Phylogeography of Icelandic Agrostis (Poaceae) Reveals a New Geothermal Lineage

Premise of research. Geothermal areas create living conditions strikingly different from their surroundings, providing opportunities for studying organisms’ thermal adaptations and responses to climate warming. However, the origins of geothermal organisms are poorly known, limiting our ability to de...

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Bibliographic Details
Published in:International Journal of Plant Sciences
Main Authors: Nuppenau, Jan-Niklas, Höglund, Elsa, Minadakis, Nikolaos, Kainulainen, Kent, Humphreys, Aelys M.
Format: Article in Journal/Newspaper
Language:English
Published: Stockholms universitet, Institutionen för ekologi, miljö och botanik 2023
Subjects:
abiotic stress
colonization history
extreme environments
grasses
plastome
thermal tolerance
Biological Systematics
Biologisk systematik
Evolutionary Biology
Evolutionsbiologi
Iceland
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-222079
https://doi.org/10.1086/725164
Description
Summary:Premise of research. Geothermal areas create living conditions strikingly different from their surroundings, providing opportunities for studying organisms’ thermal adaptations and responses to climate warming. However, the origins of geothermal organisms are poorly known, limiting our ability to design and interpret experimental studies. To address this, we tested whether geothermal populations of Agrostis (Poaceae) in Iceland represent a single lineage (clade) and, if so, whether that lineage originated in adjacent, nonthermal areas or elsewhere. Methodology. We studied the phylogeography of A. stolonifera and A. vinealis from geothermally heated and nonheated areas in Iceland, using whole plastome data and Bayesian and likelihood phylogenetic analyses. Having identified an exclusively geothermal clade for A. stolonifera, we performed a common-garden experiment to test for heritable phenotypic differences between geothermal and nonthermal plants. Pivotal results. At least two lineages of A. stolonifera have colonized Iceland independently, one being exclusively geothermal and the other exclusively nonthermal. The geothermal lineage is phylogenetically isolated, and its geographical origin could not be determined. Grown in a common garden, geothermal A. stolonifera produced significantly shorter stolons than nonthermal plants. In contrast, geothermal A. vinealis did not form a clade. Instead, all Icelandic A. vinealis formed a clade with nonthermal A. vinealis from outside of Iceland, plus geothermal A. rossiae and A. scabra. Conclusions. We demonstrate the existence of an exclusively geothermal lineage of A. stolonifera, which also shows heritable phenotypic differences, but not of A. vinealis. These contrasting findings possibly reflect different growth forms and life histories. Our results provide a phylogenetic hypothesis to be tested with nuclear data and a framework for future experimental studies, highlighting the importance of a historical perspective for understanding the peculiar plant communities ...

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