Title page for ETD etd-9898-10551

Type of Document Dissertation
Author Mathies, Tom
Author's Email Address tmathies@vt.edu
URN etd-9898-10551
Title constraints on the evolution of viviparity in the lizard genus Sceloporus
Degree PhD
Department Biology
Advisory Committee
Advisor Name Title
Andrews, Robin M. Committee Chair
Cranford, Jack A. Committee Member
Denbow, Donald Michael Committee Member
Heath, Alan G. Committee Member
Siegel, Paul B. Committee Member
  • constraints
  • evolution
  • viviparity
  • Sceloporus
  • lizard
Date of Defense 1998-09-18
Availability unrestricted
Constraints on the Evolution of Viviparity in the Lizard Genus Sceloporus

Tom Mathies


I evaluated possible constraints on the evolution of viviparity in the lizard genus Sceloporus by experimentally extending the length of egg retention past the normal time of oviposition for a number of oviparous species. Observations also included a representative of the genus Urosaurus, the sister genus to Sceloporus. I determined the effects of retention on embryonic development, hatchlings, and gravid females. Results indicated that the proximate constraints on longer retention times and viviparity are 1) embryonic development becomes arrested or severely retarded in utero, and 2) the ability to maintain gravidity past the normal time of oviposition is limited in some species. Observations on Urosaurus further showed that extended egg retention results in hatchlings with traits that are associated with lower fitness.

I also tested the hypothesis that reproductive Sceloporus lower their body temperatures during activity because their normal body temperatures are detrimental to embryos. Observations on a viviparous species of Sceloporus indicated that the normal body temperature of the female was detrimental to embryonic development. This result is indicates that viviparity would be constrained in some squamate lineages if maternal body temperatures are too high for successful embryonic development.

I also evaluated the hypothesis that the evolutionary transition from oviparity to viviparity involves a "reduction" of the eggshell concurrent with longer durations of egg retention. If this hypothesis is correct, then attributes of eggshells that should enhance exchange of respiratory gases (i.e., thickness, density, permeability to water vapor) would be correlated with the maximal developmental stage that embryos are able to attain in the oviducts (i.e., stage of developmental arrest). The results of this study indicated that these features of shells do not determine the stage at which development becomes arrested. Thus, the results do not support the hypothesis that shell reduction occurs concurrently with longer periods of egg retention. The results are consistent with the alternative hypothesis that reduction of the eggshell occurs after viviparity has evolved.

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