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The influence of ambient temperature and humidity on the body temperature and water loss from two Australian lizards, Tiliqua rugosa (Gray) (Scincidae) and Amphibolurus barbatus cuvier (Agamidae)
. Warburg.M.R
13(2) pp.331 - 350
44 articles found in Crossref database.
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Kerr Gregory D.,
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Holmes Robert M,
Fergusson Brian, Johnstone Brian M
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Norval Gerrut, Gardner Michael G.
Austral Ecology. 2020 45(4). p.410
Panting thresholds of lizards—I. Some methodological and internal influences on the panting threshold of an agamid, Amphibolurus muricatus
Heatwole Harold,
Firth Bruce T, Webb Grahame J.W
Comparative Biochemistry and Physiology Part A: Physiology. 1973 46(4). p.799
Evaporative water loss in isolated populations of the coastal side-blotched lizard Uta stansburiana hesperis
Thorpe Gary S, Kontogiannis John E
Comparative Biochemistry and Physiology Part A: Physiology. 1977 57(1). p.133
The effects of weather conditions on dispersal behaviour of free‐ranging lizards (Tiliqua, Scincidae) in tropical Australia
Price‐Rees Samantha J.,
Lindström Tom,
Brown Gregory P.,
Shine Richard, Van Damme Raoul
Functional Ecology. 2014 28(2). p.440
Interactions between climate, host refuge use, and tick population dynamics
Kerr Gregory D., Bull C. Michael
Parasitology Research. 2006 99(3). p.214
Retinal ganglion cell topography and visual acuity of the sleepy lizard (Tiliqua rugosa)
New Shaun T. D., Bull C. Michael
Journal of Comparative Physiology A. 2011 197(6). p.703
Field tests of a general ectotherm niche model show how water can limit lizard activity and distribution
Kearney Michael R.,
Munns Suzanne L.,
Moore Danae,
Malishev Matthew, Bull C. Michael
Ecological Monographs. 2018 88(4). p.672
Desert reptiles: A case of adaptation or pre-adaptation?
Bradshaw S.D.
Journal of Arid Environments. 1988 14(2). p.155
A Theoretical Thermal Tolerance Function for Ectothermic Animals and Its Implications for Identifying Thermal Vulnerability across Large Geographic Scales
Camacho Agustín,
Angilletta Michael, Levy Ofir
Diversity. 2023 15(5). p.680
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Brown Amber O.,
Frankham Greta J.,
Stuart Barbara H., Ueland Maiken
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Caldwell Amanda J.,
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Weaver Savannah J,
Axsom Ian J,
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McIntyre Tess,
Chung Justin,
Telemeco Rory S,
Westphal Michael F,
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Conservation Physiology. 2024 12(1).
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Baeckens Simon,
Losos Jonathan B,
Irschick Duncan J,
Kolbe Jason J, Bock Dan G
Evolution. 2023 77(1). p.123
The visual perceptual range of a lizard, Tiliqua rugosa
Auburn Zonnetje M.,
Bull C. Michael, Kerr Gregory D.
Journal of Ethology. 2009 27(1). p.75
Hydration and evaporative water loss of lizards change in response to temperature and humidity acclimation
Weaver Savannah J.,
McIntyre Tess,
van Rossum Taylor,
Telemeco Rory S., Taylor Emily N.
Journal of Experimental Biology. 2023 226(20).
The ecology of sleep in non‐avian reptiles
Mohanty Nitya P.,
Wagener Carla,
Herrel Anthony, Thaker Maria
Biological Reviews. 2022 97(2). p.505
Thermal ecology of allopatric lizards (Sphenomorphus) in southeast Australia
Spellerberg Ian F.
Oecologia. 1972 9(4). p.385
Hypoxia progressively lowers thermal gaping thresholds in bearded dragons,Pogona vitticeps
Tattersall Glenn J., Gerlach Rebecca M.
Journal of Experimental Biology. 2005 208(17). p.3321
Movement patterns in the monogamous sleepy lizard (Tiliqua rugosa): effects of gender, drought, time of year and time of day
Kerr G. D., Bull C. M.
