges by more than 100%. Main Conclusions Suitable habitat for endemic species in northwest North America is expected to decline significantly, especially for species occupying the Arctic tundra. Although the models identified several potential refugia from future climate change, especially at high latitude and elevation, whether the species would be able to colonize new habitats on their own and/or capitalize sufficiently on in situ refugia remains a pertinent conservation question.
ISSN:1366-9516
1472-4642
DOI:10.1111/ddi.13674