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Influence of feeding Mediterranean food industry by-products and forages to Awassi sheep on physicochemical properties of milk, yoghurt and cheese

Published online by Cambridge University Press:  18 October 2011

Souheila Abbeddou ,
Barbara Rischkowsky ,
Muhi El-Dine Hilali ,
Hans Dieter Hess  and
Michael Kreuzer
Souheila Abbeddou
Affiliation:
ETH Zurich, Institute of Agricultural Sciences, Universitaetstrasse 2, CH-8092 Zurich, Switzerland International Center for Agricultural Research in the Dry Areas (ICARDA), P.O. Box 5466, Aleppo, Syria
Barbara Rischkowsky
Affiliation:
International Center for Agricultural Research in the Dry Areas (ICARDA), P.O. Box 5466, Aleppo, Syria
Muhi El-Dine Hilali
Affiliation:
International Center for Agricultural Research in the Dry Areas (ICARDA), P.O. Box 5466, Aleppo, Syria
Hans Dieter Hess
Affiliation:
Agroscope Liebefeld-Posieux Research Station ALP, P.O. Box 64, CH-1725 Posieux, Switzerland
Michael Kreuzer*
Affiliation:
ETH Zurich, Institute of Agricultural Sciences, Universitaetstrasse 2, CH-8092 Zurich, Switzerland
*
*For correspondence; e-mail: [email protected]
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Abstract

Feeding agro-industrial by-products and unconventional forages, rich in potentially anti-nutritional factors, may influence the quality of the raw milk and the dairy products prepared therefrom. The aim of the present study was to determine side-effects on physicochemical properties of milk, yoghurt and cheese of feeding diets where one third were feeds either rich in lipids (tomato pomace and olive cake) or phenols (olive leaves and lentil straw) or electrolytes (Atriplex leaves). The diets, including a control diet, were designed to be isoenergetic and isonitrogenous. They were fed in amounts of 2 5 kg dry matter/day per head during 50 days to 6×10 multiparous fat-tailed Awassi ewes. Milk samples were analysed for various physicochemical traits and fatty acid composition on days 0, 24, 36 and 48. Three times, milk pooled by group was processed to yoghurt and non-aged farmer-type cheese, which were analysed for their gross and fatty acid composition and texture, and were subjected to sensory evaluation. Feeding olive cake and tomato pomace reduced milk casein, but increased proportions of monounsaturated fatty acids. There were some variations in minerals among test diets but, contrary to expectations, Atriplex did not increase milk sodium. The nutritional composition of yoghurt and cheese was not varied much by the test feeds, except for some changes in fatty acid profile similar to the milk. Yoghurt firmness declined with all test diets, but texture score tended to be lower only for olive cake and leaf diets relative to control. Cheese firmness was increased by feeding the Atriplex leaf and olive cake diets which was also reflected in the texture scores. No off-flavours were reported. Possible reasons for effects on the dairy products are discussed. In conclusion, the feeds investigated had certain effects on the physicochemical properties of dairy products, but these were neither very systematic nor large thus not prohibiting their use in Mediterranean sheep milk production systems.

Keywords

Dairy foodfeed alternativefirmnesscasein
Type
Research Article
Information
Journal of Dairy Research , Volume 78 , Issue 4 , November 2011 , pp. 426 - 435
Copyright
Copyright © Proprietors of Journal of Dairy Research 2011