Journal of Zoology. 2006 269(2). p.137
Brain and Body Temperatures in a Panting Lizard
Crawford Eugene C.
Science. 1972 177(4047). p.431
Field observations of extended locomotor activity at sub‐optimal body temperatures in a diurnal heliothermic lizard (Tiliqua rugosa)
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Journal of Zoology. 2004 264(2). p.179
Microhabitat Use by the Scincid Lizard Tiliqua rugosa: Exploiting Natural Temperature Gradients beneath Plant Canopies
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Journal of Herpetology. 2004 38(4). p.536
Cloacal evaporative cooling: a previously undescribed means of increasing evaporative water loss at higher temperatures in a desert ectotherm, the Gila monster Heloderma suspectum
DeNardo Dale F.,
Zubal Tricia E., Hoffman Ty C.M.
Journal of Experimental Biology. 2004 207(6). p.945
Gross potentials recorded from the cochlea of the skinkTiliqua rugosa
Holmes Robert M., Johnstone Brian M.
Journal of Comparative Physiology A. 1984 154(5). p.719
Seasonal changes in the water and electrolyte metabolism of Amphibolurus lizards in the field
Bradshaw S.D
Comparative Biochemistry and Physiology. 1970 36(4). p.689
Studies of water loss in two species of lizards
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Comparative Biochemistry and Physiology. 1967 20(1). p.115
A worldwide and annotated database of evaporative water loss rates in squamate reptiles
Le Galliard Jean‐François,
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Brischoux François,
Carretero Miguel A.,
Dupoué Andréaz,
Gavira Rodrigo S. B.,
Lourdais Olivier,
Sannolo Marco,
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Global Ecology and Biogeography. 2021 30(10). p.1938
Dehydration alters behavioral thermoregulation and the geography of climatic vulnerability in two Amazonian lizards
Camacho Agustín,
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PLOS ONE. 2023 18(11). p.e0286502
Water and electrolyte budgets of a free-living desert lizard,Sauromalus obesus
Nagy Kenneth A.
Journal of Comparative Physiology. 1972 79(1). p.39
The mathematics of thermal sub-optimality: Nonlinear regression characterization of thermal performance of reptile metabolic rates
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Hydroregulation in a tropical dry-skinned ectotherm
Pintor Anna F. V.,
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Oecologia. 2016 182(4). p.925
Water loss in five species of lizards
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Comparative Biochemistry and Physiology Part A: Physiology. 1972 43(4). p.781
Desert Biology (1968)
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Osojnik Nadja,
Žagar Anamarija,
Carretero Miguel A.,
García-Muñoz Enrique, Vrezec Al
Herpetologica. 2013 69(4). p.445
Some factors affecting water economy in snakes
Cohen Allen C.
Comparative Biochemistry and Physiology Part A: Physiology. 1975 51(2). p.361
Panting thresholds of lizards. IV. The effect of dehydration on the panting threshold of Amphibolurus barbatus and Amphibolurus muricatus
Parmenter C. J., Heatwole Harold
Journal of Experimental Zoology. 1975 191(3). p.327
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Ecological and Evolutionary Physiology. 2024 97(2). p.118
Gross potentials recorded from the cochlea of the skinkTiliqua rugosa
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Ellis David J.,
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Chronobiology International. 2009 26(7). p.1369
Thermal ecology and diet of some xerophilous lizards from western New South Wales
MacMillen Richard E.,
Augee Michael L., Ellis Beverly A.
Journal of Arid Environments. 1989 16(2). p.193
The effect of sodium monofluoroacetate on plasma testosterone concentration in Tiliqua rugosa (gray)
Twigg L.E.,
King D.R., Bradley A.J.
Comparative Biochemistry and Physiology Part C: Comparative Pharmacology. 1988 91(2). p.343
Interseasonal variation in the circadian rhythms of locomotor activity and temperature selection in sleepy lizards, Tiliqua rugosa
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