Glacial Refugia and Future Habitat Coverage of Selected Dactylorhiza Representatives (Orchidaceae)

The intensively discussed taxonomic complexity of the Dactylorhiza genus is probably correlated with its migration history during glaciations and interglacial periods. Previous studies on past processes affecting the current distribution of Dactylorhiza species as well as the history of the polyploi...

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Veröffentlicht in:	PloS one 2015-11, Vol.10 (11), p.e0143478
Hauptverfasser:	Naczk, Aleksandra M, Kolanowska, Marta
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Sprache:	eng
Schlagworte:	Alaska Analysis Balkan Peninsula Biogeography Climate Change Complex formation Complexity Current distribution Dactylorhiza Dactylorhiza incarnata Ecological monitoring Ecological niches Ecosystem Endangered & extinct species Entropy Europe Evolution Flowers & plants France Genetic diversity Genetics, Population Geography Glaciers Greenland Habitats Hypotheses Iceland Interglacial periods Last Glacial Maximum Maximum entropy Maximum entropy method Migration Mountains Newfoundland and Labrador Niches (Ecology) Orchidaceae Orchidaceae - growth & development Orchidaceae - physiology Plant reproduction Polyploidy Refugia Refugium Studies Taxa
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description	The intensively discussed taxonomic complexity of the Dactylorhiza genus is probably correlated with its migration history during glaciations and interglacial periods. Previous studies on past processes affecting the current distribution of Dactylorhiza species as well as the history of the polyploid complex formation were based only on molecular data. In the present study the ecological niche modeling (ENM) technique was applied in order to describe the distribution of potential refugia for the selected Dactylorhiza representatives during the Last Glacial Maximum. Additionally, future changes in their potential habitat coverage were measured with regard to three various climatic change scenarios. The maximum entropy method was used to create models of suitable niche distribution. A database of Dactylorhiza localities was prepared on the grounds of information collected from literature and data gathered during field works. Our research indicated that the habitats of majority of the studied taxa will decrease by 2080, except for D. incarnata var. incarnata, for which suitable habitats will increase almost two-fold in the global scale. Moreover, the potential habitats of some taxa are located outside their currently known geographical ranges, e.g. the Aleutian Islands, the western slopes of the Rocky Mountains, Newfoundland, southern Greenland and Iceland. ENM analysis did not confirm that the Balkans, central Europe or central Russia served as the most important refugia for individual representatives of the Dactylorhiza incarnata/maculata complex. Our study rather indicated that the Black Sea coast, southern Apennines and Corsica were the main areas characterized by habitats suitable for most of the taxa.
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Previous studies on past processes affecting the current distribution of Dactylorhiza species as well as the history of the polyploid complex formation were based only on molecular data. In the present study the ecological niche modeling (ENM) technique was applied in order to describe the distribution of potential refugia for the selected Dactylorhiza representatives during the Last Glacial Maximum. Additionally, future changes in their potential habitat coverage were measured with regard to three various climatic change scenarios. The maximum entropy method was used to create models of suitable niche distribution. A database of Dactylorhiza localities was prepared on the grounds of information collected from literature and data gathered during field works. Our research indicated that the habitats of majority of the studied taxa will decrease by 2080, except for D. incarnata var. incarnata, for which suitable habitats will increase almost two-fold in the global scale. 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Previous studies on past processes affecting the current distribution of Dactylorhiza species as well as the history of the polyploid complex formation were based only on molecular data. In the present study the ecological niche modeling (ENM) technique was applied in order to describe the distribution of potential refugia for the selected Dactylorhiza representatives during the Last Glacial Maximum. Additionally, future changes in their potential habitat coverage were measured with regard to three various climatic change scenarios. The maximum entropy method was used to create models of suitable niche distribution. A database of Dactylorhiza localities was prepared on the grounds of information collected from literature and data gathered during field works. Our research indicated that the habitats of majority of the studied taxa will decrease by 2080, except for D. incarnata var. incarnata, for which suitable habitats will increase almost two-fold in the global scale. 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subjects	Alaska Analysis Balkan Peninsula Biogeography Climate Change Complex formation Complexity Current distribution Dactylorhiza Dactylorhiza incarnata Ecological monitoring Ecological niches Ecosystem Endangered & extinct species Entropy Europe Evolution Flowers & plants France Genetic diversity Genetics, Population Geography Glaciers Greenland Habitats Hypotheses Iceland Interglacial periods Last Glacial Maximum Maximum entropy Maximum entropy method Migration Mountains Newfoundland and Labrador Niches (Ecology) Orchidaceae Orchidaceae - growth & development Orchidaceae - physiology Plant reproduction Polyploidy Refugia Refugium Studies Taxa
title	Glacial Refugia and Future Habitat Coverage of Selected Dactylorhiza Representatives (Orchidaceae)
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