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Reducing milking frequency from 3 to 2 times daily in early lactation: effects on milk production, health and body condition

Published online by Cambridge University Press:  26 January 2023

Jesper Overgård Lehmann ,
Troels Kristensen  and
Lisbeth Mogensen
Jesper Overgård Lehmann
Affiliation:
Department of Agroecology, Aarhus University Viborg, Blichers Alle 20, DK-8830 Tjele, Denmark
Troels Kristensen*
Affiliation:
Department of Agroecology, Aarhus University Viborg, Blichers Alle 20, DK-8830 Tjele, Denmark
Lisbeth Mogensen
Affiliation:
Department of Agroecology, Aarhus University Viborg, Blichers Alle 20, DK-8830 Tjele, Denmark
*
Author for correspondence: Troels Kristensen, Email: Troels.Kristensen@agro.au.dk
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Abstract

The objective of this experiment was to investigate the effect of reducing early lactation milking frequency on milk yield and persistency through lactation and early lactation fat mobilization, measured by body condition score (BCS) and BHB in milk. We hypothesized that milking cows twice per day in early lactation before milking them 3 times per day for the remaining lactation would cause less fat mobilization in early lactation, a lower peak milk yield but improved persistency throughout lactation compared with milking cows 3 times per day for the entire lactation. The experiment took place on 2 commercial dairy farms in Denmark. All cows calving in a period of nine months (n = 239) in their current first and later parities were randomly allocated at dry-off to 1 of 3 treatments based on expected calving date. The treatments were (1) cows milked 2 times per day for 1 week after calving, (2) cows milked 2 times per day for 4 weeks after calving and (3) cows milked 2 times per day for 7 weeks after calving. All cows were then milked 3 times per day for the remaining lactation. Milk yield peaked 3.3 and 3.6 d later and milk yield persistency improved with 18 and 19 g per day when cows were milked 2 times per day for 4 and 7 weeks, respectively, compared with milking 2 times per day for 1 week after calving. We found a significant highest milk BHB in treatment 2, but the underlying effect of milking cows 2 times per day for 4 weeks compared with 1 or 7 weeks was unclear. In conclusion, we did not confirm our hypothesis that milking cows 2 times per day compared to 3 times in early lactation would reduce fat mobilization and reduce peak yield. We did, however, find an improved milk yield persistency, which partially offset a numerical reduction in peak yield, and hence there was no significant effect of reducing early lactation milking frequency on total lactation (305 DIM) milk yield.

Keywords

Body conditionearly lactationmilk yield persistencymilk yieldmilking frequency
Type
Research Article
Information
Journal of Dairy Research , Volume 90 , Issue 1 , February 2023 , pp. 47 - 53
Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press on behalf of Hannah Dairy Research Foundation

