Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-28T00:15:44.502Z Has data issue: false hasContentIssue false

Effect of total mixed ration composition and daily grazing pattern on milk production, composition and fatty acids profile of dairy cows

Published online by Cambridge University Press:  29 September 2014

Martha Hernández-Ortega
Affiliation:
Servicio Regional de Investigación y Desarrollo Agroalimentario (SERIDA), E-33300, Villaviciosa (Asturias), Spain Instituto de Ciencias Agropecuarias y Rurales, Universidad Autónoma del Estado de México (ICAR-UAEM), MEX-50000 Toluca, Mexico
Adela Martínez-Fernández
Affiliation:
Servicio Regional de Investigación y Desarrollo Agroalimentario (SERIDA), E-33300, Villaviciosa (Asturias), Spain
Ana Soldado
Affiliation:
Servicio Regional de Investigación y Desarrollo Agroalimentario (SERIDA), E-33300, Villaviciosa (Asturias), Spain
Amelia González
Affiliation:
Servicio Regional de Investigación y Desarrollo Agroalimentario (SERIDA), E-33300, Villaviciosa (Asturias), Spain
Carlos M. Arriaga-Jordán
Affiliation:
Instituto de Ciencias Agropecuarias y Rurales, Universidad Autónoma del Estado de México (ICAR-UAEM), MEX-50000 Toluca, Mexico
Alejandro Argamentería
Affiliation:
Servicio Regional de Investigación y Desarrollo Agroalimentario (SERIDA), E-33300, Villaviciosa (Asturias), Spain
Begoña de la Roza-Delgado
Affiliation:
Servicio Regional de Investigación y Desarrollo Agroalimentario (SERIDA), E-33300, Villaviciosa (Asturias), Spain
Fernando Vicente*
Affiliation:
Servicio Regional de Investigación y Desarrollo Agroalimentario (SERIDA), E-33300, Villaviciosa (Asturias), Spain
*
*For correspondence; e-mail: [email protected]

Abstract

The possibilities of using high quality pastures in conjunction with total mixed ration (TMR) during the grazing season have been examined. An experiment with sixteen Holstein cows blocked and randomly assigned to four treatments in a factorial arrangement was conducted in order to evaluate the influence of grazing time of day (day or night) and type of silage (maize or Italian ryegrass) included in the TMR of dairy cows grazing 12 h daily on milk yield, composition and fatty acid profile. The silage type had no effect on the dry matter intake, milk yield and fat and protein proportions. However, cows grazing during the night ate more grass than cows grazing during the day (8·53 vs. 5·65 kg DM/d; P<0·05). No differences were seen between grazing-time with respect to milk production, fat and protein contents. However, the proportion of polyunsaturated fatty acid was higher in milk of dairy cows grazing at night-time than grazing at day-time, especially 18:2n-6 (2·37 vs. 2·12 g/100 g FA respectively, P<0·05) and 18:2cis9trans11 (2·08 vs. 1·74 g/100 g FA respectively, P<0·05).

Type
Research Article
Copyright
Copyright © Proprietors of Journal of Dairy Research 2014 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abrahamse, PA, Tamminga, S & Dijkstra, J 2009 Effect of daily movement of dairy cattle to fresh grass in morning or afternoon on intake, grazing behaviour, rumen fermentation and milk production. Journal of Agricultural Science 147 721730 CrossRefGoogle Scholar
AbuGhazaleh, AA, Felton, DO & Ibrahim, SA 2007 Milk conjugated linoleic acid response to fish oil and sunflower oil supplementation to dairy cows managed under two feeding systems. Journal of Dairy Science 90 47634769 CrossRefGoogle ScholarPubMed
Auldist, MJ, Marett, LC, Greenwood, JS, Hannah, M, Jacobs, JL & Wales, WJ 2013 Effects of different strategies for feeding supplements on milk production responses in cows grazing a restricted pasture allowance. Journal of Dairy Science 96 12181231 CrossRefGoogle ScholarPubMed
