Informations et ressources scientifiques
sur le développement des zones arides et semi-arides

Titre : Phylogeography of the Night Lizard, Xantusia henshawi, from Southern California

Auteur : Lovich, Robert Edward,

Université de soutenance : Loma Linda University

Grade : Master of Science (MS) 1999

Résumé
The granite night lizard, Xantusia henshawi, is a highly specialized crevice dwelling lizard found in the Peninsular Ranges of southern California, United States and northern Baja California, Mexico. Generally, little morphological variation is seen in this species over a variety of habitats throughout its range, from elevations near sea level to approximately 2000 meters, and from Mediterranean habitats near the Pacific coast to arid desert habitat in the Colorado Desert of California. One exception is the variation seen in the subspecies X h. gracilis, which differs from X h. henshawi in morphology, allozymes, ecology, and natural history.

In this study, intraspecific variation within Xantusia henshawi was analyzed by constructing a genealogy using mitochondrial DNA (mtDNA) sequence data. A 379 base pair region of mtDNA (cytochrome b) was amplified and sequenced for lizards representing 13 localities across their known range in southern California. •The resulting gene tree was compared to the known geologic history of the area comprising the range of this species. Three (3) haploclades were found in the maximum parsimony (MP) analyses that were separated geographically from one another by two major geologic fault zones. It is believed that the unstable nature of habitat surrounding these faults has led to the unique evolution of the three haploclades. Using the evolutionary species concept, results of this study in combination with those of previous studies warrant the elevation of the subspecies Xantusia henshawi gracilis to full species, Xantusia gracilis. This study has assisted in identifying unknown barriers to gene flow that have contributed to the evolution of these species.

Présentation

Version intégrale (2,5 Mb)