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Publicatie

Niche evolution and historical biogeography of lady slipper orchids in North America and Eurasia

Tijdschriftbijdrage - Tijdschriftartikel

Aim
Dispersal and subsequent adaptation to local environmental and climatic conditions play major roles in the evolution and current-day distribution of plants and animals, but their relative importance is not always easy to disentangle. The aim of this study was to provide a comprehensive phylogenetic analysis of the terrestrial orchid genus Cypripedium to better understand the role of niche evolution and historical dispersal events in driving the radiation of the genus in North America and Eurasia.

Location
Northern Hemisphere.

Taxon
Cypripedium (Orchidaceae).

Methods
We used a relaxed molecular clock analysis to infer phylogenetic relationships among 45 Cypripedium species and to estimate divergence times. Niche modelling was used to assess the potential distribution of each species in both continents, whereas ancestral area reconstructions using BioGeoBEARS were used to estimate changes in historical biogeography. Subsequently, the ancestral state of niche conditions was assessed for each species using maximum likelihood methods and we tested for phylogenetic signal in the evolution of niche conditions using Blomberg's K and Pagel's λ. A mantel test was used to test for a correlation between phylogenetic distances and niche overlap in Cypripedium.

Results
We found that Cypripedium originated in Central America and underwent multiple dispersal events between North America and Eurasia after long-distance seed dispersal or dispersal via the Bering land bridge. The mountainous area of Southwest China provided refuge areas for Cypripedium orchids during episodes of increased glaciation. Our results further showed that Cypripedium has gradually increased its tolerance to seasonal temperature changes, providing evidence for significant niche evolution through time. No significant correlation between current niches and phylogenetic relatedness was observed.

Main conclusions
Our study provides clear evidence that repeated dispersal and adaptation to increased cooling after the Eocene−Oligocene Transition has contributed to the radiation of Cypripedium in the Northern Hemisphere.
Tijdschrift: J. Biogeogr.
ISSN: 0305-0270
Issue: 11
Volume: 48
Pagina's: 2727-2741
Jaar van publicatie:2021
Toegankelijkheid:Closed