Free Access
Anim. Res.
Volume 55, Number 3, May-June 2006
Page(s) 209 - 217
Published online 18 May 2006
References of  Anim. Res. 55 (2006) 209-217
  1. Amakiri S.F., Sweat gland measurements in some tropical and temperate breeds of cattle in Nigeria, Anim. Prod. 18 (1974) 285-291.
  2. Amakiri S.F., Mordi R., The rate of cutaneous evaporation in some tropical and temperate breeds of cattle in Nigeria, Anim. Prod. 20 (1975) 63-68.
  3. Amakiri S.F., Onwuka S.K., Quantitative studies of sweating rate in some cattle breeds in a humid tropical environment, Anim. Prod. 30 (1980) 383-388.
  4. Auxilia S.T., Hill P.B., Mast cell distribution, epidermal thickness and hair follicle density in normal canine skin: possible explanations for the predilection sites of atopic dermatitis? Vet. Dermatol. 11 (2000) 247-254 [CrossRef].
  5. Berbigier P., Bioclimatologie des ruminants domestiques en zone tropicale, INRA, 1988, pp. 1-237.
  6. Bhayani D.M., Patel J.M., Thermoregulatory structures and shrinkage percentage during processing of skin biopsie in the Kandrej cow, Indian J. Anim. Sci. 59 (1989) 339-343.
  7. Bhayani D.M., Vyas K.N., Effect of age and high ambient temperature on sweat gland characteristics in Gir cattle, Indian J. Anim. Sci. 60 (1990) 439-441.
  8. Carvalho F.A., Lammoglia M.A., Simoes M.J., Randel R.D., Breed affects thermoregulation and epithelial morphology in imported and native cattle subjected to heat stress, J. Anim. Sci. 73 (1995) 3570-3573 [PubMed].
  9. Daghash H.A., Salem I.A., Zenhom M., Salima A.E., Skin thickness and some hair coat characteristics of water Buffaloes and Jersey cows under subtropical condition, Buffalo J. 1 (1999) 81-91.
  10. D'Allaire S., DeRoth L., Physiological responses to treadmill exercise and ambient temperature in normal and malignant hyperthermia susceptible pigs, Can. J. Vet. Res. 50 (1986) 78-83 [PubMed].
  11. De Melo V.R., Valeri V., Orsi A.M., The fine structure of the swine sweat gland. I. The acini, Anat. Anz. 156 (1984) 51-56 [PubMed].
  12. Dowling D.F., The significance of the thickness of cattle skin, Aust. J. Agr. Sci. 62 (1964) 307-314.
  13. Holmes C.W., Close W.H., The influence of climatic variables on energy metabolism and associated aspects of productivity in the pig, in: Haresign W., Swan H., Lewis D. (Eds.), Nutrition and the climatic environment, Butterworths, London, 1977, pp. 51-73.
  14. Ingram D.L., Stimulation of cutaneous glands in the pig, J. Comp. Pathol. 77 (1967) 93-98 [PubMed].
  15. Ingram D.L., Legge K.F., The influence of deep temperatures and skin temperatures on peripheral blood flow in the pig, J. Physiol. 215 (1971) 693-707 [PubMed].
  16. Ingram D.L., Heat loss and its control in pigs. Heat loss and its control in pigs, in: Monteith J.L., Mount L.E. (Eds.), Butterworths, London, 1973, pp. 235-254.
  17. Johansson Moller M., Chaudary R., Hellmén E., Höyheim B., Chowdhary B., Andersson L., Pigs with the dominant white color phenotype carry a duplication of the KIT gene encoding the mast/stem cell growth receptor, Mamm. Genome 7 (1996) 822-830 [CrossRef] [PubMed].
  18. Komastu M., Yoshihara S., Akita T., Goto N., Immunological characteristics and skin structure of the Meishan pig: serum complement activity, serum C3 level and immune response, Anim. Sci. J. 70 (1999) 393-398.
  19. Littel R.C., Milliken G.A., Stroup W.W., Wolfinger R.D., SAS System for Mixed Models, SAS Institute Inc., Cary, NC, 1996.
  20. Monteiro-Riviere N.A., Stromberg M.W., Ultrastructure of the integument of the domestic pig (Sus scrofa) from one through fourteen weeks of age, Zbl. Vet. Med. C. Anat. Histol. Embryol. 14 (1985) 97-115.
  21. Mowafy M., Cassens R.G., Microscopic structure of pig skin, J. Anim. Sci. 41 (1975) 1281-1290 [PubMed].
  22. Nienaber J.A., Hahn G.L., Eigenberg R.A., Korthals R.L., Yen J.T., Harris D.L., Genetic and heat stress interaction effects on finishing swine, American Society of Agricultural Engineers, in: Bottcher R.W., Hoff S.J. (Eds.), Bloomington, Minnesota, 1997, pp. 1017-1023.
  23. Renaudeau D., Effects of short-term exposure to high ambient temperature and relative humidity on thermoregulatory responses of European (Large White) and Carribbean (Creole) restrictively fed growing pigs, Anim. Res. 54 (2005) 81-93 [EDP Sciences] [CrossRef].
  24. Renaudeau D., Giorgi M., Silou F., Weisbecker J.L., Influence du climat tropical et du type génétique sur les performances zootechniques et le comportement alimentaire du porc en croissance entre 45 et 90 kg, Journées de la Recherche Porcine en France 37 (2005) 259-266.
  25. Renaudeau D., Giorgi M., Silou F., Weisbecker J.L., Effect of breed (lean or fat pigs), sex, and season on performance and feeding behaviour of group housed growing pigs in a tropical climate, Asian-Aust. J. Anim. Sci. (in press).
  26. Saravanakumar V.R., Thiagarajan M., Comparison of sweat glands, skin characters and heat tolerance coefficients amongst Murrah, Surti and non-descript buffaloes, Indian J. Anim. Sci. 62 (1992) 625-628.
  27. Schmelz M., Petersen L.J., Neurogenic inflammation in human and rodent skin, Physiology 16 (2001) 33-37.
  28. SAS, SAS/STAT User's Guide (version 7, 4th ed.), SAS Institute Inc., Cary, NC, 1997.
  29. Taylor S.C., Skin of color: biology, structure, function, and implications for dermatologic disease, J. Am. Acad. Dermatol. 46 (2002) S41-S62 [CrossRef] [PubMed].