Avondo, M, Bonanno, M, Pagano, RI, Valenti, B, Di Grigoli, A, Alicata, ML, Galofaro, V & Pennisi, P 2008 Milk quality as affected by grazing time of day in Mediterranean goats. Journal of Dairy Research 75 4854 CrossRefGoogle Scholar
Bargo, F, Muller, LD, Delahoy, JE & Cassidy, TW 2002 Performance of high producing dairy cows with three different feeding systems combining pasture and total mixed rations. Journal of Dairy Science 85 29482963 CrossRefGoogle ScholarPubMed
Bargo, F, Delahoy, JE, Schroeder, GF & Muller, LD 2006 Milk fatty acid composition of dairy cows grazing at two pasture allowances and supplemented with different levels and sources of concentrate. Animal Feed Science and Technology 125 1731 CrossRefGoogle Scholar
Bauman, DE & Griinari, JM 2003 Nutritional regulation of milk fat synthesis. Annual Review of Nutrition 23 203227 CrossRefGoogle ScholarPubMed
Belury, MA 2002 Dietary conjugated linoleic acid in health: physiological effects and mechanisms of action. Annual Review of Nutrition 22 505531 CrossRefGoogle ScholarPubMed
Bendall, JG 2001 Aroma compounds of fresh milk from New Zealand cows fed different diets. Journal of Agricultural and Food Chemistry 49 48254832 CrossRefGoogle ScholarPubMed
Browse, J, Roughan, PG & Slack, CR 1981 Light control of fatty acid synthesis and diurnal fluctuations of fatty acid composition in leaves. Biochemical Journal 196 347354 CrossRefGoogle ScholarPubMed
Burns, JC, Mayland, HF & Fisher, DS 2005 Dry matter intake and digestion of alfalfa harvested at sunset and sunrise. Journal of Animal Science 83 262270 CrossRefGoogle ScholarPubMed
Capper, JL, Cady, RA & Bauman, DE 2009 The environmental impact of dairy production: 1944 compared with 2007. Journal of Animal Science 87 1602167 CrossRefGoogle ScholarPubMed
Chapinal, N, Goldhawk, C, de Passillé, AM, von Keyserlingk, MAG, Weary, DM & Rushen, J 2010 Overnight access to pasture does not reduce milk production or feed intake in dairy cattle. Livestock Science 129 104110 CrossRefGoogle Scholar
Charlton, GL, Rutter, SM, East, M & Sinclair, LA 2013 The motivation of dairy cows for access to pasture. Journal of Dairy Science 96 43874396 CrossRefGoogle ScholarPubMed
Chilliard, Y, Ferlay, A & Doreau, M 2001 Effect of different types of forages, animal fat or marine oils in cow's diet on milk fat secretion and composition, especially conjugated linoleic acid (CLA) and polyunsaturated fatty acids. Livestock Production Science 70 3148 CrossRefGoogle Scholar
Chouinard, PY, Corneau, L., Barbano, DM, Metzger, LE & Bauman, DE 1999 Conjugated linoleic acids alter milk fatty acid composition and inhibit milk fat secretion in dairy cows. Journal of Nutrition 129 15791584 CrossRefGoogle ScholarPubMed
Christie, WW 1982 A simple procedure for rapid transmethylation of glycerolipids and cholesterol esters. Journal of Lipid Research 23 10721075 CrossRefGoogle Scholar
Couvreur, S, Hurtaud, C, Lopez, C, Delaby, L & Peyraud, JL 2006 The linear relationship between the proportion of fresh grass in the cow diet, milk fatty acid composition, and butter properties. Journal of Dairy Science 89 19561969 CrossRefGoogle ScholarPubMed
Cuadrado, F, Morales-Almaráz, E, de la Roza-Delgado, B, Martínez-Fernández, A & Vicente, F 2011 Voluntary unifeed ration intake by grazing dairy cows according their physiologic state. In Proceedings of the 15th ESVCN Congress 153Google Scholar
DeVries, TJ, von Keyserlingk, MAG & Beauchemin, KA 2003 Diurnal feeding pattern of lactating dairy cows. Journal of Dairy Science 86 40794082 CrossRefGoogle ScholarPubMed
Dewhurst, RJ, Shingfield, KJ, Lee, MRF & Scollan, ND 2006 Increasing the concentrations of beneficial polyunsaturated fatty acids in milk produced by dairy cows in high-forage systems. Animal Feed Science and Technology 131 168206 CrossRefGoogle Scholar
