Laboratory hybridization among North American Whiptail Lizards, including aspidoscelis inornata arizonae × A. tigris marmorata (Squamata: Teiidae), ancestors of unisexual clones in nature

Authors

Charles J. Cole, American Museum of Natural History
Laurence M. Hardy, Louisiana State University in Shreveport
Herbert C. Dessauer, LSU Health Sciences Center - New Orleans
Harry L. Taylor, Regis University
Carol R. Townsend, American Museum of Natural History

Document Type

Article

Publication Date

10-1-2010

Abstract

The natural origin of diploid parthenogenesis in whiptail lizards has been through interspecific hybridization. Genomes of the parthenogens indicate that they originated in one generation, as the lizards clone the F1 hybrid state. In addition, hybridization between diploid parthenogens and males of bisexual species has resulted in triploid parthenogenetic clones in nature. Consequently, the genus Aspidoscelis contains numerous gonochoristic (= bisexual) species and numerous unisexual species whose closest relatives are bisexual, and from whom they originated through instantaneous sympatric speciation and an abrupt and dramatic switch in reproductive biology. Copyright © 2010 American Museum of Natural History.

Recommended Citation

Cole, Charles J.; Hardy, Laurence M.; Dessauer, Herbert C.; Taylor, Harry L.; and Townsend, Carol R., "Laboratory hybridization among North American Whiptail Lizards, including aspidoscelis inornata arizonae × A. tigris marmorata (Squamata: Teiidae), ancestors of unisexual clones in nature" (2010). Regis University Faculty Publications (comprehensive list). 867.
https://epublications.regis.edu/facultypubs/867