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Fertility and growth of nulliparous ewes after feeding red clover silage with high phyto-oestrogen concentrations

Published online by Cambridge University Press:  01 July 2014

E. Mustonen ,
S. Taponen ,
M. Andersson ,
A. Sukura ,
T. Katila  and
J. Taponen
E. Mustonen*
Affiliation:
Department of Production Animal Medicine, Faculty of Veterinary Medicine, University of Helsinki, Paroninkuja 20, FIN-04920 Saarentaus, Finland
S. Taponen
Affiliation:
Department of Production Animal Medicine, Faculty of Veterinary Medicine, University of Helsinki, Paroninkuja 20, FIN-04920 Saarentaus, Finland
M. Andersson
Affiliation:
Department of Production Animal Medicine, Faculty of Veterinary Medicine, University of Helsinki, Paroninkuja 20, FIN-04920 Saarentaus, Finland
A. Sukura
Affiliation:
Department of Veterinary Biosciences, Faculty of Veterinary Medicine, P.O. Box 66, FIN-00014 University of Helsinki, Finland
T. Katila
Affiliation:
Department of Production Animal Medicine, Faculty of Veterinary Medicine, University of Helsinki, Paroninkuja 20, FIN-04920 Saarentaus, Finland
J. Taponen
Affiliation:
Department of Production Animal Medicine, Faculty of Veterinary Medicine, University of Helsinki, Paroninkuja 20, FIN-04920 Saarentaus, Finland
*
E-mail: [email protected]
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Abstract

The study aimed to determine the effects of red clover (Trifolium pratense) silage with high phyto-oestrogen content on ewe performance during their first breeding season. Red clover silage containing formononetin, biochanin A, genistein, and daidzein was fed to 10 nulliparous ewes of the prolific Finnish Landrace breed before, during and after the breeding season, for a total of 5 months. A control group of 10 ewes was fed with grass silage. The mean numbers of foetuses per pregnancy were 2.1±0.7 and 2.2±0.8 for the red clover and control groups, respectively. The total mass of the uterus with its contents was significantly greater in ewes of the red clover group compared with those of the control group. This difference was mainly explained by the greater volume of foetal fluids. Serum progesterone concentration in the red clover group was significantly lower over the entire period analysed than in the control group. In conclusion, the fecundity of the ewes was not reduced by red clover feed with high phyto-oestrogen concentrations. The volume of foetal fluids increased that could increase the risk for vaginal prolapse before the term.

Keywords

ewered cloverphyto-oestrogenformononetinequol
Type
Research Article
Information
animal , Volume 8 , Issue 10 , October 2014 , pp. 1699 - 1705
Copyright
© The Animal Consortium 2014 

