Hostname: page-component-78c5997874-fbnjt Total loading time: 0 Render date: 2024-11-13T03:41:36.435Z Has data issue: false hasContentIssue false
  • English
  • Français

The effects of food intake during lactation and post weaning on the reproductive performance and hormone and metabolite concentrations of primiparous sows

Published online by Cambridge University Press:  02 September 2010

C. M. Carroll ,
P. B. Lynch ,
M. P. Boland ,
L. J. Spicer ,
F. H. Austin ,
N. Leonard ,
W. J. Enright  and
J. F. Roche
C. M. Carroll
Affiliation:
Teagasc, Moorepark Research Centre, Fermoy, Co. Cork, Ireland National Agricultural and Veterinary Biotechnology Programme, University College Dublin, Ireland
P. B. Lynch
Affiliation:
Teagasc, Moorepark Research Centre, Fermoy, Co. Cork, Ireland
M. P. Boland
Affiliation:
National Agricultural and Veterinary Biotechnology Programme, University College Dublin, Ireland
L. J. Spicer
Affiliation:
Department of Animal Science, Oklahoma State University, Stillwater, OK 74078, USA
F. H. Austin
Affiliation:
National Agricultural and Veterinary Biotechnology Programme, University College Dublin, Ireland
N. Leonard
Affiliation:
Teagasc, Moorepark Research Centre, Fermoy, Co. Cork, Ireland
W. J. Enright
Affiliation:
Teagasc, Grange Research Centre, Dunsany, Co. Meath, Ireland
J. F. Roche
Affiliation:
National Agricultural and Veterinary Biotechnology Programme, University College Dublin, Ireland
Get access

Abstract

The objective of this study was to investigate the effect of low food intake on post-weaning fertility and hormone concentrations in primiparous sows. One hundred and forty primiparous sows (Landrace × Large White) were randomly assigned to one of four treatment groups: (A) restricted to 3 kg food per day during lactation and 2 kg food per day post weaning (no. = 36); (B) restricted to 3 kg food per day during lactation and ad libitum feeding post weaning (no. = 33); (C) ad libitum feeding throughout with a mean voluntary food intake of 3·7 kg/day during lactation (no. = 36); and (D) ad libitum feeding throughout with a mean voluntary food intake of 4·9 kg/ day during lactation (no. = 35). Litters were standardized at eight to 10 pigs at 2 days post partum and were weaned at 27·2 (s.e. 0·5) days post partum. After weaning, sows were observed twice daily for signs of oestrus and were mated on the day(s) of standing oestrus. Six sows from each group were fitted with indwelling jugular cannulae 2 days before weaning. Blood samples were collected 1 day before weaning (W−l), 1 day after weaning (W+l) and 4 days after weaning (W+4), and these sows were slaughtered on W+4. Ovaries were recovered, follicles and corpora lutea were counted, and folUcular fluid collected. Sows given food at a restricted level (groups A and B) lost more backfat during lactation than sows given food ad libitum (groups C and D) (P < 0·01). Piglet weaning weights, weaning to conception intervals and the proportion of sows ovulating by W+4 were not significantly different among groups. In sows that did not ovulate, numbers of large follicles were not significantly different among groups but the low food intake (groups A, B and C) sows had more medium-sized follicles than high food intake (group D) sows (P < 0·01). FolUcular fluid concentrations of oestradiol, progesterone and insulin-like growth factor-1 (IGF-1) did not differ among groups (P > 0·05). Plasma non-esterified fatty acids concentrations were greater in groups C and D than in groups A and B on W−l, W+l and W+4. Serum insulin and plasma glucose concentrations were lower in groups C and D than in groups A and B on W−l and W+l, but were similar among groups on W+4. Serum growth hormone concentrations were lower in group D than group A and B on W−l and W+l but not W+4. Concentrations of IGF-1 in serum were greater in groups C and D than groups A and B on W−l and W+l but not W+4. It is concluded that low food intakes during lactation and post weaning affected body condition, serum hormones and metabolites and ovarian function of primiparous sows without dramatically affecting ovarian hormones or reproductive performance.

