The effect of liveweight and liveweight gain of ewes immediately post-weaning on the liveweight and survival of subsequent lambs
R. E. Hickson A , P. R. Kenyon A D , H. T. Blair A , J. E. Harding B , M. H. Oliver B , A. L. Jaquiery B , G. B. Nicoll C and K. G. Burt C
+ Author Affiliations
- Author Affiliations
A Sheep Research Centre, Institute of Veterinary, Animal and Biomedical Sciences, Massey University, Private Bag 11222, Palmerston North 4442, New Zealand.
B Liggins Institute, University of Auckland, Private Bag 92019, Auckland 1142, New Zealand.
C Landcorp Farming Ltd, PO Box 5349, Wellington 6145, New Zealand.
D Corresponding author. Email: p.r.kenyon@massey.ac.nz
Animal Production Science 52(7) 491-496 https://doi.org/10.1071/AN11215
Submitted: 11 October 2011 Accepted: 5 March 2012 Published: 10 April 2012
Abstract
Thirteen-hundred and sixty-seven Romney mixed-aged ewes were randomly allocated to one of two liveweight gain treatments (high vs maintenance) from weaning of one litter of lambs until 71 days before the subsequent breeding (a period of 42 days). The aims of this study were first to determine whether ewe liveweight or liveweight gain treatment before rebreeding affected the number and liveweight of lambs produced and reared in the following season, and second, to identify whether the birth rank of the dam or the grand-dam affected the number, survival or liveweight of their lambs. Liveweight gain during the 42-day treatment period was greater (P < 0.05) in the high than maintenance treatment (87 ± 6 vs 4 ± 6 g/day, respectively), although it did not influence (P > 0.05) number of fetuses, lambs born or reared per ewe or total weight of lambs born or weaned per ewe. Ewe liveweight at weaning (113 days before rebreeding), and liveweight gain between the weaning and rebreeding, explained only a minor proportion of the variation in lamb liveweight at birth and weaning in the following season. Birth rank of the ewe or of the ewe’s dam did not (P > 0.05) influence liveweight or number of lambs born or weaned. In conclusion, this experiment indicated that liveweight and liveweight gain from weaning until rebreeding in the flock investigated had only a very minor influence on lamb production. Therefore, there appears to be little advantage in specifically managing ewes during this period to gain considerable amounts of liveweight.
References
Afolayan RR, Fogarty NM, Ingham VM, Gilmour AR, Gaunt GM, Cummins LJ, Pollard T (2007) Genetic evaluation of crossbred lamb production. 3. Growth and carcass performance of second-cross lambs. Australian Journal of Agricultural Research 58, 457–466.| Genetic evaluation of crossbred lamb production. 3. Growth and carcass performance of second-cross lambs.Crossref | GoogleScholarGoogle Scholar |
Behrendt R, van Burgel AJ, Baily A, Barber P, Curnow M, Gordon DJ, Hocking Edwards JE, Oldham CM, Thompson AN (2011) On-farm paddock-scale comparisons across southern Australia confirm that increasing the nutrition of Merino ewes improves their reproduction and the lifetime performance of their progeny. Animal Production Science 51, 805–812.
| On-farm paddock-scale comparisons across southern Australia confirm that increasing the nutrition of Merino ewes improves their reproduction and the lifetime performance of their progeny.Crossref | GoogleScholarGoogle Scholar |
Corner RA, Kenyon PR, Stafford KJ, West DM, Morris ST (2006) The effect of maternal nutrition during gestation on the reproductive success of female progeny as 2-tooths. Proceedings of the New Zealand Society of Animal Production 66, 434–438.