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References

Adams, NR 1990. Permanent infertility in ewes exposed to plant estrogens. Australian Veterinary Journal 67, 197201.Google Scholar
Adams, NR 1995. Detection of the effects of phytoestrogens on sheep and cattle. Journal of Animal Science 73, 15091515.Google Scholar
Adams, NR 1998. Clover phyto-oestrogens in sheep in Western Australia. Pure and Applied Chemistry 70, 18551862.CrossRefGoogle Scholar
Anwar, M 1994. Formononetin content in selected red clover strains and its effect on reproduction on ewes. Doctoral Thesis, Massey University, Palmerston North, New Zealand. Retrieved January 21, 2014, from http://mro.massey.ac.nz/bitstream/handle/10179/3015/01_front.pdf?sequence=2 Google Scholar
Bennetts, HW, Uuderwood, EJ and Shier, FL 1946. A specific breeding problem of sheep on subterranean clover pastures in Western Australia. Australian Veterinary Journal 22, 212.Google Scholar
Blom, E 1983. Pathological conditions in genital organs and sperm as a cause for the rejection of breeding bulls for import into and export from Denmark (an andrologic retrospective, 1958-1982). Nordisk Veterinaer Medicin 35, 105130.Google ScholarPubMed
Boone, WR, Hill, JR Jr, Kennedy, SW and Henricks, DM 1975. Influence of nutrition on reproduction in the ewe with special emphasis on progesterone concentration. Theriogenology 3, 140151.Google Scholar
Bulgin, M 1997. Diseases of the periparturient ewe. In Large animal theriogenology (ed. RS Youngquist and WR Therelfall), p. 699. Saunders Elsevier, St. Louis, MO, USA.Google Scholar
Dewhurst, RJ, Fisher, WJ, Tweed, JKS and Wilkins, RJ 2003. Comparison of grass and legume silages for milk production. 1. Production responses with different levels of concentrate. Journal of Dairy Science 86, 25982611.Google Scholar
Fraser, MD, Speijers, MHM, Theobald, VJ, Fychan, R and Jones, R 2004. Production performance and meat quality of grazing lambs finished on red clover, lucerne or perennial ryegrass swards. Grass and Forage Science 59, 345356.Google Scholar
Graves, ME, McLean, N, Jones, G and Martin, RC 2012. Pasture and sheep performance response to sod-seeding red clover (Trifolium pratense L.) or white clover (Trifolium repens L.) into naturalized pastures in eastern Canada. Animal Feed Science and Technology 177, 714.Google Scholar
Gutmann, I and Bergmayer, HU 1974. Determination of urea with glutamate dehydrogenase as indicator enzyme. In Methods of enzymatic analysis vol 4, 2nd edition ed. HU Bergmeyer), pp. 17941798. Academic Press Inc., New York.Google Scholar
Haibel, GK and Perkins, NR 1989. Real-time ultrasonic biparietal diameter of 2nd trimester Suffolk and Finnsheep fetuses and prediction of gestational-age. Theriogenology 32, 863869.Google Scholar
Halling, MA, Topp, CFE and Doyle, CJ 2004. Aspects of the productivity of forage legumes in Northern Europe. Grass and Forage Science 59, 331344.Google Scholar
Jackson, RL, Greiwe, JS and Schwen, RJ 2011. Emerging evidence of the health benefits of S-equol, an estrogen receptor β agonist. Nutrition Reviews 69, 432448.Google Scholar
Joubert, DM 1956. A study of pre-natal growth and development in the sheep. The Journal of Agricultural Science 47, 382428.Google Scholar
Lampe, JW 2010. Emerging research on equol and cancer. Journal of Nutrition 140, 13691372.Google Scholar
Lightfoot, RJ and Wroth, RH 1974. The mechanism of temporary infertility in ewes grazing oestrogenic subterranean clover prior to and during joining. Proceedings of the Australian Society of Animal Production 10, 130134.Google Scholar
Little, DL 1996. Reducing the effect of clover disease by strategic grazing of pastures. Australian Veterinary Journal 73, 192193.CrossRefGoogle ScholarPubMed
Lundh, T 1995. Metabolism of estrogenic isoflavones in domestic-animals. Proceedings of the Society for Experimental Biology and Medicine 208, 3339.Google Scholar
Marshall, T 1973. Clover disease – what we know and what we can do. Journal of Agriculture, Western Australia 14, 198206.Google Scholar