Elgersma, A, Ellen, G, Bekker, PR, van der Horst, H, Boer, H & Tamminga, S 2003 Effects of perennial ryegrass (Lolium perenne) cultivars with different linolenic acid contents on milk fatty acid composition. Aspects of Applied Biology 70 107114 Google Scholar
Feng, S, Lock, AL & Garnsworthy, PC 2004 Technical note: a rapid lipid separation method for determining fatty acid composition of milk. Journal of Dairy Science 87 37853788 CrossRefGoogle Scholar
Ferlay, A, Martin, B, Pradel, Ph, Coulon, JB & Chilliard, Y 2006 Influence of grass-based diets on milk fatty acid composition and milk lipolytic system in Tarentaise and Montbeliarde cow breeds. Journal of Dairy Science 89 40264041 CrossRefGoogle ScholarPubMed
González, J, Centeno, C, Moruji, N, Faria-Mármol, J & Martínez, A 2009 In situ ruminal amino acid degradability of green and ensiled Italian rye-grass according to particle transit model and microbial contamination correction. Livestock Science 123 209214 CrossRefGoogle Scholar
González, J, Faria-Mármol, J, Arroyo, JM, Centeno, C & Martínez, A 2010 Effects of ensiling on in situ ruminal degradability and intestinal digestibility of corn forage. Archives of Animal Nutrition 64 204220 CrossRefGoogle ScholarPubMed
Gregorini, P, Eirin, M, Refi, R, Ursino, M, Ansin, O & Gunter, SA 2006 Timing of herbage allocation: effect on beef heifers daily grazing pattern and performance. Journal of Animal Science 84 19431950 CrossRefGoogle ScholarPubMed
Gregorini, P, Soder, KJ & Sanderson, MA 2008 Case study: a snapshot in time of fatty acids composition of grass herbage as affected by time of day. The Professional Animal Scientist 24 16 CrossRefGoogle Scholar
Gregorini, P, Soder, KJ, Sanderson, MA & Ziegler, GR 2009 Toughness, particle size and chemical composition of meadow fescue (Festuca pratensis Hud.) herbage as affected by time of day. Animal Feed Science and Technology 151 330336 CrossRefGoogle Scholar
Hafez, ESE & Boissou, MF 1975 The behaviour of cattle. In The Behaviour of Domestic Animals, pp. 203245 (Ed. Hafez, ESE). London, UK: Bailliere Tindall Google Scholar
Hernandez-Mendo, O, von Keyserlingk, MAG, Veira, DM & Weary, DM 2007 Effects of pasture on lameness in dairy cows. Journal of Dairy Science 90 12091214 CrossRefGoogle ScholarPubMed
Hoffman, WS 1937 A rapid photoelectric method for the determination of glucose in blood and urine. Journal of Biological Chemistry 120 5155 CrossRefGoogle Scholar
Huntington, GB & Burns, JC 2007 Afternoon harvest increases readily fermentable carbohydrate concentration and voluntary intake of gamagrass and switchgrass baleage by beef steers. Journal of Animal Science 85 276284 CrossRefGoogle ScholarPubMed
Huzzey, JM, Veira, DM, Weary, DM & von Keyserlingk, MAG 2007 Prepartum behavior and dry matter intake identify dairy cows at risk for metritis. Journal of Dairy Science 90 32203230 CrossRefGoogle ScholarPubMed
Ingvartsen, KL 1994 Models of voluntary food intake in cattle. Livestock Production Science 39 1938 CrossRefGoogle Scholar
Kennedy, E, Curran, J, Mayes, B, McEvoy, M, Murphy, JP & O'Donovan, M 2011 Restricting dairy cow access time to pasture in early lactation: the effects on milk production, grazing behaviour and dry matter intake. Animal 5 18051813 CrossRefGoogle ScholarPubMed
Latham, MJ, Sutton, JD & Sharpe, ME 1974 Fermentation and microorganisms in the rumen and the content of fat in the milk of cows given low roughage rations. Journal of Dairy Science 57 803810 CrossRefGoogle Scholar
Legrand, AL, von Keyserlingk, MAG & Weary, DM 2009 Preference and usage of pasture versus free-stall housing by lactating dairy cattle. Journal of Dairy Science 92 36513658 CrossRefGoogle ScholarPubMed