Ferguson MB, Thompson AN, Gordon DJ, Hyder MW, Kearney GA, Oldham CM, Paganoni BL (2011) The wool production and reproduction of Merino ewes can be predicted from changes in liveweight during pregnancy and lactation. Animal Production Science 51, 763–775.
| The wool production and reproduction of Merino ewes can be predicted from changes in liveweight during pregnancy and lactation.Crossref | GoogleScholarGoogle Scholar |
Gonzalez R, Bonnet R, Guerra JC, Labuonora D (1986) Lifetime productivity of single- and twin-born Corriedale sheep and their dams. Australian Journal of Experimental Agriculture 26, 631–637.
| Lifetime productivity of single- and twin-born Corriedale sheep and their dams.Crossref | GoogleScholarGoogle Scholar |
Hernandez CE, Matthews LR, Oliver MH, Bloomfield FH, Harding JE (2010) Effects of sex, litter size and periconceptional ewe nutrition on offspring behavioural and physiological response to isolation. Physiology & Behavior 101, 588–594.
| Effects of sex, litter size and periconceptional ewe nutrition on offspring behavioural and physiological response to isolation.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXhtl2nsLrI&md5=5d185d2eb071cd867a022b2fab60a7b0CAS |
Hodgson J, Matthews PNP, Matthew C, Lucas RJ (1999) Pasture management. In ‘New Zealand pasture and crop science’. (Eds J White, J Hodgson) pp. 59–66. (Oxford University Press: Auckland)
Hopkins DL, Stanley DF, Martin LC, Gilmour AR (2007) Genotype and age effects on sheep meat production 1. Production and growth. Australian Journal of Experimental Agriculture 47, 1119–1127.
| Genotype and age effects on sheep meat production 1. Production and growth.Crossref | GoogleScholarGoogle Scholar |
Jaquiery AL, Oliver MH, Bloomfield FH, Harding JE (2011) Periconeptional events perturb postnatal growth regulation in sheep. Pediatric Research 70, 261–266.
| Periconeptional events perturb postnatal growth regulation in sheep.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3MXhtVSgu7vK&md5=db07cc10e121d889e049826b465ecd19CAS |
Kenyon PR, Webby RW (2007) Pastures and supplements in sheep production systems. In ‘Pasture and supplements for grazing animals’. New Zealand Society of Animal Production Occasional Publication No. 14. (Eds PV Rattray, IM Brookes, AM Nicol) pp. 255–276. (PrintMax: Christchurch, New Zealand)
Kenyon PR, Morel PCH, Morris ST (2004a) Effect of ewe liveweight and condition score at mating, and mid-pregnancy shearing, on birthweights and growth rates of twin lambs to weaning. New Zealand Veterinary Journal 52, 145–149.
| Effect of ewe liveweight and condition score at mating, and mid-pregnancy shearing, on birthweights and growth rates of twin lambs to weaning.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD2M7js1ahsg%3D%3D&md5=3498493cd59b0b91b0edb6c37f535e82CAS |
Kenyon PR, Morel PCH, Morris ST (2004b) The effect of individual liveweight and condition scores of ewes at mating on reproductive and scanning performance. New Zealand Veterinary Journal 52, 230–235.
| The effect of individual liveweight and condition scores of ewes at mating on reproductive and scanning performance.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD2M7js1ahtA%3D%3D&md5=766ed91b5d377ccc85c55a21ea319a34CAS |
Kenyon PR, Morris ST, Blair HT, Stafford KJ (2008) Does dam parity affect the performance of ewe progeny born to 2-year-old ewes. Australian Journal of Experimental Agriculture 48, 979–983.
| Does dam parity affect the performance of ewe progeny born to 2-year-old ewes.Crossref | GoogleScholarGoogle Scholar |
Kenyon PR, Cave LM, Blair HT, Lopez-Villalobos N, Nicoll GB (2011a) Does dam age, ewe birth rank and sex of a co-twin affect a ewe’s lifetime performance? Proceedings of the Association for the Advancement of Animal Breeding and Genetics 19, 458–461.
Kenyon PR, Van der Linden DS, Blair HT, Morris ST, Jenkinson CMC, Peterson SW, Mackenzie DDS, Firth EC (2011b) Effects of dam size and nutritional plane during pregnancy on lamb performance to weaning. Small Ruminant Research 97, 21–27.
| Effects of dam size and nutritional plane during pregnancy on lamb performance to weaning.Crossref | GoogleScholarGoogle Scholar |
Knight TW (1980) Effects of diet and liveweight on ovulation rates in Romney ewes. Proceedings of the New Zealand Society of Animal Production 40, 38–42.