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References

Abbeddou, S, Rihawi, S, Zaklouta, M, Hess, HD, Iñiguez, L & Kreuzer, M 2011a Ruminal degradability, digestibility, energy content, and influence on N and mineral turnover of various Mediterranean by-products in fat-tailed Awassi sheep. Animal Feed Science and Technology 163 99110CrossRefGoogle Scholar
Abbeddou, S, Rihawi, S, Hess, HD, Iñiguez, L, Mayer, AC & Kreuzer, M 2011b Nutritional composition of lentil straw, vetch hay, olive leaves and saltbush leaves, and their digestibility as measured in fat-tailed sheep. Small Ruminant Research 96 126135CrossRefGoogle Scholar
Abbeddou, S, Rischkowsky, B, Richter, EK, Hess, HD & Kreuzer, M 2011c Modification of milk fatty acid composition by feeding forages and agro-industrial by-products from dry areas to Awassi sheep. Journal of Dairy Science 94 46574668CrossRefGoogle Scholar
Abu-Zanat, MMW & Tabbaa, MJ 2006 Effect of feeding Atriplex browse to lactating ewes on milk yield and growth rate of their lambs. Small Ruminant Research 64 152161CrossRefGoogle Scholar
AOAC 1997 Official Methods of Analysis. Arlington, VA, USA: Association of Official Analytical ChemistsGoogle Scholar
Bauman, DE & Griinari, JM 2003 Nutritional regulation of milk fat synthesis. Annual Review of Nutrition 23 203227CrossRefGoogle ScholarPubMed
Ben Salem, H & Znaidi, I-A 2008 Partial replacement of concentrate with tomato pulp and olive cake-based feed blocks as supplements for lambs fed wheat straw. Animal Feed Science and Technology 147 206222CrossRefGoogle Scholar
Bodas, R, Manso, T, Mantecón, ÁR, Juárez, M, De La Fuente, & Gómez-Cortés, P 2010 Comparison of the fatty acid profiles in cheeses from ewes fed diets supplemented with different plant oils. Journal of Agricultural and Food Chemistry 58 1049310502CrossRefGoogle ScholarPubMed
Bourne, MC 1966 Measure of shear and compression components of puncture tests. Journal of Food Science 31 282291CrossRefGoogle Scholar
Chilliard, Y, Glasser, F, Ferlay, A, Bernard, L, Rouel, J & Doreau, M 2007 Diet, rumen biohydrogenation and nutritional quality of cow and goat milk fat. European Journal of Lipid Science and Technology 109 828855CrossRefGoogle Scholar
Chiofalo, B, Liotta, L, Zumbo, A & Chiofalo, V 2004 Administration of olive cake for ewe feeding: effect on milk yield and composition. Small Ruminant Research 55 169176CrossRefGoogle Scholar
Chiofalo, B, Riolo, EB, Fasciana, G, Liotta, L & Chiofalo, V 2010 Organic management of dietary rosemary extract in dairy sheep: effects on milk quality and clotting properties. Veterinary Research Communications 34 (Suppl. 1) S197S201CrossRefGoogle ScholarPubMed
Collomb, M & Bühler, T 2000 Analyse de la composition en acides gras de la graisse de lait. I. Optimisation et validation d'une méthode générale à haute résolution. Mitteilungen aus Lebensmitteluntersuchung und Hygiene 91 306332Google Scholar
Council for International Organizations of Medical Sciences 2010 International Guiding Principles for Biomedical Research Involving Animals. http://www.anim.med.kyoto-u.ac.jp/arcku/AnimExp/IGP.pdf (accessed on 11 November 2010)Google Scholar
Dhiman, T, Zanten, K & Satter, L 1995 Effect of dietary fat source on fatty acid composition of cow's milk. Journal of the Science of Food and Agriculture 69 101107CrossRefGoogle Scholar
Galal, S, Gürsoy, O & Shaat, I 2008 Awassi sheep as a genetic resource and efforts for their genetic improvement – A review. Small Ruminant Research 79 99108CrossRefGoogle Scholar
Han, J, Britten, M, St-Gelais, D, Champagne, CP, Fustier, P, Salmieri, S & Lacroix, M 2011 Effect of polyphenolic ingredients on physical characteristics of cheese. Food Research International 44 494497CrossRefGoogle Scholar
Hort, J & Le Grys, G 2001 Developments in the textural and rheological properties of UK Cheddar cheese during ripening. International Dairy Journal 11 475481CrossRefGoogle Scholar
Khiaosa-ard, R, Bryner, SF, Scheeder, MRL, Wettstein, H-R, Leiber, F, Kreuzer, M & Soliva, CR 2009 Evidence for inhibition of the terminal step of ruminal α-linolenic acid biohydrogenation by condensed tannins. Journal of Dairy Science 92 177188CrossRefGoogle ScholarPubMed
Khiaosa-ard, R, Klevenhusen, F, Soliva, CR, Kreuzer, M & Leiber, F 2010 Transfer of linoleic and linolenic acid from feed to milk in cows fed isoenergetic diets differing in proportion and origin of concentrates and roughages. Journal of Dairy Research 77 331336CrossRefGoogle ScholarPubMed
Kreuzer, M, Von Siebenthal, A, Kaufmann, A, Rätzer, H, Jakob, E & Sutter, F 1996 Determination of the relative efficacy to enhance milk renneting properties of alterations in dietary energy, breed and stage of lactation. Milchwissenschaft 51 633637Google Scholar
Leiber, F, Nigg, D, Kunz, C, Scheeder, MRL, Wettstein, H-R & Kreuzer, M 2005 Protein composition, plasmin activity and cheesemaking properties of cows’ milk produced at two altitudes from hay of lowland and high-alpine origins. Journal of Dairy Research 72 6574CrossRefGoogle ScholarPubMed
Makkar, HPS 2003 Quantification of Tannins in Tree and Shrub Foliage, A Laboratory Manual, 116 p. Dordrecht, The Netherlands: Kluwer Academic PublishersCrossRefGoogle Scholar
Meilgaard, M, Civille, GV & Carr, BT 1999 Sensory Evaluation Techniques, 3rd edition. Florida, USA: CRC PressCrossRefGoogle Scholar
Meullenet, J-FC, Carpenter, JA, Lyon, BG & Lyon, CE 1997 Bi-cyclical instrument for assessing texture profile parameters and its relationship to sensory evaluation of texture. Journal of Texture Studies 28 101118CrossRefGoogle Scholar
Molina-Alcaide, E & Yáñez Ruiz, D 2008 Potential use of olive by-products in ruminant feeding: a review. Animal Feed Science and Technology 147 247264CrossRefGoogle Scholar
Molkentin, J & Precht, D 2000 Validation of a gas-chromatographic method for the determination of milk fat contents in mixed fats by butyric acid analysis. European Journal of Lipid Science and Technology 102 1942013.0.CO;2-3>CrossRefGoogle Scholar
St-Gelais, D & Haché, S 2005 Effect of β-casein concentration in cheese milk on rennet coagulation properties, cheese composition and cheese ripening. Food Research International 38 523531CrossRefGoogle Scholar
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
Vasta, V, Nudda, A, Cannas, A, Lanza, M & Priolo, A 2008 Alternatives feed resources and their effects on the quality of meat and milk from small ruminants. Animal Feed Science and Technology 147 223246CrossRefGoogle Scholar
Zhang, RH, Mustafa, AF & Zhao, X 2006 Effects of feeding oilseeds rich in linoleic and linolenic fatty acids to lactating ewes on cheese yield and on fatty acid composition of milk and cheese. Animal Feed Science and Technology 127 220233CrossRefGoogle Scholar