Hostname: page-component-848d4c4894-5nwft Total loading time: 0 Render date: 2024-05-20T03:09:22.964Z Has data issue: false hasContentIssue false
  • English
  • Français

Effect of season of birth and sex on heart weight and body weight and their interrelationship in pigs reared in the tropics

Published online by Cambridge University Press:  02 September 2010

O. Alaku ,
J. Steinbach  and
P. J. Avery
O. Alaku
Affiliation:
University of Ibadan, Ibadan, Nigeria
J. Steinbach
Affiliation:
University of Ibadan, Ibadan, Nigeria
P. J. Avery
Affiliation:
Department of Applied Statistics, University of Reading, Whiteknights, Reading RG6 2AN
Get access

Abstract

A total of 142 pigs, born at four different times of the year, were slaughtered between 1 and 9 months of age to study the effects of season of birth and sex on heart weight and body weight in the equatorial climate of southern Nigeria.

Analysis of loge heart or body weight showed that season of birth influenced heart and body growth (P < 0·001). The differences occurred largely during the phase of rapid growth, with smaller differences at weaning and at 9 months. Pigs born during the high-rainfall period (May to September) showed stunted body and heart growth during the subsequent dry and warmer seasons. Those born during the dry seasons (November to March), but which passed their rapid-growth phase through the rainy, cooler seasons, were attaining market weights and adult heart weights earlier in life. However, all pigs with early growth reductions recovered, at least partially, later in life. The males had larger hearts at later ages than the females although the differences were not significant (P > 0·05). Allometric regression analyses for heart and body weight showed no seasonal effects but there was a small but significant sex effect (P < 0·001). The males had a smaller intercept and a larger slope when log, heart weight was fitted to log, body weight.

Pigs reared in this equatorial climate appeared to have higher heart weights relative to body weights than those reared in temperate regions. The highest recorded proportional value of 0·0032 is outside the range of 0·0023 to 00028 recorded in temperate regions. This suggests a probable physiological adaptation to increased work load on the heart under warm tropical conditions.

Type
Research Article
Information
Animal Production , Volume 38 , Issue 3 , June 1984 , pp. 495 - 502
Copyright
Copyright © British Society of Animal Science 1984

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Alaku, O. 1978. The effect of season of birth and age at slaughter on tissue deposition in pigs reared in a tropical environment. Ph.D. Thesis, Dep. Anim. Sci., Univ. lbadan.Google Scholar
Altman, P. L. and Dittmer, Dorothy S. 1964 Biology Data Book. Federation of American Societies for Experimental Biology, Bethesda, Md.Google ScholarPubMed
Babatunde, G. M., Olomu, M. J. and Oyenuga, V. A. 1972. Determination of the optimum crude protein requirement of pigs in a tropical environment. Anim Prod. 14: 5767.Google Scholar
Carlson, J. R. 1969. Growth regulation. In Animal Growth and Nutrition (ed. Hafez, E. S. E. and Dyre, I. A.), pp. 138155. Lea and Febiger, Philadelphia.Google Scholar
Deavers, S., Huggings, R. A. and Smith, E. L. 1972. Absolute and relative organ weights of growing beagles. Growth 36: 198208.Google Scholar
Gall, G. A. E. 1969. Genetics and growth. In Animal Growth and Nutrition (ed. Hafez, E. S. E. and Dyre, I. A.), pp. 6381. Lea and Febiger, Philadelphia.Google Scholar
Gordons, M. S. 1977. Animal Physiology: Principles and Adaptation. 3rd. ed. MacMillan, New York.Google Scholar
Goshal, N. G. 1975. Porcine heart and arteries. In Sisson and Grossman's the Anatomy of the Domestic Animals, Vol. 2 (ed. Getty, R.) 5th ed., pp. 13061342. Saunders, Philadelphia.Google Scholar
Hamlin, R. L. and Smith, R. 1970. Basic features of cardiovascular system. In Duke's Physiology of Domestic Animals (ed. Swensen, J.), 8th ed.. pp. 108111. Comstock Publishing, Cornell University Press.Ithaca, NY.Google Scholar
Hietman, H. and Hughes, E. H. 1949. The effects of air temperature and relative humidity on the physiological well being of swine. J. Anim. Sci. 8: 171181.CrossRefGoogle Scholar
Herrmann, G. R. 1926. The heart of the racing greyhound.Hypertrophy of the heart. Proc. Soc. exp. Biol.Med. 23: 856857.CrossRefGoogle Scholar
Holme, D. W. and Coey, W. E. 1967. The effects of environmental temperature and method of feeding on the performance and carcass composition of bacon pigs.Anim. Prod. 9: 209218.Google Scholar
Huxley, J. S. 1924. Constant differential growth-rates and their significance. Nature, Lond. 144: 895896.CrossRefGoogle Scholar
Johns, P. E., Smith, H. S. and Chesser, R. K. 1980. Effects of sex, age, habitat and body weight on kidney weight in White-tailed deer. Growth 44: 4453.Google ScholarPubMed
Ray, E. E., Roubicek, C. B. and Hanidi, M. 1968. Organ and gland weights of rats chronologically exposed to 22° and 35°C. Growth 32: 12.Google Scholar
Smith, R. and Hamlin, R. L. 1970. Circulation to skeletal muscle, circulatory adjustments during exercise, and cardiac enlargement. In Duke's Physiology of Domestic Animals (ed. Swensen, J.), 8th ed., pp. 237248. Comstock Publishing, Cornell University Press.Ithaca, NY.Google Scholar
Snedecor, G. W. and Cochran, W. G. 1967. Statistical Methods. 6th ed. Iowa State University Press, Ames, la.Google Scholar
Steinbach, J. 1971. Effects of season and breed on sow performance in the seasonal-equatorial climate of Southern Nigeria. J. agric. Sci., Camb. 77: 331336.CrossRefGoogle Scholar
Straub, G., Weniger, J. H., Tawfic, E. S. and Steinhauf, D. 1976. The effect of high environmental temperatures on fattening performance and growth of boars. Livestock Prod. Sci. 3: 6574.CrossRefGoogle Scholar
Van Lier, E. G., Krames, B. B. and Northrup, D. W. 1965. Differences in cardiac hypertrophy in exercise and in hypoxia. Circulation Res. 16: 244248.CrossRefGoogle Scholar
Winchester, C. F. 1964. Symposium on growth: environment and growth. J. Anim. Sci. 23: 254264.CrossRefGoogle Scholar