Primary hybrid zone formation in Tephroseris helenitis (Asteraceae), following postglacial range expansion along the central Northern Alps
Autor: | Andreas Tribsch, Matthias Affenzeller, Georg Pflugbeil, Hans Peter Comes |
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Rok vydání: | 2021 |
Předmět: |
0106 biological sciences
0301 basic medicine Range (biology) Climate Asteraceae 010603 evolutionary biology 01 natural sciences 03 medical and health sciences Hybrid zone Refugium (population biology) Tephroseris Genetics Humans Speciation and Hybridization Amplified Fragment Length Polymorphism Analysis geographic clines palaeodistribution modelling Transect Ecosystem Ecology Evolution Behavior and Systematics fruit/seed dimorphism Ecological niche biology Ecology alpine forelands Genetic Variation population genetics Last Glacial Maximum Cline (biology) biology.organism_classification Phylogeography 030104 developmental biology Refugium Original Article ORIGINAL ARTICLES hybrid zone |
Zdroj: | Molecular Ecology |
ISSN: | 1365-294X 0962-1083 |
Popis: | Distinguishing between secondary versus primary hybrid zone formation remains a challenging task as, for instance, the time window in which these historical (vicariant) versus contemporary (environmental‐selective) processes are distinguishable may be relatively narrow. Here, we examine the origin and structure of a transition zone between two subspecies of Tephroseris helenitis along the central Northern Alps, using molecular (AFLP) and morphological (achene type) data in combination with ecological niche models (ENMs) to hindcast ranges at the Last Glacial Maximum (LGM) and mid‐Holocene. Samples were collected over a c. 350 km long transect, largely covered by ice during the LGM. Genetically nonadmixed individuals of subspp. helenitis versus salisburgensis dominated the westernmost versus eastern transect areas, with admixed individuals occurring in between. Clines for achene morphology and outlier loci potentially under climate‐driven selection were steep, largely noncoincidental, and displaced to the east of the cline centre for neutral AFLPs. During the LGM, ssp. helenitis should have been able to persist in a refugium southwest of the transect, while suitable habitat for ssp. salisburgensis was apparently absent at this time. Together with patterns of genetic and clinal variation, our ENM data are suggestive of a primary hybrid zone that originated after the species’ postglacial, eastward expansion. The observed clinal changes may thus reflect random/nonadaptive processes during expansion and selection on particular loci, and possibly achene type, in response to a long‐term, west‐to‐east climate gradient in the direction of more stressful (e.g., wetter/cooler) conditions. Overall, this study adds to the vast hybrid zone literature a rare example of a hybrid zone caused by primary differentiation within a plant species, underlaid by historical range expansion. |
Databáze: | OpenAIRE |
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