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Rapid detection of adulteration of milks from different species using Fourier Transform Infrared Spectroscopy (FTIR)

Published online by Cambridge University Press:  22 May 2018

Olgun Cirak
Affiliation:
Faculty of Chemistry-Metallurgy, Department of Food Engineering, Yildiz Technical University, 34210, Istanbul, Turkey
N. Cihat Icyer
Affiliation:
Faculty of Chemistry-Metallurgy, Department of Food Engineering, Yildiz Technical University, 34210, Istanbul, Turkey Department of Food Engineering, Faculty of Engineering and Architecture, Mus Alparslan University, 49100, Mus, Turkey
M. Zeki Durak*
Affiliation:
Faculty of Chemistry-Metallurgy, Department of Food Engineering, Yildiz Technical University, 34210, Istanbul, Turkey
*
*For correspondence; e-mail: [email protected]

Abstract

The aim of the studies reported in the Research Communication was to develop a rapid spectroscopic technique as an alternative method for the classification and discrimination of milk sources by Fourier transform infrared spectroscopy (FTIR). Cow, sheep and water buffalo milk samples were collected from various local milk producers in Istanbul, Turkey. In addition, various brands of packaged milk were purchased locally. Spectrums were obtained according to milk species origin and binary mixtures prepared in increments of 10% (10, 20, 30, 40, 50, 60, 70, 80 and 90%) for each sample analysed in FTIR spectroscopy. A successful milk species (cow, sheep, and water buffalo) discrimination and classification were achieved utilising Hierarchical cluster and principle component analyses (PCA) on the basis of Euclidean distance and Ward's algorithm. Amide-I (1700–1600/cm) and Amide-II (1565–1520/cm) spectral bands were used in the chemometric method. The results of the study indicated that adulteration of milk samples can be quantitatively detected by the FTIR technique in a short time with high accuracy. In conclusion, this method could be used as a new alternative technique for routine analysis in authenticity control of milk species origin.

Type
Research Article
Copyright
Copyright © Hannah Dairy Research Foundation 2018 

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References

Cebi, N 2012 Beyaz Peynirlerde Kimyasal Kompozisyonun Mikro Ölçekte Dağılımının Mikro-Ftır İle Belirlenmesi. Master's Thesis. İstanbul, Turkey: Istanbul Technical University Institute of Science and TechnologyGoogle Scholar
Curda, L & Kukackova, O 2004 NIR spectroscopy: a useful tool for rapid monitoring of processed cheeses manufacture. Journal of Food Engineering 61 557560CrossRefGoogle Scholar
Jaiswal, P, Jha, SN, Borah, A, Gautam, A, Grewal, MK & Jindal, G 2015 Detection and quantification of soymilk in cow–buffalo milk using attenuated total reflectance Fourier transform infrared spectroscopy (ATR–FTIR). Food Chemistry 168 4147CrossRefGoogle ScholarPubMed
Laporte, MF & Paquin, P 1999 Near-İnfrared analysis of Fat, protein and casein in cow's milk. Journal of Agricultural and Food Chemistry 47 26002605CrossRefGoogle ScholarPubMed
Mabood, F, Jabeen, F, Ahmed, M, Hussain, J, Al Mashaykhi, SAA, Al Rubaiey, MA, Farooq, S, Boqué, R, Ali, L, Hussain, Z, Al-Harrasi, A, Khan, AL, Naureen, Z, Idrees, M & Manzoor, S 2017 Development of new NIR-spectroscopy method combined with multivariate analysis for detection of adulteration in camel milk with goat milk. Food Chemistry 221 746750CrossRefGoogle ScholarPubMed
Ozulku, G, Yildirim, RM, Toker, OS, Karasu, S & Durak, MZ 2017 Rapid detection of adulteration of cold pressed sesame oil adultered with hazelnut, canola, and sunflower oils using ATR-FTIR spectroscopy combined with chemometric. Food Control 82 212216CrossRefGoogle Scholar
Tan, M, Gan, D, Wei, L, Pan, Y, Tang, S & Wang, H 2011 Isolation and characterization of pigment from Cinnamomum Burmannii peel. Food Research International 44 22892294CrossRefGoogle Scholar
Tsenkova, R, Atanassova, S, Kawano, S & Toyoda, K 2001 Somatic cell count determination in cow's milk by near-İnfrared spectroscopy: a new diagnostic tool. American Society of Animal Science 79 25502557Google ScholarPubMed
Yapık, Ö 2014 Adıyaman İlinde Süt Üretim Çiftliklerinde Üretilen Çiğ Sütler İle Sokak Sütlerinin Bazı Kimyasal ve Mikrobiyolojik Özelliklerinin Belirlenmesi Üzerine Karşılaştırmalı Bir Araştırma. Master's Thesis. Sanliurfa, Turkey: Harran University Institute of Science and TechnologyGoogle Scholar