Determining the influence of the composition of milk from cows of different breeds on quality indicators for the dutch-type cheese

Authors

DOI:

https://doi.org/10.15587/1729-4061.2019.155487

Keywords:

Dutch-type cheese, amino acid composition, suitability of milk for making cheese, alfalfa haylage, optimization of feed

Abstract

The paper reports a comprehensive study into the impact of feeding rations and breed of cows on the technological properties of milk and quality characteristics of the Dutch type of cheese. Despite the abundance of information on the relationship between domestic animal feeding and technological parameters for the production of cheeses, a possible relationship between particular properties of animal breeds, changes in feed, and a positive influence on the quality of products requires in-depth research. That explains the relevance of studying the influence of an animal breed and the optimization of animal feed on a set of technological parameters and quality indicators for the Dutch type of cheeses. We manufactured the Dutch-type cheese in a series of experiments using milk from cows of different breeds, obtained at different rations of feeding. We compared the chemical composition of milk from three groups of cows ‒ the Ukrainian brown dairy breed, Lebedinskaya breed, and Simmental breed, at different feed. The results obtained demonstrate that the use of alfalfa haylage contributes to an increase in the mass share of a dry fat-free milk residue in milk, improves its suitability for cheese, as compared with milk obtained over a silage-hay period.

We have worked out technological modes for producing the hard Dutch-type cheese from milk of three cow breeds at different feeding rations. It is shown that when applying alfalfa haylage to feed animals the duration of basic technological operations shortens. That helps reduce the share of dry substances (including fat) in whey, and increases the output of finished product. The samples of hard Dutch-type cheese, made from milk of all three groups of animals over a haylage-hay period are characterized by a high content of essential amino acids, as well as free amino acids, and soluble non-protein nitrogen. That predetermined their higher degree of ripeness, and the larger point-based assessment, in terms of organoleptic characteristics (by 7‒15 points), compared to the samples of cheese produced from milk received over a silage-hay period. The highest point-based estimate for organoleptic characteristics (99 points) was given to samples of the Dutch-type cheese made from milk of the Ukrainian brown dairy cow, milked over a haylage-hay period.

It was established that an animal breed has a significant impact on the suitability of milk for cheese and yield of the finished product. The most significant influence of the optimized feeding was exerted on the organoleptic and sensorial indicators for a Dutch-type cheese. The proof are the indicators for proteolytic activity. There was an increase in the growth of nitrogen within soluble fractions, an accelerated maturation process, as evidenced by the accumulation of low-molecular nitrogenous fractions. The largest total amount of free amino acids was demonstrated by cheese made from milk of the cows that were fed the improved ration using alfalfa haylage.

The developed feeding rations, as well as the improved technological parameters for making a Dutch-type cheese, could be recommended as the cost and product quality management methods for producing mass-market and craft cheese.

Author Biographies

Yuliya Nazarenko, Sumy National Agrarian University Herasyma Kondratieva str., 160, Sumy, Ukraine, 40021

PhD, Associate Professor

Department of Milk and Meat Technology

Volodymyr Ladyka, Sumy National Agrarian University Herasyma Kondratieva str., 160, Sumy, Ukraine, 40021

Doctor of Agricultural Sciences, Professor

Department of Special Zootechnics

Victor Opara, Sumy National Agrarian University Herasyma Kondratieva str., 160, Sumy, Ukraine, 40021

PhD, Associate Professor

Department of Feed Technologies and Animal Feeding

Yuliia Pavlenko, Sumy National Agrarian University Herasyma Kondratieva str., 160, Sumy, Ukraine, 40021

