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How mountains shape biodiversity: The role of the Andes in biogeography, diversification, and reproductive biology in South America's most species‐rich lizard radiation (Squamata: Liolaemidae)
Author(s) -
Esquerré Damien,
Brennan Ian G.,
Catullo Renee A.,
TorresPérez Fernando,
Keogh J. Scott
Publication year - 2019
Publication title -
evolution
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.84
H-Index - 199
eISSN - 1558-5646
pISSN - 0014-3820
DOI - 10.1111/evo.13657
Subject(s) - biology , biogeography , biodiversity , cladogenesis , squamata , ecology , allopatric speciation , biome , ecological niche , clade , lizard , biodiversity hotspot , lacertidae , lineage (genetic) , evolutionary biology , phylogenetics , ecosystem , habitat , biochemistry , population , demography , sauria , sociology , gene
Testing hypotheses on drivers of clade evolution and trait diversification provides insight into many aspects of evolutionary biology. Often, studies investigate only intrinsic biological properties of organisms as the causes of diversity, however, extrinsic properties of a clade's environment, particularly geological history, may also offer compelling explanations. The Andes are a young mountain chain known to have shaped many aspects of climate and diversity of South America. The Liolaemidae are a radiation of South American reptiles with over 300 species found across most biomes and with similar numbers of egg‐laying and live‐bearing species. Using the most complete dated phylogeny of the family, we tested the role of Andean uplift in biogeography, diversification patterns, and parity mode of the Liolaemidae. We find that the Andes promoted lineage diversification and acted as a species pump into surrounding biomes. We also find strong support for the role of Andean uplift in boosting the species diversity of these lizards via allopatric fragmentation. Finally, we find repeated shifts in parity mode associated with changing thermal niches, with live‐bearing favored in cold climates and egg‐laying favored in warm climates. Importantly, we find evidence for possible reversals to oviparity, an evolutionary transition believed to be extremely rare.