Advanced search
Publication Cover
Italian Journal of Animal Science Volume 19, 2020 - Issue 1
Submit an article Journal homepage
1,723
Views
5
CrossRef citations to date
0
Altmetric
Papers

Volatile fingerprinting of ripened cheese for authentication and characterisation of different dairy systems

M. BergamaschiDipartimento di Agronomia, Animali, Alimenti, Risorse naturali e Ambiente. Università di Padova, Legnaro, Italy
,
A. CecchinatoDipartimento di Agronomia, Animali, Alimenti, Risorse naturali e Ambiente. Università di Padova, Legnaro, ItalyCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-3518-720X
ORCID Icon &
G. BittanteDipartimento di Agronomia, Animali, Alimenti, Risorse naturali e Ambiente. Università di Padova, Legnaro, Italy
Pages 173-185 | Received 26 Jul 2019, Accepted 26 Dec 2019, Published online: 24 Jan 2020

References

  • 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. J Dairy Sci. 85(11):2948–2963.
  • Bergamaschi M, Aprea E, Betta E, Biasioli F, Cipolat-Gotet C, Cecchinato A, Bittante G, Gasperi F. 2015. Effects of dairy system, herd within dairy system, and individual cow characteristics on the volatile organic compound profile of ripened model cheeses. J Dairy Sci. 98(4):2183–2196.
  • Bergamaschi M, Biasioli F, Cappellin L, Cecchinato A, Cipolat-Gotet C, Cornu A, Gasperi F, Martin B, Bittante G. 2015. Proton transfer reaction time-of-flight mass spectrometry: a high-throughput and innovative method to study the influence of dairy system and cow characteristics on the volatile compound fingerprint of cheeses. J Dairy Sci. 98(12):8414–8427.
  • Bergamaschi M, Cecchinato A, Biasioli F, Gasperi F, Martin B, Bittante G. 2016. From cow to cheese: genetic parameters of the flavour fingerprint of cheese investigated by direct-injection mass spectrometry (PTR-ToF-MS). Gen Sel Evol. 48:1–14.
  • Biasioli F, Gasperi F, Aprea E, Endrizzi I, Framondino V, Marini F, Mott D, Märk TD. 2006. Correlation of PTR-MS spectral fingerprints with sensory characterisation of flavour and odour profile of ‘Trentingrana’ cheese. Food Qual Prefer. 17(1–2):63–75.
  • Bittante G, Cecchinato A, Cologna N, Penasa M, Tiezzi F, De Marchi M. 2011. Factors affecting the incidence of first-quality wheels of Trentingrana cheese. J Dairy Sci. 94(7):3700–3707.
  • Bittante G, Cologna N, Cecchinato A, De Marchi M, Penasa M, Tiezzi F, Endrizzi I, Gasperi F. 2011. Monitoring of sensory attributes used in the quality payment system of Trentingrana cheese. J Dairy Sci. 94(11):5699–5709.
  • Boscaini E, Van Ruth S, Biasioli F, Gasperi F, Märk TD. 2003. Gas chromatography-olfactometry (GC-O) and proton transfer reaction-mass spectrometry (PTR-MS) analysis of the flavor profile of Grana Padano, Parmigiano Reggiano, and Grana Trentino cheeses. J Agric Food Chem. 51(7):1782–1790.
  • Buchin S, Delague V, Duboz G, Berdague JL, Beuvier E, Pochet S, Grappin R. 1998. Influence of pasteurization and fat composition of milk on the volatile compounds and flavor characteristics of a semi-hard cheese. J Dairy Sci. 81(12):3097–3108.
  • Buchin S, Duboz G, Salmon JC. 2017. Lactobacillus delbrueckii subsp. lactis as a starter culture significantly affects the dynamics of volatile compound profiles of hard cooked cheeses. Eur Food Res Technol. 243(11):1943–1955.
  • Cappellin L, Biasioli F, Fabris A, Schuhfried E, Soukoulis C, Märk TD, Gasperi F. 2010. Improved mass accuracy in PTR-TOF-MS: another step towards better compound identification in PTR-MS. Int J Mass Spec. 290(1):60–63.
  • Cappellin L, Karl T, Probst M, Ismailova O, Winkler PM, Soukoulis C, Aprea E, Märk TD, Gasperi F, Biasioli F. 2012. On quantitative determination of volatile organic compound concentrations using proton transfer reaction time-of-flight mass spectrometry. Environ Sci Technol. 46(4):2283–2290.
  • Carbonell M, Nuñez M, Fernández-García E. 2002. Seasonal variation of volatile compounds in ewe raw milk La Serena cheese. Lait. 82(6):699–711.