PhD, Associate Professor

Department of Special Zootechnology

References

  1. Bergamaschi, M., Cipolat-Gotet, C., Stocco, G., Valorz, C., Bazzoli, I., Sturaro, E. et. al. (2016). Cheesemaking in highland pastures: Milk technological properties, cream, cheese and ricotta yields, milk nutrients recovery, and products composition. Journal of Dairy Science, 99 (12), 9631–9646. doi: https://doi.org/10.3168/jds.2016-11199
  2. Bohdanov, H. O., Kandyba, V. M. (2012). Normy i ratsiony hodivli vysokoproduktyvnoi velykoi rohatoi khudoby. Kyiv: Ahrarna nauka, 296.
  3. Hnoievyi, V. I., Holovko, V. O., Trishyn, O. K., Hnoievyi, I. V. (2009). Hodivlia vysokoproduktyvnykh koriv. Kharkiv: Prapor, 368.
  4. Eremeev, M. I. (2006). Zavisimost' kachestvennyh pokazateley moloka i molochnyh produktov ot genotipa korov. Hranenie i pererabotka sel'hozsyr'ya, 8, 36–38.
  5. Ibatullin, I. I., Melnychuk, D. O., Bohdanov, H. O. et. al. (2007). Hodivlia silskohospodarskykh tvaryn. Vinnytsia: Nova Knyha, 616.
  6. Chahorovskyi, O. P., Tkachenko, N. A., Lysohor, T. A. (2013). Khimiya molochnoi syrovyny. Odessa: Simeks-Print, 268.
  7. Tacoma, R., Fields, J., Ebenstein, D. B., Lam, Y.-W., Greenwood, S. L. (2016). Characterization of the bovine milk proteome in early-lactation Holstein and Jersey breeds of dairy cows. Journal of Proteomics, 130, 200–210. doi: https://doi.org/10.1016/j.jprot.2015.09.024
  8. Visentin, G., De Marchi, M., Berry, D. P., McDermott, A., Fenelon, M. A., Penasa, M., McParland, S. (2017). Factors associated with milk processing characteristics predicted by mid-infrared spectroscopy in a large database of dairy cows. Journal of Dairy Science, 100 (4), 3293–3304. doi: https://doi.org/10.3168/jds.2016-12028
  9. De Marchi, M., Bittante, G., Dal Zotto, R., Dalvit, C., Cassandro, M. (2008). Effect of Holstein Friesian and Brown Swiss Breeds on Quality of Milk and Cheese. Journal of Dairy Science, 91 (10), 4092–4102. doi: https://doi.org/10.3168/jds.2007-0788
  10. Wedholm, A., Larsen, L. B., Lindmark-Månsson, H., Karlsson, A. H., Andrén, A. (2006). Effect of Protein Composition on the Cheese-Making Properties of Milk from Individual Dairy Cows. Journal of Dairy Science, 89 (9), 3296–3305. doi: https://doi.org/10.3168/jds.s0022-0302(06)72366-9
  11. Benedet, A., Manuelian, C. L., Penasa, M., Cassandro, M., Righi, F., Sternieri, M. et. al. (2018). Factors associated with herd bulk milk composition and technological traits in the Italian dairy industry. Journal of Dairy Science, 101 (2), 934–943. doi: https://doi.org/10.3168/jds.2017-12717
  12. Abeykoon, C. D., Rathnayake, R. M. C., Johansson, M., Silva, G. L. L. P., Ranadheera, C. S., Lundh, Å., Vidanarachchi, J. K. (2016). Milk Coagulation Properties and Milk Protein Genetic Variants of Three Cattle Breeds/Types in Sri Lanka. Procedia Food Science, 6, 348–351. doi: https://doi.org/10.1016/j.profoo.2016.02.070
  13. Malchiodi, F., Cecchinato, A., Penasa, M., Cipolat-Gotet, C., Bittante, G. (2014). Milk quality, coagulation properties, and curd firmness modeling of purebred Holsteins and first- and second-generation crossbred cows from Swedish Red, Montbéliarde, and Brown Swiss bulls. Journal of Dairy Science, 97 (7), 4530–4541. doi: https://doi.org/10.3168/jds.2013-7868
  14. Tsioulpas, A., Lewis, M. J., Grandison, A. S. (2007). Effect of Minerals on Casein Micelle Stability of Cows' Milk. Journal of Dairy Research, 74 (02), 167. doi: https://doi.org/10.1017/s0022029906002330
  15. Visentin, G., McParland, S., De Marchi, M., McDermott, A., Fenelon, M. A., Penasa, M., Berry, D. P. (2017). Processing characteristics of dairy cow milk are moderately heritable. Journal of Dairy Science, 100 (8), 6343–6355. doi: https://doi.org/10.3168/jds.2017-12642
  16. Prykhodko, M. F. (2009). Otsinka produktyvnosti ta tekhnolohichnykh vlastyvostei moloka novostvorenykh porid i typiv khudoby pivnichno-skhidnoho rehionu Ukrainy. Kherson, 22.
  17. Toporova, L. V. (2007). Teoriya i praktika kormleniya vysokoproduktivnyh korov v period laktacii. Kormlenie sel'skohozyaystvennyh zhivotnyh i kormoproizvodstvo, 9, 34–43.
  18. Ovcharenko, V. M., Ladyka, V. I. (1999). Syroprydatnist moloka ta yakist syru v zalezhnosti vid henotypu koriv. Visnyk Sumskoho DAU, 3, 70–73.
