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Journal Abstract Search

323 related items for PubMed ID: 15914658

  • 1.
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  • 2. Wiping behavior, skin resistance, and the metabolic response to dehydration in the arboreal frog Phyllomedusa hypochondrialis.
    Gomez NA, Acosta M, Zaidan F, Lillywhite HB.
    Physiol Biochem Zool; 2006; 79(6):1058-68. PubMed ID: 17041871
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  • 3. Tribute to R. G. Boutilier: skin colour and body temperature changes in basking Bokermannohyla alvarengai (Bokermann 1956).
    Tattersall GJ, Eterovick PC, de Andrade DV.
    J Exp Biol; 2006 Apr; 209(Pt 7):1185-96. PubMed ID: 16547291
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  • 4. Comparative analysis of cutaneous evaporative water loss in frogs demonstrates correlation with ecological habits.
    Young JE, Christian KA, Donnellan S, Tracy CR, Parry D.
    Physiol Biochem Zool; 2005 Apr; 78(5):847-56. PubMed ID: 16052451
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  • 6. Body temperature and resistance to evaporative water loss in tropical Australian frogs.
    Tracy CR, Christian KA, Betts G, Tracy CR.
    Comp Biochem Physiol A Mol Integr Physiol; 2008 Jun; 150(2):102-8. PubMed ID: 16829148
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  • 7. Behavioral, molecular and integrative mechanisms of amphibian osmoregulation.
    Hillyard SD.
    J Exp Zool; 1999 Jun 01; 283(7):662-74. PubMed ID: 10222590
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  • 8. Skin of the Red Eye Tree Frog Agalychnis Callidryas (Hylidae, Phyllomedusinae) Contains Lipid Glands of the Type Described in the Genus Phyllomedusa.
    Rota E, Tanteri G, Montori G, Giachi F, Delfino G, Sever DM.
    Anat Rec (Hoboken); 2017 Mar 01; 300(3):503-506. PubMed ID: 27741569
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  • 11. Cocoon and epidermis of Australian Cyclorana frogs differ in composition of lipid classes that affect water loss.
    Sadowski-Fugitt LM, Tracy CR, Christian KA, Williams JB.
    Physiol Biochem Zool; 2012 Mar 01; 85(1):40-50. PubMed ID: 22237288
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  • 12. Convergent evolution across the Australian continent: ecotype diversification drives morphological convergence in two distantly related clades of Australian frogs.
    Vidal-García M, Keogh JS.
    J Evol Biol; 2015 Dec 01; 28(12):2136-51. PubMed ID: 26450269
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  • 13. The structure of the skin of the tree frog (Hyla arborea arborea L.).
    Goniakowska-Witalińska L, Kubiczek U.
    Ann Anat; 1998 Jun 01; 180(3):237-46. PubMed ID: 9645299
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  • 14. The cocoon of the fossorial frog Cyclorana australis functions primarily as a barrier to water exchange with the substrate.
    Reynolds SJ, Christian KA, Tracy CR.
    Physiol Biochem Zool; 2010 Jun 01; 83(5):877-84. PubMed ID: 20687829
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  • 15. Water loss and nitrogen excretion in sharp-nosed reed frogs (Hyperolius nasutus: anura, Hyperoliidae).
    Withers PC, Hillman SS, Drewes RC, Sokol OM.
    J Exp Biol; 1982 Apr 01; 97():335-43. PubMed ID: 7086345
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  • 16. Sexually dimorphic basal water absorption at the isolated pelvic patch of Japanese tree frog, Hyla japonica.
    Kohno S, Fujime M, Kamishima Y, Iguchi T.
    J Exp Zool A Comp Exp Biol; 2004 May 01; 301(5):428-38. PubMed ID: 15114650
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  • 17. Field hydration state varies among tropical frog species with different habitat use.
    Tracy CR, Tixier T, Le Nöene C, Christian KA.
    Physiol Biochem Zool; 2014 May 01; 87(2):197-202. PubMed ID: 24642537
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  • 18. Serous cutaneous glands in new world hylid frogs: an ultrastructural study on skin poisons confirms phylogenetic relationships between Osteopilus septentrionalis and Phrynohyas venulosa.
    Delfino G, Brizzi R, Nosi D, Terreni A.
    J Morphol; 2002 Aug 01; 253(2):176-86. PubMed ID: 12112131
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  • 19. Fibers in spinal nerves of tree frogs: Eleutherodactylus and Hyla.
    Sutherland RM, Nunnemacher RF.
    J Comp Neurol; 1981 Nov 01; 202(3):415-20. PubMed ID: 7298907
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  • 20. Odorous secretions in anurans: morphological and functional assessment of serous glands as a source of volatile compounds in the skin of the treefrog Hypsiboas pulchellus (Amphibia: Anura: Hylidae).
    Brunetti AE, Hermida GN, Iurman MG, Faivovich J.
    J Anat; 2016 Mar 01; 228(3):430-42. PubMed ID: 26555696
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