Keywords

lactationnutritionreproductive performancesows
Type
Research Article
Information
Animal Science , Volume 63 , Issue 2 , October 1996 , pp. 297 - 306
Copyright
Copyright © British Society of Animal Science 1996

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

Andres, C. J., Green, M. L., Clapper, J. A., Cline, T. R. and Diekman, M. A. 1991. Influence of daily injections of porcine somatotropin on growth, puberty and reproduction in gilts, journal of Animal Science 69: 37543761.CrossRefGoogle ScholarPubMed
Armstrong, J. D., Coffey, M. T., Esbenshade, K. L., Campbell, R. M. and Heimer, E. P. 1994. Concentrations of hormones and metabolites, estimates of metabolism, performance, and reproductive performance of sows actively immunized against growth hormone-releasing factor. Journal of Animal Science 72:15701577.CrossRefGoogle ScholarPubMed
Baidoo, S. K., Lythgoe, E. S., Kirkwood, R. N., Aherne, F. X. and Foxcroft, G. R. 1992. Effect of lactation feed intake on endocrine status and metabolite levels in sows. Canadian journal of Animal Science 72: 799807.CrossRefGoogle Scholar
Buonomo, F. C. and Baile, C. R. 1991. Influence of nutritional deprivation on insulin-like growth factor-I, somatotropin, and metabolic hormones in swine. Journal of Animal Science 69: 755760.CrossRefGoogle ScholarPubMed
Clowes, E. J., Aherne, F. X. and Foxcroft, G. R. 1994. Effect of delayed breeding on the endocrinology and fecundity of sows. Journal of Animal Science 72: 283291.CrossRefGoogle ScholarPubMed
Clutter, A. C., Spicer, L. J., Woltmann, M. D., Grimes, R. W., Hammond, J. M. and Buchanan, D. S. 1995. Plasma growth hormone, insulin-like growth factor I, and insulin-like growth factor binding proteins in pigs with divergent genetic merit for postweaning average daily gain. Journal of Animal Science 73:17761783.CrossRefGoogle ScholarPubMed
Coffey, M. T., Diggs, B. G., Handlin, D. L., Knabe, D. A., Maxwell, C. V., Noland, P. R., Prince, T. J. and Gromwell, G. L. 1994. Effect of dietary energy during gestation and lactation on reproductive performance of sows: a cooperative study. Journal of Animal Science 72: 49.CrossRefGoogle ScholarPubMed
Davis, S. L. 1988. Recent concepts in regulation of growth by GH and IGF. Journal of Animal Science (suppl. 3) 66: 8497.Google Scholar
Echternkamp, S. E., Spicer, L. J., Klindt, J., Vernon, R. K., Yen, J. T. and Buonomo, F. C. 1994. Administration of porcine somatotropin by a sustained-release implant: effect on follicular growth, concentrations of steroids and insulin-like growth factor I, and insulin-like growth factor binding protein activity in follicular fluid of control, lean, and obese gilts. Journal of Animal Science 72: 24312440.CrossRefGoogle ScholarPubMed
Enright, W. J., Quirke, J. F., Gluckman, P. D., Breier, B. H., Kennedy, L. G., Hart, I. C., Roche, J. F., Coer, A. and Allen, P. 1990. Effects of long-term administrations of pituitary-derived bovine growth hormone and estradiol on growth in steers. Journal of Animal Science 68: 23452356.CrossRefGoogle ScholarPubMed
Grant, S. A. 1989. Ovarian function in the gilt and lactating sow. Ph.D. thesis, University of Nottingham, UK.Google Scholar
Johnston, L. J., Fogwell, R. L., Weldon, W. C., Ames, N. K., Ullrey, D. E. and Miller, E. R. 1989. Relationship between body fat and post weaning interval to estrus in primiparous sows. Journal of Animal Science 67: 943950.CrossRefGoogle Scholar
Killen, J. H., Christenson, R. K. and Ford, J. J. 1992. Ovarian follicular changes after weaning in sows. Journal of Animal Science 70: 28012808.CrossRefGoogle ScholarPubMed
King, R. H. and Dunkin, A. C. 1986. The effect of nutrition on the reproductive performance of first-litter sows. 3. The response to graded increases in food intake during lactation. Animal Production 42:119125.Google Scholar
King, R. H. and Williams, I. H. 1984. The effect of nutrition on the reproductive performance of first-litter sows. 1. Feeding level during lactation and between weaning and mating. Animal Production 38: 241247.Google Scholar
Kirkwood, R. N. and Aherne, F. X. 1985. Energy intake, body composition and reproductive performance of the gilt. Journal of Animal Science 60: 15181529.CrossRefGoogle ScholarPubMed
