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Species limits and hybridization in Andean leaf-eared mice (Phyllotis)
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  • Marcial Quiroga-Carmona,
  • Schuyler Liphardt,
  • Naim Bautista,
  • J Jayat,
  • Pablo Teta,
  • Jason Malaney,
  • Tabitha McFarland,
  • Joseph Cook,
  • Moritz Blumer,
  • Nathanael Herrera,
  • Zachary Cheviron,
  • Jeffrey Good,
  • Guillermo D'Elia,
  • Jay Storz
Marcial Quiroga-Carmona
Universidad Austral de Chile
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Schuyler Liphardt
University of Montana
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Naim Bautista
University of Nebraska-Lincoln
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J Jayat
Unidad Ejecutora Lillo (CONICET-Fundación M. Lillo). San Miguel de Tucumán. Tucumán. Argentina.
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Pablo Teta
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Jason Malaney
New Mexico Museum of Natural History & Science
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Tabitha McFarland
New Mexico Museum of Natural History & Science
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Joseph Cook
University of New Mexico
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Moritz Blumer
Cambridge University
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Nathanael Herrera
University of Montana
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Zachary Cheviron
University Montana
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Jeffrey Good
University of Montana
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Guillermo D'Elia
Universidad Austral de Chile
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Jay Storz
University of Nebraska-Lincoln

Corresponding Author:jstorz2@unl.edu

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Abstract

Leaf-eared mice (genus Phyllotis) are among the most widespread and abundant small mammals in the Andean Altiplano, but species boundaries and distributional limits are often poorly delineated due to sparse survey data from remote mountains and high-elevation deserts. Here we report a combined analysis of mitochondrial DNA variation and whole-genome sequence (WGS) variation in Phyllotis mice to delimit species boundaries, to assess the timescale of diversification of the group, and to examine evidence for interspecific hybridization. Estimates of divergence dates suggest that most diversification of Phyllotis occurred during the past 3 million years. Consistent with the Pleistocene Aridification hypothesis, our results suggest that diversification of Phyllotis largely coincided with climatically induced environmental changes in the mid- to late Pleistocene. Contrary to the Montane Uplift hypothesis, most diversification in the group occurred well after the major phase of uplift of the Central Andean Plateau. Species delimitation analyses revealed surprising patterns of cryptic diversity within several nominal forms, suggesting the presence of much undescribed alpha diversity in the genus. Results of genomic analyses revealed evidence of ongoing hybridization between the sister species Phyllotis limatus and P. vaccarum and suggest that the contemporary zone of range overlap between the two species may represent an active hybrid zone.