McEvoy, TG, Robinson, JJ, Aitken, RP, Findlay, PA and Robertson, IS 1997. Dietary excesses of urea influence the viability and metabolism of preimplantation sheep embryos and may affect fetal growth among survivors. Animal Reproduction Science 47, 7190.Google Scholar
Moorby, JM, Fraser, MD, Theobald, VJ, Wood, JD and Haresign, W 2004. The effect of red clover Trifolium pratense formononetin content on liveweight gain, carcass characteristics and muscle equol content of finishing lambs. Animal Science 79, 303313.Google Scholar
Mustonen, E, Jokela, T, Saastamoinen, I, Taponen, J, Taponen, S, Saloniemi, H and Wähälä, K 2006. High serum S-equol content in red clover fed ewes: the classical endocrine disruptor is a single enantiomer. Environmental Chemistry Letters 3, 154159.Google Scholar
Obst, JM and Seamark, RF 1975. Hormone studies on ewes grazing an oestrogenic (Yarloop clover) pasture during the reproductive cycle. Australian Journal of Biological Sciences 28, 279290.Google Scholar
Obst, JM, Seamark, RF and McGowan, CJ 1971. Plasma progesterone concentrations during pregnancy and parturation of ewes grazing yarloop clover. Journal of Reproduction and Fertility 26, 259262.Google Scholar
Obst, JM, Seamark, RF and McGowan, CJ 1972. Plasma hormone levels during pregnancy in ewes grazing oestrogenic clover. Proceedings of the Australian Society of Animal Production 9, 204208.Google Scholar
Parikka, P 2010. Lampaiden tuotosseurantatuloksia vuodelta 2009. Lammas ja Vuohi 3, 22.Google Scholar
Parr, RA, Davis, IF, Fairclough, RJ and Miles, MA 1987. Overfeeding during early pregnancy reduces peripheral progesterone concentration and pregnancy rate in sheep. Journal of Reproduction and Fertility 80, 317320.Google Scholar
Parr, RA, Davis, IF, Miles, MA and Squires, TJ 1993a. Feed intake affects metabolic clearance rate of progesterone in sheep. Research in Veterinary Science 55, 306310.Google Scholar
Parr, RA, Davis, IF, Miles, MA and Squires, TJ 1993b. Liver blood flow and metabolic clearance rate of progesterone in sheep. Research in Veterinary Science 55, 311316.Google Scholar
Shevah, Y, Black, WJM, Carr, WR and Land, RB 1975. The effects of nutrition on the reproductive performance on Finn x Dorset ewes. Journal of Reproduction and Fertility 45, 283288.Google Scholar
Shutt, DA and Braden, AW 1968. The significance of equol in the relation to the oestrogenic responses in sheep ingesting clover with a high formononetin content. Australian Journal of Agricultural Research 19, 545553.Google Scholar
Shutt, DA, Weston, RH and Hogan, JP 1970. Quantitative aspects of phyto-oestrogen metabolism in sheep fed on subterranean clover (Trifolium subterraneum, cultivar clare) or red clover (Trifolium pratense). Australian Journal of Agricultural Research 21, 714722.Google Scholar
Smith, DL, Stinefelt, BM, Blemings, KP and Wilson, ME 2006. Diet-induced alterations in progesterone clearance appear to be mediated by insulin signaling in hepatocytes. Journal of Animal Science 84, 11021109.CrossRefGoogle ScholarPubMed
Speijers, MHM, Fraser, MD, Theobald, VJ and Haresign, W 2005. Effects of ensiled forage legumes on performance of store finishing lambs. Animal Feed Science and Technology 120, 203216.Google Scholar
Tsao, R, Papadopoulos, Y, Yang, R, Young, JC and McRae, K 2006. Isoflavone profiles of red clovers and their distribution in different parts harvested at different growing stages. Journal of Agricultural and Food Chemistry 54, 57975805.Google Scholar
Vanhatalo, A, Gäddnäs, T and Heikkilä, T 2006. Microbial protein synthesis, digestion and lactation responses of cows to grass or grass-red clover silage diet supplemented with barley or oats. Agricultural and Food Science 15 (3), 252267.Google Scholar
Vanhatalo, A, Kuoppala, K, Toivonen, V and Shingfield, KJ 2007. Effects of forage species and stage of maturity on bovine milk fatty acid composition. European Journal of Lipid Science and Technology 109, 856867.Google Scholar
Watson, PF 1975. Use of a Giemsa stain to detect changes in acrosomes of frozen ram spermatozoa. Veterinary Record 97, 1215.Google Scholar