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References

Andersen, JB, Friggins, NC, Larsen, T, Vestergaard, M and Ingvartsen, KL (2004) Effect of energy density in the diet and milking frequency on plasma metabolites and hormones in early lactation dairy cows. Journal of Veterinary Medicine 51, 5257.CrossRefGoogle ScholarPubMed
Barletta, RV, Maturana, FM, Carvalho, PD, Del Valle, TA, Netto, AS, Rennó, FP, Mingoti, RD, Gandra, JR, Mourão, GB, Fricke, PM, Sartori, R, Madureira, EH and Wiltbank, MC (2017) Association of changes among body condition score during the transition period with NEFA and BHBA concentrations, milk production, fertility, and health of Holstein cows. Theriogenology 104, 3036.CrossRefGoogle ScholarPubMed
Bedere, N, Cutullic, E, Delaby, L, Garcia-Launay, F and Disenhaus, C (2018) Meta-analysis of the relationships between reproduction, milk yield and body condition score in dairy cows. Livestock Science 210, 7384.CrossRefGoogle Scholar
Chen, J, Kok, A, Remmelink, GJ, Gross, JJ, Bruckmaier, RM, Kemp, B and van Knegsel, ATM (2016) Effects of dry period length and dietary energy source on lactation curve characteristics over 2 subsequent lactations. Journal of Dairy Science 99, 92879299.CrossRefGoogle ScholarPubMed
Erb, HN, Smith, RD, Hillman, RB, Powers, PA, Smith, MC, White, ME and Pearson, EG (1984) Rates of diagnosis of six diseases of Holstein cows during 15-day and 21-day intervals. Journal of Veterinary and Animal Research 45, 333335.Google ScholarPubMed
Erdman, RA and Varner, M (1995) Fixed yield responses to increased milking frequency. Journal Dairy Science 78, 11991203.CrossRefGoogle ScholarPubMed
Ferguson, JD, Galligan, DT and Thomsen, N (1994) Principal descriptors of body condition score in Holstein cows. Journal Dairy Science 77, 26952703.CrossRefGoogle ScholarPubMed
ICAR (2022) ICAR Recording guidelines. International Committee for Animal Recording (ICAR). Rome, Italy, p. 643.Google Scholar
Ingvartsen, KL, Dewhurst, RJ and Friggens, NC (2003) On the relationship between lactational performance and health: is it yield or metabolic imbalance that cause production diseases in dairy cattle? A position paper. Livestock Production Science 83, 277308.CrossRefGoogle Scholar
Lehmann, JO, Mogensen, L and Kristensen, T (2018) Practice of milking cows three times daily on Danish dairy farms. EAAP BOA 2018 Abstract 392. Wageningen Scientific Publishers, Wageningen, Netherlands.Google Scholar
Lenth, RV (2022) emmeans: Estimated Marginal Means, aka Least-Squares Means, R Package Version 1.8.2. Vienna, Austria: R Foundation for Statistical Computing. Available at http://CRAN.R-project.org/package=emmeans.Google Scholar
McNamara, S, Murphy, JJ, O'Mara, FP, Rath, M and Mee, JF (2008) Effect of milking frequency in early lactation on energy metabolism, milk production and reproductive performance of dairy cows. Livestock Science 117, 7078.CrossRefGoogle Scholar
O'Driscoll, K, Olmos, G, Moya, SL, Mee, JF, Earley, B, Gleeson, D, O'Brien, B and Boyle, L (2012) A reduction in milking frequency and feed allowance improves dairy cow immune status. Journal Dairy Science 95, 11771187.CrossRefGoogle ScholarPubMed
Phyn, CVC, Kay, JK, Rius, AG, Morgan, SR, Roach, CG, Grala, TM and Roche, JR (2014) Temporary alterations to postpartum milking frequency affect whole-lactation milk production and the energy status of pasture-grazed dairy cows. Journal Dairy Science 97, 68506868.CrossRefGoogle ScholarPubMed
Pinheiro, J, Bates, D, DebRoy, S, Sarkar, DR and Development Core Team (2019) nlme: Linear and Nonlinear Mixed Effects Models, R Package Version 3.1–142. Vienna, Austria: R Foundation for Statistical Computing, Vienna, Austria. Available at http://cran.r-project.org/web/packages/nlme/index.html.Google Scholar
R Development Core Team (2022) R: A Language and Environment for Statistical Computing, Version 4.2.2. Vienna, Austria: R Foundation for Statistical Computing. Available at http://www.r-project.org.Google Scholar
Remond, B, Coulon, JB, Nicloux, M and Levieux, D (1999) Effect of temporary once-daily milking in early lactation on milk production and nutritional status of dairy cows. Annales de Zootechnie 48, 341352.CrossRefGoogle Scholar
Renaud, DL, Kelton, DF and Duffield, TF (2019) Short communication: validation of a test-day milk test for beta-hydroxybutyrate for identifying cows with hyperketonemia. Journal Dairy Science 102, 15891593.CrossRefGoogle ScholarPubMed
Santschi, DE, Lacroix, R, Durocher, J, Duplessis, M, Moore, RK and Lefebvre, DM (2016) Prevalence of elevated milk β-hydroxybutyrate concentrations in Holstein cows measured by Fourier-transform infrared analysis in Dairy Herd Improvement milk samples and association with milk yield and components. Journal Dairy Science 99, 92639270.CrossRefGoogle ScholarPubMed
SEGES (2022) Personal information.Google Scholar
Sjaunja, LO, Bævre, L, Junkkarinen, L, Pedersen, J and Setälä, J (1991) A Nordic proposal for an energy corrected milk (ECM) formula. In Gaillon, P and Chabert, Y (eds), Performance Recording of Animals: State of the art, 1990. EAAP publication 50. Wageningen, The Netherlands: Centre for Agricultural Publishing and Documentation (PUDOC), pp. 156157.Google Scholar
Soberon, F, Ryan, CM, Nydam, DV, Galton, DM and Overton, TR (2011) The effects of increased milking frequency during early lactation on milk yield composition on commercial dairy farms. Journal Dairy Science 94, 43984405.CrossRefGoogle ScholarPubMed
Sorensen, A, Muir, DD and Knight, CH (2008) Extended lactation in dairy cows: effects of milking frequency, calving season and nutrition on lactation persistency and milk quality. Journal of Dairy Reseach 75, 9097.CrossRefGoogle ScholarPubMed
Sprecher, DJ, Hostetler, DE and Kaneene, JB (1997) A lameness scoring system that uses posture and gait to predict dairy cattle reproductive performance. Theriogenology 47, 11791187.CrossRefGoogle ScholarPubMed
Stockdale, CR (2006) Influence of milking frequency on the productivity of dairy cows. Australian Journal of Experimental Agriculture 46, 965974.CrossRefGoogle Scholar
Thomsen, PT (2005) Loser cows in Danish dairy herds with loosehousing systems: Definition, prevalence, consequences and risk factors (PhD thesis). Department of Large Animal Sciences. The Royal Veterinary and Agricultural University, Copenhagen, Denmark.Google Scholar
Wilmink, JBM (1987) Adjustment of test-day milk, fat and protein yield for age, season and stage of lactation. Livestock Production Science 16, 335348.CrossRefGoogle Scholar