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Long-term effects on heifer performance of an enhanced-growth feeding programme applied during the preweaning period

Published online by Cambridge University Press:  18 May 2009

Marta Terré ,
Carolina Tejero  and
Alex Bach
Marta Terré
Affiliation:
Grup de Recerca en Nutrició, Maneig, i Benestar Animal, Unitat de Remugants, IRTA (Institut de Recerca i Tecnologia Agroalimentàries), 08140Caldes de Montbui, Spain
Carolina Tejero
Affiliation:
Rancho Las Nieves, 50550Mallén, Spain
Alex Bach*
Affiliation:
Grup de Recerca en Nutrició, Maneig, i Benestar Animal, Unitat de Remugants, IRTA (Institut de Recerca i Tecnologia Agroalimentàries), 08140Caldes de Montbui, Spain ICREA (Institució Catalana de Recerca i Estudis Avançats), 08010Barcelona, Spain
*
*For correspondence; e-mail: [email protected]
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Abstract

Sixty female dairy calves (body weight, BW, 43·2±0·58 kg and age 9·8±0·61 d) were arranged in two groups to compare the short-term and long-term effects of an enhanced-growth feeding programme (EF) with those of a conventional-growth feeding programme (CF). After 1 week of adaptation to a milk replacer (MR), CF calves were fed 4 l/d of MR (25% crude protein, CP; 19·2% ether extract) at 12% dry matter (DM) from days 1 to 27 and 2 l/d at 12% DM from days 28 to 34, and the EF calves were offered the same MR at 18% DM: 4 l/d from days 1 to 6, 6 l/d from days 7 to 13, 7 l/d from days 14 to 20, 6 l/d from days 21 to 27 and 3 l/d from day 28 to weaning at day 34 of the study (50 d of age). Individual calf starter (20·7% CP) intake was recorded daily from the beginning until day 41 of study (57 d of age). Then, calves were placed in groups of six and they received a total mixed ration (TMR) containing 18·5% CP until day 56 d of study (72 d of age). Then, heifers were moved to larger pens and were fed the same TMR in both treatments at each subsequent stage of growth throughout the study. Calves were weighed weekly until day 56 of study and before every pen change (days 94, 149, 200, 387 of study). When heifers were 400 d old and weighed >380 kg, they were moved to a breeding pen where oestruses were checked three times a day. Heifers were inseminated 12 h after the detection of oestrus. One month before calving, heifers were returned to their original farm and milk yield at 305 days in milk was recorded from 28 cows. Starter intake was greater (P<0·001) in CF than in EF calves (0·79 v. 0·29±0·043 kg/d, respectively) during the preweaning period, but TMR consumption was similar in both treatments from days 42 to 56 of study. BW of EF calves was greater (P<0·01) than that of CF calves at weaning (76·4 v. 71·6±1·10 kg, respectively), but BW was not different at day 387 of study (405 d of age) (406·3 v. 401·3±4·05 kg, respectively). There were numerical differences in age at first breeding, fertility at first artificial insemination, age at pregnancy, and milk yield but some of these differences might have reached statistical significance with more replication.

Keywords

Dairy calvesenhanced-feedingage at first breeding
Type
Research Article
Information
Journal of Dairy Research , Volume 76 , Issue 3 , August 2009 , pp. 331 - 339
Copyright
Copyright © Proprietors of Journal of Dairy Research 2009