  19. Provatorov, H. V., Ladyka, V. I., Bondarchuk, L. V. (2007). Normy hodivli, ratsiony i pozhyvnist kormiv dlia riznykh vydiv silskohospodarskykh tvaryn. Sumy, TOV «VTD «Universytetska knyha», 488.
  20. Kuznecov, A., Kuznecov, S. (2010). Soderzhanie zhira i belka v moloke korov. Kombikorma, 7, 61–64.
  21. Yeresko, H. O., Zhukova, Ya. F., Nasyrova, H. F. (2005). Zalezhnist vykhodu tverdykh sychuzhnykh syriv vid yakosti molochnoi syrovyny. Molochna promyslovist, 10 (25), 30–31.
  22. Mazzei, P., Piccolo, A. (2012). 1H HRMAS-NMR metabolomic to assess quality and traceability of mozzarella cheese from Campania buffalo milk. Food Chemistry, 132 (3), 1620–1627. doi: https://doi.org/10.1016/j.foodchem.2011.11.142
  23. Gaucheron, F. (2005). The minerals of milk. Reproduction Nutrition Development, 45 (4), 473–483. doi: https://doi.org/10.1051/rnd:2005030
  24. Gorbatova, K. K. (2010). Biohimiya moloka i molochnyh produktov. Sankt-Peterburg: GIORD, 314.
  25. Qi, P. X. (2007). Studies of casein micelle structure: the past and the present. Le Lait, 87 (4-5), 363–383. doi: https://doi.org/10.1051/lait:2007026
  26. El'chaninov, V. V. (2008). Nomenklatura i biohimicheskie svoystva kazeinov korov'ego moloka. Syrodelie i maslodelie, 3, 53–55.
  27. Gorbatova, K. K. (2003). Syroprigodnost' moloka. Pererabotka moloka, 5, 4–5.
  28. Perfil'ev, G. D., Sviridenko, Yu. Ya. (2005). Syroprigodnost' moloka. Nauchnye i prakticheskie aspekty. Molochnoe delо, 1, 9–11.
  29. Phadungath, C. (2005). The mechanism and properties of acid-coagulated milk gels. Songklanakarin Journal of Science and Technology, 27 (2), 433–448.
  30. Savel'ev, A. A., Sorokin, M. Yu., Shneyder, L. K., Kryshin, A. T. (2002). Nekotorye aspekty povysheniya kachestva i vyhoda syra. Syrodelie i maslodelie, 1, 15–17.
  31. Holt, C. (2004). An equilibrium thermodynamic model of the sequestration of calcium phosphate by casein micelles and its application to the calculation of the partition of salts in milk. European Biophysics Journal, 33 (5). doi: https://doi.org/10.1007/s00249-003-0377-9
  32. Skott, R., Robinson, R., Uilbi, R. (2005). Proizvodstvo syra. Syr'e, tekhnologii, recepturi: nauchnye osnovy i tekhnologii. Sankt-Peterburg: Professiya, 460.
  33. De Kort, E., Minor, M., Snoeren, T., van Hooijdonk, T., van der Linden, E. (2011). Effect of calcium chelators on physical changes in casein micelles in concentrated micellar casein solutions. International Dairy Journal, 21 (12), 907–913. doi: https://doi.org/10.1016/j.idairyj.2011.06.007
  34. Tkahcenko, N. A., Nekrasov, P. O., Vikul, S. I. (2016). Optimization of formulation composition of health whey-based beverage. Eastern-European Journal of Enterprise Technologies, 1 (10 (79)), 49–57. doi: https://doi.org/10.15587/1729-4061.2016.59695
  35. Didukh, N. A., Chaharovskyi, O. P., Lysohor, T. A. (2008). Zakvashuvalni kompozytsiyi dlia vyrobnytstva molochnykh produktiv funktsionalnoho pryznachennia. Odessa: Polihraf, 236.
  36. Cipolat-Gotet, C., Cecchinato, A., Drake, M. A., Marangon, A., Martin, B., Bittante, G. (2018). From cow to cheese: Novel phenotypes related to the sensory profile of model cheeses from individual cows. Journal of Dairy Science, 101 (7), 5865–5877. doi: https://doi.org/10.3168/jds.2017-14342
  37. Artamonova, M. V., Samokhvalova, O. V., Hrevtseva, N. V., Stepankova, H. V., Tuz, N. F. (2014). Zahalni tekhnolohiyi kharchovoi promyslovosti. Kharkiv, 190.

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Published

2019-02-04

How to Cite

Nazarenko, Y., Ladyka, V., Opara, V., & Pavlenko, Y. (2019). Determining the influence of the composition of milk from cows of different breeds on quality indicators for the dutch-type cheese. Eastern-European Journal of Enterprise Technologies, 1(11 (97), 23–33. https://doi.org/10.15587/1729-4061.2019.155487

Issue

Vol. 1 No. 11 (97) (2019): Technology and Equipment of Food Production

Section

Technology and Equipment of Food Production

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Copyright (c) 2019 Yuliya Nazarenko, Volodymyr Ladyka, Victor Opara, Yuliia Pavlenko

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