Loor, JJ, Soriano, FD, Lin, X, Hirbein, JH & Polan, CE 2003 Grazing allowance after the morning or afternoon milking for lactating cows fed a total mixed ration (TMR) enhances trans11–18:1 and cis9,trans11–18:2 (rumenic acid) in milk fat to different extents. Animal Feed Science and Technology 109 105119 CrossRefGoogle Scholar
Macoon, B, Sollenberger, LE, Moore, JE, Staples, CR, Fike, JH & Portier, KM 2003 Comparison of three techniques for estimating the forage intake of lactating dairy cows on pasture. Journal of Animal Science 81 23572366 CrossRefGoogle ScholarPubMed
Martin, B, Hurtaud, C, Graulet, B, Ferlay, A, Chilliard, Y & Coulon, JB 2009 Grass and the nutritional and organoleptic qualities of dairy products. Fourrages 199 291310 Google Scholar
Morales-Almaráz, E, Soldado, A, González, A, Martínez-Fernández, A, Domínguez-Vara, I, de la Roza-Delgado, B & Vicente, F 2010 Improving the fatty acid profile of dairy cow milk by combining grazing with feeding of total mixed ration. Journal of Dairy Research 77 225230 CrossRefGoogle ScholarPubMed
Morales-Almaráz, E, de la Roza-Delgado, B, González, A, Soldado, A, Rodríguez, ML, Peláez, M & Vicente, F 2011 Effect of feeding system on unsaturated fatty acid level in milk of dairy cows. Renewable Agriculture and Food Systems 26 224229 CrossRefGoogle Scholar
National Research Council 2001 Nutrient Requirements of Dairy Cattle, 7th rev. edition. Washington, DC: National Academy Press Google Scholar
Orr, RJ, Penning, PD, Harvey, A & Champion, RA 1997 Diurnal patterns of intake rate by sheep grazing monocultures of ryegrass or white clover. Applied Animal Behaviour Science 52 6577 CrossRefGoogle Scholar
Orr, RJ, Rutter, SM, Penning, PD & Rook, AJ 2001 Matching grass supply to grazing patterns for dairy cows. Grass and Forage Science 56 352361 CrossRefGoogle Scholar
Palmquist, DL & Jenkins, TC 2003 Challenges with fats and fatty acid methods. Journal of Animal Science 81 32503254 CrossRefGoogle ScholarPubMed
Ruckebusch, Y & Bueno, L 1978 An analysis of ingestive behavior and activity of cattle under field conditions. Applied Animal Ethology 4 301313 CrossRefGoogle Scholar
SAS 1999 SAS/STATTM. User's Guide. Cary, NC: Statistical Analysis System Inst Google Scholar
Schroeder, GF, Delahoy, JE, Vidaurret, I, Bargo, F, Gagliostro, GA & Muller, LD 2003 Milk fatty acid composition of cows fed a total mixed ration or pasture plus concentrates replacing corn with fat. Journal of Dairy Science 86 32373248 CrossRefGoogle ScholarPubMed
Soriano, FD, Polan, CE & Miller, CN 2001 Supplementing pasture to lactating holsteins fed a total mixed ration diet. Journal of Dairy Science 84 24602468 CrossRefGoogle ScholarPubMed
Stockdale, CR, Waler, GP, Wales, WJ, Dalley, DE, Birkett, A, Shen, Z & Doyle, PT 2003 Influence of pasture and concentrates in the diet of grazing dairy cows on the fatty acid composition of milk. Journal of Dairy Research 70 267276 CrossRefGoogle Scholar
Troegeler-Meynadier, A, Bret-Bennis, L & Enjalbert, F 2006 Rates and efficiencies of reactions of ruminal biohydrogenation of linoleic acid according to pH and polyunsaturated fatty acids concentrations. Reproduction Nutrition Development 46 713724 CrossRefGoogle ScholarPubMed
Van Ranst, G, Fievez, V, De Riek, J & Van Bockstaele, E 2009 Influence of ensiling forages at different dry matters and silage additives on lipid metabolism and fatty acid composition. Animal Feed Science and Technology 150 6274 CrossRefGoogle Scholar
Vasta, V, Pagano, RI, Luciano, G, Scerra, M, Caparra, P, Foti, F, Cilione, C, Biondi, L, Priolo, A & Avondo, M 2012 Effect of morning vs. afternoon grazing on intramuscular fatty acid composition in lamb. Meat Science 90 9398 CrossRefGoogle ScholarPubMed
Vibart, RE, Fellner, V, Burns, JC, Huntington, GB & Green, JT Jr 2008 Performance of lactating dairy cows fed varying levels of total mixed ration and pasture. Journal of Dairy Research 75 471480 CrossRefGoogle ScholarPubMed