Abstract
We studied the role of evolutionary history in shaping the geographic distributions of palm species in the Americas. The distributions of any two extant species have “evolved” from the distribution of their most recent common ancestor, and are thus not independent. How fast distributional similarity decays after speciation depends on the rates of niche evolution and dispersal. If dispersal is slow compared to the tempo of lineage diversification, distributions change little during clade diversification. Phylogenetic niche conservatism precludes distributional shifts in environmental space, and to the degree that distributions are limited by the niche, also in geographic space. Using phylogenetic turnover methods, we simultaneously analysed the distributions of all New World palms (n=547) and inferred to which degree phylogenetic niche conservatism and dispersal limitation, respectively, caused closely related species to have similar distributions. The phylogenetic relatedness of assemblages decreased both with increasing environmental dissimilarity and geographical distance, indicating that distributions are significantly influenced by macro-evolutionary processes. These include phylogenetically conserved tolerances to temperature extremes and seasonality as well as dispersal limitation on evolutionary timescales. Niche dimensions that are phylogenetically conserved are not necessarily the ones that are thought to be most important for controlling contemporary species distributions (e.g., water availability)
Original language | English |
---|---|
Publication date | 16 Apr 2011 |
Publication status | Published - 16 Apr 2011 |
Event | EUNOPS 11 - St. Petersburg, Russian Federation Duration: 16 Apr 2011 → 17 Apr 2011 |
Conference
Conference | EUNOPS 11 |
---|---|
Country/Territory | Russian Federation |
City | St. Petersburg |
Period | 16/04/2011 → 17/04/2011 |