COMING SOON! PQDT Open is getting a new home!

ProQuest Open Access Dissertations & Theses will remain freely available as part of a new and enhanced search experience at

Questions? Please refer to this FAQ.

Dissertation/Thesis Abstract

Thermal Ecology of Urosaurus ornatus (Ornate Tree Lizard), in the Northern Chihuahuan Desert on Indio Mountains Research Station, Texas
by Alva, Julia Sandoval, M.S., The University of Texas at El Paso, 2014, 58; 1564658
Abstract (Summary)

The main goal of this study was to determine the thermal ecology of the small tree lizard Urosaurus ornatus in a Chihuahuan Desert landscape. The study site was located at Indio Mountains Research Station (IMRS), Hudspeth County, Texas. We obtained body temperature (Tb) data on 385 lizards collected from April 2007 to June 2014 during the active period using a cloacal thermometer. Additionally, we recorded air temperature (Ta) and substrate temperature (Ts) of lizard microhabitats at the time of capture, and the operative temperature of lizard models left in the sun and shade from May to September 2014. My results showed that the mean Tb for all adult lizards was 33.6 ± 2.8°C, with a range of 24.0 to 40.2°C. This average Tb was similar but lower than those found in other populations in Southwestern United States. The results indicated that U. ornatus at IMRS displays mostly a thigmothermic behavior. Thermoregulatory behavior of these individuals showed that U. ornatus is a thermoconformer on IMRS. There was no statistical difference in mean Tb between males and females or between non-gravid females. However, there was a significant difference between lizards found in the sun and lizards found in the shade. It is expected that rising global temperatures will influence this region and therefore will have an impact on the population of U. ornatus too; possibly affecting aspects such as time for feeding, reproducing, and of course thermoregulating. Thus, it is important for us to understand the thermoregulatory needs of ectothermic organisms as they are dependent on the direct environmental temperatures for survival, especially since many recognize that rapid global warming has already been activated by human misuse of natural resources.

Indexing (document details)
Advisor: Johnson, Jerry D.
Commitee: Langford, Richard P., Lieb, Carl S.
School: The University of Texas at El Paso
Department: Biological Sciences
School Location: United States -- Texas
Source: MAI 53/06M(E), Masters Abstracts International
Subjects: Ecology, Zoology
Keywords: Ornate tree lizard, Texas, Thermal ecology, Urosaurus ornatus
Publication Number: 1564658
ISBN: 978-1-321-17747-3
Copyright © 2021 ProQuest LLC. All rights reserved. Terms and Conditions Privacy Policy Cookie Policy