  • Carpino S, Mallia S, La Terra S, Melilli C, Licitra G, Acree TE, Barbano DM, Van Soest PJ. 2004. Composition and aroma compounds of ragusano cheese: native pasture and total mixed rations. J Dairy Sci. 87(4):816–830.
  • Cipolat-Gotet C, Cecchinato A, De Marchi M, Bittante G. 2013. Factors affecting variation of different measures of cheese yield and milk nutrient recovery from an individual model cheese-manufacturing process. J Dairy Sci. 96(12):7952–7965.
  • Coppa M, Ferlay A, Chassaing C, Agabriel C, Glasser F, Chilliard Y, Borreani G, Barcarolo R, Baars T, Kusche D, et al. 2013. Prediction of bulk milk fatty acid composition based on farming practices collected through on-farm surveys. J Dairy Sci. 96(7):4197–4211.
  • Coppa M, Martin B, Agabriel C, Chassaing C, Sibra C, Constant I, Graulet B, Andueza D. 2012. Authentication of cow feeding and geographic origin on milk using visible and near-infrared spectroscopy. J Dairy Sci. 95(10):5544–5551.
  • Coppa M, Martin B, Pradel P, Leotta B, Priolo A, Vasta V. 2011. Effect of a hay-based diet or different upland grazing systems on milk volatile compounds. J Agric Food Chem. 59(9):4947–4954.
  • Cornu A, Carnat A, Martin B, Coulon J, Lamaison J-L, Berdague J-L. 2001. Solid-phase microextraction of volatile components from natural. J Agric Food Chem. 49(1):203–209.
  • Cornu A, Rabiau N, Kondjoyan N, Verdier-Metz I, Pradel P, Tournayre P, Berdagué JL, Martin B. 2009. Odour-active compound profiles in Cantal-type cheese: effect of cow diet, milk pasteurization and cheese ripening. Int Dairy J. 19(10):588–594.
  • Couvreur S, Hurtaud C, Marnet PG, Faverdin P, Peyraud JL. 2007. Composition of milk fat from cows selected for milk fat globule size and offered either fresh pasture or a corn silage-based diet. J Dairy Sci. 90(1):392–403.
  • Croissant AE, Washburn SP, Dean LL, Drake MA. 2007. Chemical properties and consumer perception of fluid milk from conventional and pasture-based production systems. J Dairy Sci. 90(11):4942–4953.
  • Curioni PMG, Bosset JO. 2002. Key odorants in various cheese types as determined by gas chromatography-olfactometry. I Dairy J. 12(12):959–984.
  • Ehtesham E, Baisden WT, Keller ED, Hayman AR, Van Hale R, Frew RD. 2013. Correlation between precipitation and geographical location of the δ2H values of the fatty acids in milk and bulk milk powder. Geo Cosm Acta. 111:105–116.
  • Fabris A, Biasioli F, Granitto PM, Aprea E, Cappellin L, Schuhfried E, Soukoulis C, Märk TD, Gasperi F, Endrizzi I. 2010. PTR-TOF-MS and data-mining methods for rapid characterisation of agro-industrial samples: influence of milk storage conditions on the volatile compounds profile of Trentingrana cheese. J Mass Spectrom. 45(9):1065–1074.
  • Fernandez C, Astier C, Rock E, Coulon JB, Berdagué JL. 2003. Characterization of milk by analysis of its terpene fractions. Int J Food Sci Tech. 38(4):445–451.
  • Galle SA, Koot A, Soukoulis C, Cappellin L, Biasioli F, Alewijn M, Van Ruth SM. 2011. Typicality and geographical origin markers of protected origin cheese from the Netherlands revealed by PTR-MS. J Agric Food Chem. 59(6):2554–2563.
  • Garde S, Ávila M, Fernández-García E, Medina M, Nuñez M. 2007. Volatile compounds and aroma of Hispánico cheese manufactured using lacticin 481-producing Lactococcus lactis subsp. lactis INIA 639 as an adjunct culture. Int Dairy J. 17(6):717–726.
  • Granato D, Putnik P, Bursać Kovačević D, Sousa Santos J, Calado V, Silva Rocha R, Gomes Da Cruz A, Jarvis B, Ye Rodionova O, Pomerantsev A. 2018. Trends in chemometrics: food authentication, microbiology, and effects of processing. Comprehensive Reviews in Food Science and Food Safety. 17(3):663–677.
  • Houssin B, Chenais F, Foret A. 2003. Influence du régime hivernal des vaches laitières sur la qualité organoleptique des beurres et des camemberts. Renc Rech Ruminants. 10:219–222.
