Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/evolution-of-viviparity-in-squamate-reptiles-sceloporus-spp-a-variant-cwQgp8jAB0
References (53)
-
R. Andrews, F. Cruz, M. Cruz, Felipe Rodríguez-Romero (1999)
Field and Selected Body Temperatures of the Lizards Sceloporus aeneus and Sceloporus bicanthalisJournal of Herpetology, 33
-
P. Hertz, R. Huey (1981)
Compensation for Altitudinal Changes in the Thermal Environment by Some Anolis Lizards on HispaniolaEcology, 62
-
(1993)
Lizard egg environments. In Lizard ecology: 51±72 -
L. Guillette (1982)
THE EVOLUTION OF VIVIPARITY AND PLACENTATION IN THE HIGH ELEVATION, MEXICAN LIZARD SCELOPORUS AENEUS -
R. Andrews (1998)
Geographic variation in field body temperature of sceloporus lizardsJournal of Thermal Biology, 23
-
(1956)
Nests and young of the six-lined racerunner -
T. Mathies, R. Andrews (1997)
Influence of pregnancy on the thermal biology of the lizard, Sceloporus jarrovi: why do pregnant females exhibit low body temperatures?Functional Ecology, 11
-
K. Schmidt, M. Smith (1951)
The British amphibians and reptiles -
J. Hubert (1962)
Table de developpement du lezard vivipare: Lacerta (Zootoca) vivipara Jacquin -
H. Weekes (1935)
A review of placentation among reptiles with particular regard to the function and evolution of the placentaJournal of Zoology, 105
-
R. Andrews, B. Rose (1994)
Evolution of Viviparity: Constraints on Egg RetentionPhysiological Zoology, 67
-
R. Shine, P. Harlow (1996)
Maternal Manipulation of Offspring Phenotypes via Nest‐Site Selection in an Oviparous LizardEcology, 77
-
D. Werner (1983)
Reproduction in the Iguana Conolophus subcristatus on Fernandina Island, Galapagos: Clutch Size and Migration CostsThe American Naturalist, 121
-
D. Chalcraft, R. Andrews (1999)
Predation on lizard eggs by ants: species interactions in a variable physical environmentOecologia, 119
-
(1971)
The life history of a neotropical slider turtle , Pseudemys scripta ( Schoepff ) , in Panama -
(1985)
Production Director -
(1986)
Reproductive in ̄uences on thermoregula -
R. M. Andrews, T. Mathies, C. P. Qualls, F. J. Qualls (1999)
Rates of embryonic development of Sceloporus lizards: do cold climates favor rapid development, 1999
-
J. Burger, R. Zappalorti (1986)
Nest Site Selection by Pine Snakes, Pituophis melanoleucus, in the New Jersey Pine BarrensCopeia, 1986
-
R. Andrews, C. Qualls, B. Rose (1997)
Effects of Low Temperature on Embryonic Development of Sceloporus LizardsCopeia, 1997
-
(1936)
Eggs and natural nests of the eastern -
J. Congdon, D. Tinkle, Gary Breitenbach, Richard Van, Loben Sels (1983)
NESTING ECOLOGY AND HATCHING SUCCESS IN THE TURTLE EMYDOIDEA BLANDINGI -
(1997)
In ̄uence of pregnancy -
Richard Jones, K. FitzGerald, Hobart Smith (1980)
EVOLUTION OF VIVIPARITY IN THE LIZARD GENUS SCELOPORUS -
S. Adolph (1990)
Influence of Behavioral Thermoregulation on Microhabitat Use by Two Sceloporus LizardsEcology, 71
-
Manríquez Morán, N. Leticia (1998)
Estrategias reproductoras en las hembras de dos especies hermanas de lacertilios: Sceloporus aeneus y S. bicanthalis -
J. Passioura (1927)
Soil Conditions and Plant GrowthNature, 120
-
B. Heulin, K. Osenegg, M. Lebouvier (1991)
Timing of embryonic development and birth dates in oviparous and viviparous strains of lacerta vivipara testing the predictions of an evolutionary hypothesisActa Oecologica-international Journal of Ecology, 12
-
L. Guillette, Guillermo Góngora (1986)
Notes on Oviposition and Nesting in the High Elevation Lizard, Sceloporus aeneusCopeia, 1986
-
W. Parton (1984)
PREDICTING SOIL TEMPERATURES IN A SHORTGRASS STEPPESoil Science, 138
-
E. Pearce, C. Smith (1984)
The Times Books world weather guide : a city-by-city guide that will enable you to forecast the weather you can expect in any part of the world at any time of the year -
D. Mink, M. Bean (1996)
SPECIES LIMITS, PHYLOGENETIC RELATIONSHIPS, AND ORIGINS OF VIVIPARITY IN THE SCALARIS COMPLEX OF THE LIZARD GENUS SCELOPORUS (PHRYNOSOMATIDAE: SAURIA) -
R. M. Andrews (1988)
Demographic correlates of variable egg survival for a tropical lizard, 76
-
(1972)
The temperatures of iguana nests and their relation to incubation optima and to nesting sites and season -
R. Shine, J. Bull (1979)
The Evolution of Live-Bearing in Lizards and SnakesThe American Naturalist, 113
-
(1993)
Nesting ecology of Sceloporus virgatus : importance of female behavior and nest physical environment -
