Agriculture Reference
In-Depth Information
Farmer, C., Petit, H.V., Weiler, H. and Capuco, A.V., 2007b. Effects of dietary supplementation
with flax during prepuberty on fatty acid profile, mammogenesis, and bone resorption in gilts.
Journal of Animal Science 85: 1675-1686.
Farmer, C. and Petitclerc, D., 2003. Specific window of prolactin inhibition in late gestation
decreases mammary parenchymal tissue development in gilts. Journal of Animal Science 81:
1823-1829.
Farmer, C., Petitclerc, D., Sorensen, M.T., Vignola, M. and Dourmad, J.Y., 2004. Impacts of dietary
protein level and feed restriction during prepuberty on mammogenesis in gilts. Journal of
Animal Science 82: 2343-2351.
Farmer, C., Sorensen, M.T. and Petitclerc, D., 2000. Inhibition of prolactin in the last trimester
of gestation decreases mammary gland development in gilts. Journal of Animal Science 78:
1303-1309.
Farmer, C., Sorensen, M.T., Robert, S. and Petitclerc, D., 1999. Administering exogenous porcine
prolactin to lactating sows: milk yield, mammary gland composition, and endocrine and
behavioral responses. Journal of Animal Science 77: 1851-1859.
Ford, Jr., J.A., Kim, S.W., Rodriguez-Zas, S.L. and Hurley, W.L., 2003. Quantification of mammary
gland tissue size and composition changes after weaning in sows. Journal of Animal Science
81: 2583-2589.
Fraser, D., Thompson, B.K. and Rushen, J., 1992. Teat productivity in second lactation sows:
influence of use or non-use of teats during the first lactation. Animal Production 55: 419-424.
Hacker, R.R. and Hill, D.L., 1972. Nucleic acid content of mammary glands of virgin and pregnant
gilts. Journal of Dairy Science 55: 1295-1299.
Harkins, M., Boyd, R.D. and Bauman, D.E., 1989. Effects of recombinant porcine somatotropin on
lactational performance and metabolite patterns in sows and growth of nursing pigs. Journal
of Animal Science 67: 1997-2008.
Harrell, R.J., Thomas, M.J. and Boyd, R.D., 1993. Limitations of sow milk yield on baby pig
growth. In: Cornell University (ed.) Proceedings of the Cornell Nutrition Conference for Feed
Manufacturers. October 19-21, 1993. Rochester, NY, USA, pp. 156-164.
Head, R.H. and Williams, I.H., 1991. Mammogenesis is influenced by pregnancy nutrition. In:
Batterham, E.S. (ed.) Manipulating pig production III. Australasian Pig Science Association,
Atwood, Australia, 33 pp.
Horigan, K.C., Trott, J.F., Barndollar, A.S., Scudder, J.M., Blauwiekel, R.M. and Hovey, R.C., 2009.
Hormone interactions confer specific proliferative and histomorphogenic responses in the
porcine mammary gland. Domestic Animal Endocrinology 37: 124-138.
Hovey, R.C. and Aimo, L., 2010. Diverse and active roles of adipocytes during mammary gland
growth and function. Journal of Mammary Gland Biology and Neoplasia 15: 279-290.
Hughes, P.E. and Varley, M.A., 1980. Lactation. In: Hughes, P.E. and Varley, M.A. (eds.)
Reproduction in the pig. Butterworth & Co., London, UK, pp. 136-158.
Hurley, W.L., Doane, R.M., O'Day-Bowman, M.B., Winn, R.J., Mojonnier, L.E. and Sherwood,
O.D., 1991. Effect of relaxin on mammary development in ovariectomized pregnant gilts.
Endocrinology 128: 1285-1290.
Ji, F., Hurley, W.L. and Kim, S.W., 2006. Characterization of mammary gland development in
pregnant gilts. Journal of Animal Science 84: 579-587.
Kensinger, R.S., Collier, R.J. and Bazer, F.W., 1986a. Ultrastructural changes in porcine mammary
tissue during lactogenesis. Journal of Anatomy 145: 49-59.