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References

Abeni, F, Calamari, L, Stefanini, L & Pirlo, G 2000 Effects of daily gain in pre- and postpubertal replacement dairy heifers on body condition score, body size, metabolic profile, and future milk production. Journal of Dairy Science 83 14681478CrossRefGoogle ScholarPubMed
AOAC 1990 Official Methods of Analysis. Arlington VA, USA: Association of Official Analytical ChemistsGoogle Scholar
Bartlett, KS, McKeith, FK, VandeHaar, MJ, Dahl, GE & Drackley, JK 2006 Growth and body composition of dairy calves fed milk replacers containing different amounts of protein at two feeding rates. Journal of Animal Science 84 14541467CrossRefGoogle ScholarPubMed
Bar-Peled, U, Robinzon, B, Maltz, E, Tagari, H, Folman, Y, Bruckental, I, Voet, H, Gacitua, H & Lehrer, AR 1997 Increased weight gain and effects on production parameters of Holstein heifer calves that were allowed to suckle from birth to six weeks of age. Journal of Dairy Science 80 25232528CrossRefGoogle ScholarPubMed
Blome, RM, Drackley, JK, McKeith, FK, Hutjens, MF & McCoy, GC 2003 Growth, nutrient utilization, and body composition of dairy calves fed milk replacers containing different amounts of protein. Journal of Animal Science 81 16411655CrossRefGoogle ScholarPubMed
Brown, EG, VandeHaar, MJ, Daniels, KM, Liesman, JS, Chapin, LT, Akers, RM, Pearson, RE & Weber Nielsen, MS 2005a Effect of increasing energy and protein intake on mammary development in heifer calves. Journal of Dairy Science 88 595603CrossRefGoogle ScholarPubMed
Brown, EG, VandeHaar, MJ, Daniels, KM, Liesman, JS, Chapin, LT, Keisler, DH & Weber Nielsen, MS 2005b Effect of increasing energy and protein intake on body growth and carcass composition of heifer calves. Journal of Dairy Science 88 585594CrossRefGoogle ScholarPubMed
Burrin, JM & Price, CP 1985 Measurement of blood glucose. Annals of Clinical Biochemistry 22 327342CrossRefGoogle ScholarPubMed
Chua, B, Coenen, E, van Delen, J & Weary, DM 2002 Effect of pair versus individual housing on the behavior and performance of dairy calves. Journal of Dairy Science 85 360364CrossRefGoogle ScholarPubMed
Cowles, KE, White, RA, Whitehouse, NL & Erickson, PS 2006 Growth characteristics of calves fed an intensified milk replacer regimen with additional lactoferrin. Journal of Dairy Science 89 48354845CrossRefGoogle ScholarPubMed
Davis, CL & Drackley, JK 1998 The Development, Nutrition and Management of the Young Calf, First Edition. Ames IA, USA: Iowa State University PressGoogle Scholar
Davis-Rincker, L, VandeHaar, M, Wolf, C, Liesman, J, Chapin, L & Weber Nielsen, M 2006 Effects of an intensified compared to a moderate feeding program during the preweaning phase on long-term growth, age at calving, and the first lactation milk production. Journal of Dairy Science 84 438 (Abstr)Google Scholar
Diaz, MC, Van Amburgh, ME, Smith, JM, Kelsey, JM & Hutten, EL 2001 Composition of growth of Holstein calves fed milk replacer from birth to 105-kilogram body weight. Journal of Dairy Science 84 830842CrossRefGoogle ScholarPubMed
Drackley, JK, Pollard, BC, Dann, HM & Stamey, JA 2007 First-lactation milk production for cows fed control or intensified milk replacer programs as calves. Journal of Dairy Science 90 614 (Suppl. 1) (Abstr)Google Scholar
Ettema, JF & Santos, JE 2004 Impact of age at calving on lactation, reproduction, health, and income in first-parity Holsteins on commercial farms. Journal of Dairy Science 87 27302742CrossRefGoogle ScholarPubMed
Gutmann, I & Bergmeyer, HU 1974 Determination of urea with glutamate dehydrogenase as indicator enzyme. In: Methods of Enzymatic Analysis Second Edition, pp. 17941798. Academic Press: New York, USAGoogle Scholar
Hammon, HM, Schiessier, G, Nussbaum, A & Blum, JW 2002 Feed intake patterns, growth performance, and metabolic and endocrine traits in calves fed unlimited amounts of colostrum and milk by automate, starting in the neonatal period. Journal of Dairy Science 85 33523362CrossRefGoogle ScholarPubMed
Hartnell, GF & Satter, LD 1979 Determination of rumen fill, retention time and ruminal turnover rates of ingesta at different stages of lactation in dairy cows. Journal of Animal Science 48 381392CrossRefGoogle ScholarPubMed
Heinrichs, AJ, Heinrichs, BS, Harel, O, Rogers, GW & Place, NT 2005 A prospective study of calf factors affecting age, body size, and body condition score at first calving of Holstein dairy heifers. Journal of Dairy Science 88 28282835CrossRefGoogle ScholarPubMed