F. Delacruz, L. Guillette, M. Cruz, G. Casas-Andreu (1988)
REPRODUCTIVE AND FAT-BODY CYCLES OF THE VIVIPAROUS LIZARD, SCELOPORUS-MUCRONATUS (SAURIA, IGUANIDAE)Journal of Herpetology, 22
-
B. Sinervo, S. Adolph (1994)
Growth Plasticity and Thermal Opportunity in Sceloporus LizardsEcology, 75
-
M. Cosman (1977)
The Medieval Health Handbook.Luisa Cogliati AranoThe Quarterly Review of Biology, 52
-
E. Amoroso, Frcp Frcog (1968)
The Evolution of ViviparityJournal of the Royal Society of Medicine, 61
-
(1982)
Spatial variation in egg mortality of the lizard Anolis limifrons -
R. Andrews, F. Cruz, M. Cruz (1997)
Body Temperatures of Female Sceloporus grammicus: Thermal Stress or Impaired Mobility?Copeia, 1997
-
C. Beuchat (1986)
Reproductive influences on the thermoregulatory behavior of a live-bearing lizardCopeia, 1986
-
R. Deslippe, R. M’Closkey, Stanislaw Dajczak, C. Szpak (1990)
Female tree lizards : oviposition and activity patterns during ythe breeding seasonCopeia, 1990
-
J. Sites, W. Archie, C. Cole, O. Villela (1992)
A review of phylogenetic hypotheses for lizards of the genus Sceloporus (Phrynosomatidae): implications for ecological and evolutionary studies -
D. Tinkle, J. Gibbons (1977)
The distribution and evolution of viviparity in reptiles -
(1995)
Thermal and reproductive -
A. Muth (1980)
Physiological Ecology of Desert Iguana (Dipsosaurus Dorsalis) Eggs: Temperature and Water RelationsEcology, 61
-
H. Fitch, W. Blair (1960)
The rusty lizard : a population studyCopeia, 1960
-
R. Andrews, T. Mathies, C. Qualls, F. Qualls (1999)
Rates of Embryonic Development of Sceloporus Lizards: Do Cold Climates Favor the Evolution of Rapid Development?Copeia, 1999
-
O. Sexton, L. Claypool (1978)
Nest sites of a northern population of an oviparous snake, Opheodrys vernalis (Serpentes, Colubridae)Journal of Natural History, 12
-
G. Packard, C. Tracy, J. Roth (1977)
THE PHYSIOLOGICAL ECOLOGY OF REPTILIAN EGGS AND EMBRYOS. AND THE EVOLUTION OF VIVIPARITY WITHIN THE CLASS REPTILIABiological Reviews, 52
-
W. Neill (1964)
Viviparity in Snakes: Some Ecological and Zoogeographical ConsiderationsThe American Naturalist, 98
- Publisher
- Wiley
- Copyright
- "Copyright © 2000 Wiley Subscription Services, Inc., A Wiley Company"
- ISSN
- 0952-8369
- eISSN
- 1469-7998
- DOI
- 10.1111/j.1469-7998.2000.tb01075.x
- Publisher site
- See Article on Publisher Site
Abstract
An alternative to the cold‐climate model for the evolution of viviparity is that the impetus for the initial transition from oviparity to viviparity is not an increase in the duration of egg retention but a shift in the location of nests to more superficial and thus warmer locations in the soil profile as temperature declines with increasing altitude or latitude. Shallower nest placement, however, would lead to increased egg mortality as a result of physiological stress or predation, and enhanced egg mortality would thus provide the initial benefit of extended egg retention. To test this hypothesis, I examined the thermal biology of three species of Sceloporus lizards living at high altitudes: S. virgatus (1800 m), S. aeneus (2800 m), and S. bicanthalis (3200 m). The oviparous S. virgatus and S. aeneus females laid eggs at depths of 6 and 2 cm, and mean body/nest temperatures were 24.6/25.2 °C and 19.9/20.8 °C, respectively. Because the initial increment in the duration of egg retention is presumably short, females of these oviparous species cannot initially keep their eggs appreciably warmer than they would be in nests. In contrast, mean temperatures of simulated nests (17.6 °C) of the viviparous S. bicanthalis were similar to the 17 °C low temperature threshold for development, and temperatures in some nests fell below freezing at night and rose to lethal levels during the day. Mean body temperatures of S. bicanthalis females were 20.1 °C; eggs retained during the entire developmental period would hatch 17 days sooner than they would if laid in a nest. Extended egg retention at the highest elevation site would thus provide two benefits: reduced mortality of eggs and accelerated development relative to that in a nest. These benefits, however, accrue because of the initial shift of nests from deeper to more superficial depths in the soil profile.
Journal
Journal of Zoology – Wiley
Published: Feb 1, 2000
Keywords: ; ; ; ;