  • Hurtaud C, Dutreuil M, Coppa M, Agabriel C, Martin B. 2014. Characterization of milk from feeding systems based on herbage or corn silage with or without flaxseed and authentication through fatty acid profile. Dairy Sci Technol. 94(2):103–123.
  • Imhof R, Glättli H, Bosset JO. 1995. Volatile organic compounds produced by thermophilic and mesophilic single strain dairy starter cultures. LWT Food Sci Technol. 28(1):78–86.
  • Jiménez-Carvelo A.M, González-Casado A, Bagur-González M.G, Cuadros-Rodríguez L. 2019. Alternative data mining/machine learning methods for the analytical evaluation of food quality and authenticity – a review. Food Res Int. 122:25–39.
  • Kalač P. 2011. The effects of silage feeding on some sensory and health attributes of cow’s milk: a review. Food Chem. 125(2):307–317.
  • Kolver ES, Muller LD. 1998. Performance and nutrient intake of high producing holstein cows consuming pasture or a total mixed ration. J Dairy Sci. 81(5):1403–1411.
  • Lindinger W, Hansel A, Jordan A. 1998. On-line monitoring of volatile organic compounds at pptv levels by means of proton-transfer-reaction mass spectrometry (PTR-MS) medical applications, food control and environmental research. Int J Mass Spectr Ion Pro. 173(3):191–241.
  • Martin B, Jestin M, Constant I, Agabriel C, Andueza D. 2006. Authentification de la zone de production de laits de grand mélange (plaine – montagne) à partir de méthodes spectrales dans le visible et le proche infrarouge Traceability of tanker milk origin (plain – mountain) using visible or near infra-red spect. Renc Rech Ruminants. 13:194.
  • Martin B, Verdier-Metz I, Buchin S, Hurtaud C, Coulon J-B. 2005. How do the nature of forages and pasture diversity influence the sensory quality of dairy livestock products? Anim Sci. 81(2):205–212.
  • McSweeney PLH, Sousa MJ. 2000. Biochemical pathways for the production of flavour compounds in cheeses during ripening: a review. Lait. 80(3):293–324.
  • Nagaraja TG. 2012. A Microbiologist’s view on improving nutrient utilization in ruminants. Proc 23rd Annual Florida Ruminant Nutrition Symposium. p. 135–161.
  • Renou JP, Deponge C, Gachon P, Bonnefoy JC, Coulon JB, Garel JP, Vérité R, Ritz P. 2004. Characterization of animal products according to geographic origin and feeding diet using nuclear magnetic resonance and isotope ratio mass spectrometry: cow milk. Food Chem. 85(1):63–66.
  • Revello Chion A, Tabacco E, Giaccone D, Peiretti PG, Battelli G, Borreani G. 2010. Variation of fatty acid and terpene profiles in mountain milk and ‘Toma piemontese’ cheese as affected by diet composition in different seasons. Food Chem. 121(2):393–399.
  • Slots T, Butler G, Leifert C, Kristensen T, Skibsted LH, Nielsen JH. 2009. Potentials to differentiate milk composition by different feeding strategies. J Dairy Sci. 92(5):2057–2066.
  • Stefanon B, Procida G. 2004. Effects of including silage in the diet on volatile compound profiles in Montasio cheese and their modification during ripening. J Dairy Res. 71(1):58–65.
  • Stergiadis S, Leifert C, Seal CJ, Eyre MD, Nielsen JH, Larsen MK, Slots T, Steinshamn H, Butler G. 2012. Effect of feeding intensity and milking system on nutritionally relevant milk components in dairy farming systems in the north east of England. J Agric Food Chem. 60(29):7270–7281.
  • Tornambé G, Cornu a, Pradel P, Kondjoyan N, Carnat A P, Petit M, Martin B. 2006. Changes in terpene content in milk from pasture-fed cows. J Dairy Sci. 89(6):2309–2319.
  • Toso B, Procida G, Stefanon B. 2002. Determination of volatile compounds in cows’ milk using headspace GC-MS. J Dairy Res. 69(4):569–577.
  • Valenti B, Martin B, Andueza D, Leroux C, Labonne C, Lahalle F, Larroque H, Brunschwig P, Lecomte C, Brochard M, et al. 2013. Infrared spectroscopic methods for the discrimination of cows’ milk according to the feeding system, cow breed and altitude of the dairy farm. Int Dairy J. 32(1):26–32.
  • Verdier I, Coulon JB, Pradel P, Berdagué JL. 1995. Effect of forage type and cow breed on the characteristics of matured Saint-Nectaire cheeses. Lait. 75(6):523–533.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.