Ecological niche differences between two polyploid cytotypes of Saxifraga rosacea
Premise of the study: Different cytotypes of a species may differ in their morphology, phenology, physiology and their tolerance of extreme environments. We studied the ecological niches of two subspecies of Saxifraga rosacea with different ploidy levels, the hexaploid Central European endemic ssp....
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| Language: | unknown |
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2019
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| Online Access: | http://nbn-resolving.org/urn:nbn:nl:ui:13-hv-ltl1 https://easy.dans.knaw.nl/ui/datasets/id/easy-dataset:302116 |
| Summary: | Premise of the study: Different cytotypes of a species may differ in their morphology, phenology, physiology and their tolerance of extreme environments. We studied the ecological niches of two subspecies of Saxifraga rosacea with different ploidy levels, the hexaploid Central European endemic ssp. sponhemica and the more widely distributed octoploid ssp. rosacea.Methods: For both cytotypes, we recorded local environmental conditions and mean plant trait values in populations across their areas of distribution, analyzed their distributions by niche modelling, studied their performance at two transplant sites with contrasting conditions, and tested their cold resistance experimentally. Key results: Mean annual temperature was higher in hexaploid than in octoploid populations and experiments indicated that frost tolerance of the hexaploid is lower than that of the octoploid. Reproduction of octoploids from Central Europe was higher than that of hexaploids at a transplant site in subarctic Iceland, whereas the opposite was true in temperate Luxembourg indicating adaptation of the octoploids to colder conditions. Temperature variables were also most important in niche models predicting the distribution of the two cytotypes. Genetic differences in survival among populations were larger for the octoploids than for the hexaploids in both field gardens, suggesting that greater genetic variability may contribute to the octoploid's larger distributional range.Conclusions: Our results support the hypotheses that different cytotypes may have different niches leading to spatial segregation and that higher ploidy levels can result in a broader ecological niche and greater tolerance of more extreme conditions. THIS DATASET IS ARCHIVED AT DANS/EASY, BUT NOT ACCESSIBLE HERE. TO VIEW A LIST OF FILES AND ACCESS THE FILES IN THIS DATASET CLICK ON THE DOI-LINK ABOVE |
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