Matthews PNP, Hodgson J, White JGH (1999) Livestock farming systems in New Zealand. In ‘New Zealand pasture and crop science’. (Eds J Hodgson, JGH White) pp. 133–153. (Oxford University Press: Auckland, New Zealand)
Oldham CM, Thompson AN, Ferguson MB, Gordon DJ, Kearney GA, Paganoni BL (2011) The birthweight and survival of Merino lambs can be predicted from the profile of liveweight change of their mothers during pregnancy. Animal Production Science 51, 776–783.
| The birthweight and survival of Merino lambs can be predicted from the profile of liveweight change of their mothers during pregnancy.Crossref | GoogleScholarGoogle Scholar |
Oliver MH, Hawkins P, Harding JE (2005) Periconceptional undernutrition alters growth trajectory and metabolic and endocrine responses to fasting in late gestation fetal sheep. Pediatric Research 57, 591–598.
| Periconceptional undernutrition alters growth trajectory and metabolic and endocrine responses to fasting in late gestation fetal sheep.Crossref | GoogleScholarGoogle Scholar |
Rattray PV, Jagusch KT, Small JF, Winn GW, Maclean KS (1980) Flushing responses from heavy and light ewes. Proceedings of the New Zealand Society of Animal Production 40, 34–37.
Rumball CWH, Harding JE, Oliver MH, Bloomfield FH (2008) Effects of twin pregnancy and periconceptional undernutrition on maternal metabolism, fetal growth and glucose-insulin axis function on ovine pregnancy. The Journal of Physiology 586, 1399–1411.
| Effects of twin pregnancy and periconceptional undernutrition on maternal metabolism, fetal growth and glucose-insulin axis function on ovine pregnancy.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1cXjs12iu7Y%3D&md5=b604a40018e3e9adadfb0a9e0c8e4247CAS |
Rumball CWH, Bloomfield FH, Oliver MH, Harding JE (2009) Different periods of periconceptional undernutrition have different effects on growth, metabolic and endocrine status in fetal sheep. Pediatric Research 66, 605–613.
| Different periods of periconceptional undernutrition have different effects on growth, metabolic and endocrine status in fetal sheep.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXhsValu7zK&md5=caad489684ba0c12690ed7da9df3ec57CAS |
Safari E, Fogarty NM, Gilmour AR, Atkins KD, Mortimer SI, Swan AA, Brien FD, Greef JC, van der Werf JHJ (2007) Across population genetic parameters for wool, growth, and reproduction traits in Australian Merino sheep. 1. Data structure and nongenetic effects. Australian Journal of Agricultural Research 58, 169–175.
Smeaton DC, Webby RW, Tarbotton IS (1999) Nutritional effects, in early pregnancy, on lamb production of Finnish Landrace × Romney ewes. Proceedings of the New Zealand Society of Animal Production 59, 108–110.
Smith JF (1991) A review of recent developments on the effect of nutrition on ovulation rate (the flushing effect) with particular reference to research at Ruakura. Proceedings of the New Zealand Society of Animal Production 51, 15–24.
Todd SE, Oliver MH, Jaquiery AL, Bloomfield FH, Harding JE (2009) Periconceptional undernutrition of ewes impairs glucose tolerance in their adult offspring. Pediatric Research 65, 409–413.
| Periconceptional undernutrition of ewes impairs glucose tolerance in their adult offspring.Crossref | GoogleScholarGoogle Scholar |
van der Linden DS, Kenyon PR, Jenkinson CMC, Peterson SW, Blair HT (2011) Carry-over effects of ewe nutrition and birth rank during the previous pregnancy on the milking performance during the subsequent lactation of Romney ewes. Animal Production Science 51, 102–110.
| Carry-over effects of ewe nutrition and birth rank during the previous pregnancy on the milking performance during the subsequent lactation of Romney ewes.Crossref | GoogleScholarGoogle Scholar |