Kirkwood, R. N. and Thacker, P. A. 1991. The influence of premating feeding level and exogenous insulin on the reproductive performance of sows. Canadian Journal of Animal Science 71: 249251.CrossRefGoogle Scholar
Kirkwood, R. N., Thacker, P. A., Guedo, B. L. and Laarveld, B. 1989. The effects of exogenous growth hormone on the endocrine status and the occurrence of estrus in gilts. Canadian Journal of Animal Science 69:931937.CrossRefGoogle Scholar
Kirkwood, R. N., Thacker, P. A. and Rajkumar, K. 1992. Effects of growth hormone and triiodothyronine on insulin-induced progesterone production by granulosa cells from prepubertal gilts. Canadian Journal of Animal Science 72: 589593.CrossRefGoogle Scholar
Klindt, H. 1986. Porcine growth hormone and prolactin secretion: the first month of postnatal life. Growth 50: 516525.Google ScholarPubMed
Korenman, S. G., Stevens, R. H., Carpenter, L. A., Robb, M., Niswender, G. D. and Sherman, B. M. 1974. Estradiol radioimmunoassay without chromatography procedure, validation and normal values. Journal of Clinical Endocrinology and Metabolism 38: 718723.CrossRefGoogle ScholarPubMed
Kreider, D. L. 1975. Endocrine changes associated with embryogenesis and heat stress in gilts. Master of Science thesis, Oklahoma State University, USA.Google Scholar
McCusker, R. H., Wagsness, P. J., Griel, L. C. and Kavanagh, J. F. 1985. Effects of feeding, fasting and refeeding on growth hormone and insulin in obese pigs. Physiology and Behavior 35: 383388.CrossRefGoogle ScholarPubMed
Paterson, A. M. and Pearce, G. P. 1994. Plasma hormone and metabolite concentrations and the interval from weaning to oestrus in primiparous sows. Animal Reproduction Science 36: 261279.CrossRefGoogle Scholar
Quesnel, H. and Prunier, A. 1995. Endocrine bases of lactational anoestrus in the sow. Reproduction, Nutrition, Development 35: 395414.CrossRefGoogle ScholarPubMed
Ronayne, E. and Hynes, N. 1990. Measurement of plasma progesterone concentrations by extraction and non-extraction radioimmunoassays. Irish Journal of Agricultural Research 29:109115.Google Scholar
Spicer, L. J. and Echternkamp, S. E. 1995. The ovarian insulin and insulin-like growth factor system with an emphasis on domestic animals. Domestic Animal Endocrinology 12: 223245.CrossRefGoogle ScholarPubMed
Statistical Analysis Systems Institute. 1985. SAS user's guide: statistics. Statistical Analysis Systems Institute Inc., Cary, NC.Google Scholar
Sterning, M., Rydhmer, L., Eliasson, L., Einarsson, S. and Andersson, K. 1990. A study on primiparous sows of the ability to show standing oestrus and to ovulate after weaning. Influences of loss of body weight and backfat during lactation and of litter size, litter weight gain and season. Ada Veterinaria Scandinavica 31: 227236.CrossRefGoogle Scholar
Terlouw, S. A., Rieke, A. R., Cantley, T. C., Miller, L. F. and Day, D. N. 1991. The effects of recombinant porcine somatotropin on reproductive function in gilts treated during the finishing phase. Journal of Animal Science 69: 42944298.CrossRefGoogle ScholarPubMed
Tokach, M. D., Pettigrew, J. E., Dial, G. D., Wheaton, J. E., Croker, B. A. and Johnson, L. J. 1992. Characterization of luteinizing hormone secretion in the primiparous lactating sow: relation to blood metabolites and return-to-oestrus interval. Journal of Animal Science 70: 21952201.CrossRefGoogle Scholar
Weldon, W. C., Lewis, A. J., Louis, G. F., Kovar, J. L., Giesemann, M. A. and Miller, P. S. 1994a. Postpartum hypophagia in primiparous sows: I. Effects of gestation feeding level on feed intake, feeding behavior, and plasma metabolite concentrations during lactation, journal of Animal Science 72: 387394.CrossRefGoogle ScholarPubMed
Weldon, W. C., Lewis, A. J., Louis, G. F., Kovar, J. L. and Miller, P. S. 1994b. Postpartum hypophagia in primiparous sows: II. Effects of feeding level during gestation and exogenous insulin on lactation feed intake, glucose tolerance, and epinephrine-stimulated release of nonesterified fatty acids and glucose. Journal of Animal Science 72: 395403.CrossRefGoogle ScholarPubMed