Has past climate change affected cold‐specialized species differentially through space and time?

Quaternary climate change has been strongly linked to distributional shifts and recent species diversification. Montane species, in particular, have experienced enhanced isolation and rapid genetic divergence during glacial fluctuations, and these processes have resulted in a disproportionate number...

Full description

Saved in:
Bibliographic Details
Published in:Systematic entomology 2019-07, Vol.44 (3), p.571-587
Main Authors: Schoville, Sean D., Bougie, Tierney C., Dudko, Roman Y., Medeiros, Matthew J.
Format: Article
Language:English
Subjects:
Climate change
Cold
Endemic species
Geography
Glaciation
Montane environments
Neogene
Recolonization
Refugia
Statistical analysis
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Quaternary climate change has been strongly linked to distributional shifts and recent species diversification. Montane species, in particular, have experienced enhanced isolation and rapid genetic divergence during glacial fluctuations, and these processes have resulted in a disproportionate number of neo‐endemic species forming in high‐elevation habitats. In temperate montane environments, a general model of alpine population history is well supported, where cold‐specialized species track favourable climate conditions downslope during glacial episodes and upslope during warmer interglacial periods, which leads to a climate‐driven population or species diversification pump. However, it remains unclear how geography mediates distributional changes and whether certain episodes of glacial history have differentially impacted rates of diversification. We address these questions by examining phylogenomic data in a North American clade of flightless, cold‐specialized insects, the ice crawlers (Insecta: Grylloblattodea: Grylloblattidae: Grylloblatta). These low‐vagility organisms have the potential to reveal highly localized refugia and patterns of spatial recolonization, as well as a longer history of in situ diversification. Using continuous phylogeographic analysis of species groups, we show that all species tend to retreat to nearby low‐elevation habitats across western North America during episodes of glaciation, but species at high latitude exhibit larger distributional shifts. Lineage diversification was examined over the course of the Neogene and Quaternary periods, with statistical analysis supporting a direct association between climate variation and diversification rate. Major increases in lineage diversification appear to be correlated with warm and dry periods, rather than with extreme glacial events. Finally, we identify substantial cryptic diversity among ice crawlers, leading to high endemism across their range. This diversity provides new insights into highly localized glacial refugia for cold‐specialized species across western North America. Phylogenomic data provide a robust phylogeny, suggesting there is substantial cryptic diversity and high endemism for the ice crawlers (Grylloblatta). Species retreat to nearby, highly localized refugia during glacial episodes, with postglacial range shifts only at high latitude. Warm and dry climatic periods in the paleoclimate record triggered an increase in lineage diversification, rather than glacial ev
ISSN:0307-6970
1365-3113
DOI:10.1111/syen.12341