Hoffman, PC & Funk, DA 1992 Applied dynamics of dairy replacement growth and management. Journal of Dairy Science 75 25042516CrossRefGoogle Scholar
Hugi, D, Bruckmaier, RM & Blum, JW 1997 Insulin resistance, hyperglycemia, glucosuria, and galactosuria in intensively milk-fed calves dependency on age and effects of high lactose intake. Journal of Animal Science 75 469482CrossRefGoogle ScholarPubMed
Jasper, JA & Weary, DM 2002 Effects of ad libitum milk intake on dairy calves. Journal of Dairy Science 85 30543058CrossRefGoogle ScholarPubMed
Keown, JF & Everett, RW 1986 Effect of days carried calf, days dry, and weight of first calf heifers on yield. Journal of Dairy Science 69 18911896CrossRefGoogle ScholarPubMed
Kertz, AF, Barton, BA & Reutzel, LF 1998 Relative efficiencies of wither height and body weight increase from birth until first calving in Holstein cattle. Journal of Dairy Science 81 14791482CrossRefGoogle ScholarPubMed
Khan, MA, Lee, HJ, Lee, WS, Kim, HS, Kim, SB, Ki, KS, Ha, JK, Lee, HG & Choi, YJ 2007 Pre- and postweaning performance of Holstein female calves fed milk through step-down and conventional methods. Journal of Dairy Science 90 876885CrossRefGoogle ScholarPubMed
Knowles, TG, Brown, SN, Edwards, JE, Phillips, AJ & Warriss, PD 1999 Effect on young calves of a one-hour feeding stop during a 19-hour road journey. Veterinary Record 144 687692CrossRefGoogle Scholar
Lammers, BP & Heinrichs, AJ 2000 The response of altering the ratio of dietary protein to energy on growth, feed efficiency, and mammary development in rapidly growing prepubertal heifers. Journal of Dairy Science 83 977983CrossRefGoogle ScholarPubMed
Larson, LL, Owen, FG, Albright, JL, Appleman, RD, Lamb, RC & Muller, LD 1977 Guidelines towards more uniformity in measuring and reporting calf experimental data. Journal of Dairy Science 60 989991CrossRefGoogle Scholar
Pirlo, G, Capelletti, M & Marchetto, G 1997 Effects of energy and protein allowances in the diets of prepubertal heifers on growth and milk production. Journal of Dairy Science 80 730739CrossRefGoogle ScholarPubMed
Quigley, JD, Wolfe, TA & Elsasser, TH 2006 Effects of additional milk replacer feeding on calf health, growth, and selected blood metabolites in calves. Journal of Dairy Science 89 207216CrossRefGoogle ScholarPubMed
Raeth-Knight, M, Chester-Jones, H, Hayes, S, Linn, J, Larson, R, Ziegler, D, Ziegler, B & Broadwater, N 2009 Impact of conventional or intensive milk replacer programs on Holstein heifer performance through six months of age and during first lactation. Journal of Dairy Science 92 799809CrossRefGoogle ScholarPubMed
Shamay, A, Werner, D, Moallem, U, Barash, H & Bruckental, I 2005 Effect of nursing management and skeletal size at weaning on puberty, skeletal growth rate, and milk production during first lactation of dairy heifers. Journal of Dairy Science 88 14601469CrossRefGoogle ScholarPubMed
Silva, LF, VandeHaar, MJ, Whitlock, BK, Radcliff, RP & Tucker, HA 2002 Relationship between body growth and mammary development in dairy heifers. Journal of Dairy Science 85 26002602CrossRefGoogle ScholarPubMed
Smith, JM, Van Amburgh, ME, Diaz, MC, Lucy, MC & Bauman, DE 2002 Effect of nutrient intake on the development of the somatotropic axis and its responsiveness to GH in Holstein bull calves. Journal of Animal Science 80 15281537CrossRefGoogle ScholarPubMed
Terré, M, Devant, M & Bach, A 2006 Performance and nitrogen metabolism of calves fed conventionally or following an enhanced-growth feeding programme during the preweaning period. Livestock Science 105 109119CrossRefGoogle Scholar
Terré, M, Devant, M & Bach, A 2007 Effect of level of milk replacer fed to Holstein calves on performance during the preweaning period and starter digestibility at weaning. Livestock Science 110 8288CrossRefGoogle Scholar
Tozer, PR & Heinrichs, AJ 2001 What affects the costs of raising replacement dairy heifers? A multiple-component analysis. Journal of Dairy Science 84 18361844CrossRefGoogle ScholarPubMed
Van Amburgh, ME, Galton, DM, Bauman, DE, Everett, RW, Fox, DG, Chase, LE & Erb, HN 1998 Effects of three prepubertal body growth rates on performance of Holstein heifers during first lactation. Journal of Dairy Science 81 527538CrossRefGoogle ScholarPubMed
Van Soest, PJ, Robertson, JB & Lewis, BA 1991 Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. Journal of Dairy Science 74 35833597CrossRefGoogle ScholarPubMed
Zanton, GI & Heinrichs, AJ 2005 Meta-analysis to assess effect of prepubertal average daily gain of Holstein heifers on first-lactation production. Journal of Dairy Science 88 38603867CrossRefGoogle ScholarPubMed