TY - JOUR
T1 - The formation of avian montane diversity across barriers and along elevational gradients
AU - Pujolar, Jose Martin
AU - Blom, Mozes P. K.
AU - Reeve, Andrew Hart
AU - Kennedy, Jonathan D.
AU - Marki, Petter Zahl
AU - Korneliussen, Thorfinn S.
AU - Freeman, Benjamin G.
AU - Sam, Katerina
AU - Linck, Ethan
AU - Haryoko, Tri
AU - Iova, Bulisa
AU - Koane, Bonny
AU - Maiah, Gibson
AU - Paul, Luda
AU - Irestedt, Martin
AU - Jonsson, Knud Andreas
PY - 2022
Y1 - 2022
N2 - Islands and mountaintops are often considered evolutionary dead ends. Using whole genomic data of 18 bird species and demographic models, the authors show that populations become isolated at high elevations, but disjunct montane populations maintain gene flow and thus the capacity for further colonisation.
Tropical mountains harbor exceptional concentrations of Earth's biodiversity. In topographically complex landscapes, montane species typically inhabit multiple mountainous regions, but are absent in intervening lowland environments. Here we report a comparative analysis of genome-wide DNA polymorphism data for population pairs from eighteen Indo-Pacific bird species from the Moluccan islands of Buru and Seram and from across the island of New Guinea. We test how barrier strength and relative elevational distribution predict population differentiation, rates of historical gene flow, and changes in effective population sizes through time. We find population differentiation to be consistently and positively correlated with barrier strength and a species' altitudinal floor. Additionally, we find that Pleistocene climate oscillations have had a dramatic influence on the demographics of all species but were most pronounced in regions of smaller geographic area. Surprisingly, even the most divergent taxon pairs at the highest elevations experience gene flow across barriers, implying that dispersal between montane regions is important for the formation of montane assemblages.
AB - Islands and mountaintops are often considered evolutionary dead ends. Using whole genomic data of 18 bird species and demographic models, the authors show that populations become isolated at high elevations, but disjunct montane populations maintain gene flow and thus the capacity for further colonisation.
Tropical mountains harbor exceptional concentrations of Earth's biodiversity. In topographically complex landscapes, montane species typically inhabit multiple mountainous regions, but are absent in intervening lowland environments. Here we report a comparative analysis of genome-wide DNA polymorphism data for population pairs from eighteen Indo-Pacific bird species from the Moluccan islands of Buru and Seram and from across the island of New Guinea. We test how barrier strength and relative elevational distribution predict population differentiation, rates of historical gene flow, and changes in effective population sizes through time. We find population differentiation to be consistently and positively correlated with barrier strength and a species' altitudinal floor. Additionally, we find that Pleistocene climate oscillations have had a dramatic influence on the demographics of all species but were most pronounced in regions of smaller geographic area. Surprisingly, even the most divergent taxon pairs at the highest elevations experience gene flow across barriers, implying that dispersal between montane regions is important for the formation of montane assemblages.
U2 - 10.1038/s41467-021-27858-5
DO - 10.1038/s41467-021-27858-5
M3 - Journal article
C2 - 35022441
SN - 2041-1723
VL - 13
JO - Nature Communications
JF - Nature Communications
M1 - 268
ER -