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International Journal of Food Properties Volume 20, 2017 - Issue 9
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Articles

Quantitative determination of the iodine values of unsaturated plant oils using infrared and Raman spectroscopy methods

Lucyna DymińskaDepartment of Bioorganic Chemistry, Institute of Chemistry and Food Technology, Faculty of Engineering and Economics, Wrocław University of Economics, Wrocław, PolandCorrespondence[email protected]
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,
Maciej CalikDepartment of Bioorganic Chemistry, Institute of Chemistry and Food Technology, Faculty of Engineering and Economics, Wrocław University of Economics, Wrocław, PolandView further author information
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Abduladhim Moamer M. AlbegarFaculty of Agriculture, Azzaytuna University, Azzaytuna, LibyaView further author information
,
Adam ZającDepartment of Bioorganic Chemistry, Institute of Chemistry and Food Technology, Faculty of Engineering and Economics, Wrocław University of Economics, Wrocław, PolandView further author information
,
Kamil KostyńFaculty of Biotechnology Sciences, Wrocław University, Przybyszewskiego, PolandView further author information
,
Jadwiga LorencDepartment of Bioorganic Chemistry, Institute of Chemistry and Food Technology, Faculty of Engineering and Economics, Wrocław University of Economics, Wrocław, PolandView further author information
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Jerzy HanuzaInstitute of Low Temperature and Structure Research, Polish Academy of Sciences, Wrocław, PolandView further author information
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Pages 2003-2015 | Received 14 Jun 2016, Accepted 27 Aug 2016, Published online: 05 Jan 2017

References

  • Bartlet, J.G.; Mahon, J.H. Identification of Oils and the Detection of Oil Adulteration by Differential Infrared Spectroscopy. Journal of the American Chemical Society 1958, 41(2), 450–459.
  • Sinclair, R.G.; Mackay, A.F.; Myers, G.S.; Jones, R.N. The Infrared Absorption Spectra of Unsaturated Fatty Acids and Esters. Journal of the American Chemical Society 1952, 74, 2578–2585.
  • Sadeghi-Jorabchi, H.; Hendra, P.J.; Wilson, R.H.; Belton, P. Determination of the Total Unsatufration in Oilos and Margarines by Fourier Transform Raman Spectroscopy. Journal of the American Oil Chemists’ Society 1990, 67, 483–486.
  • Safar, M.; Bertrand, D.; Robert, P.; Devaux, M.F.; Genot, C. Characterization of Edible Oils, Butters and Margarines by Fourier Transform Infrared Spectroscopy with Attenuated Total Reflectance. Journal of the American Oil Chemists’ Society 1994, 71, 371–377.
  • Lai, Y.W.; Kemsley, E.K.; Wilson, R.H. Potential of Fourier Transform Infrared Spectroscopy for the Authentication of Vegetable Oils. Journal of Agricultural and Food Chemistry 1994, 42, 1154–1159.
  • Baeten, V.; Meurens, M.; Morales, M.T.; Aparicio, R. Detection of Virgin Olive Oil Adulteration by Fourier Transform Raman Spectroscopy. Journal of Agricultural and Food Chemistry 1996, 44, 2225–2230.
  • Dupuy, N.; Duponchel, L.; Huvenne, J.P.; Sombret, B.; Legrand, P. Quantitative Determination of Polymer and Mineral Content in Paper Coatings by Infrared Spectroscopy. Improvements by Non-Linear Treatments. Food Chemistry 1996, 57, 245–251.
  • Guillen, M.D.; Cabo, N. Characterization of Edible Oils and Lard by Fourier Transform Infrared Spectroscopy. Relationships Between Composition and Frequency of Concrete Bands in the Fingerprint Region. Journal of the American Oil Chemists’ Society 1997, 74, 1281–1286.
  • Guillén, M.D.; Cabo, N. Relationships Between the Composition of Edible Oils and Lard and the Ratio of the Absorbance of Specific Bands of Their Fourier Transform Infrared Spectra. Role of Some Bands of the Fingerprint Region. Journal of Agricultural and Food Chemistry 1998, 46, 1788–1793.
  • Marigheto, N.A.; Kemsley, E.K.; Defernez, M.; Wilson, R.H. A Comparison of Mid-Infrared and Raman Spectroscopies for the Authentication of Edible Oils. Journal of the American Oil Chemists’ Society 1998, 75, 987–992.
  • Baeten, V.; Aparicio, R. Edible Oils and Fats Authentication by Fourier Transform Raman Spectrometry. Biotechnology Agronomy Society and Environment 2000, 4, 196–203.
  • Davis, A.N.; McIntyre, P.; Morgan, E.D. Study of the Use of Molecular Spectroscopy for the Authentication of Extra Virgin Olive Oils. Part I: Fourier Transform Raman Spectroscopy. Applied Spectroscopy 2000, 54, 1864–1867.
  • Barthus, R.C.; Poppi, R.J. Determination of the Total Unsaturation in Vegetable Oils by Fourier Transform Raman Spectroscopy and Multivariate Calibration. Vibrational Spectroscopy 2001, 26, 99–105.
  • Tay, A.; Singh, R.K.; Krishnan, S.S.; Core, J.P. Authentication of Olive Oil Adulterated with Vegetable Oils Using Fourier Transform Infrared Spectroscopy. LWT–Food Science and Technology 2002, 35, 99–103.
  • Tapp, H.S.; Defernez, M.; Kemsley, E.K. FTIR Spectroscopy and Multivariate Analysis Can Distinguish the Geographic Origin of Extra Virgin Olive Oils. Journal of Agricultural and Food Chemistry 2003, 51, 6110–6115.
  • Rusak, D.A.; Brown, L.M.; Martin, S.D. Classification of Vegetable Oils by Principal Component Analysis of FTIR Spectra. Journal of Chemical Education 2003, 80, 541–543.
  • Schulz, H.; Baranska, M.; Belz, H.-H.; Rösch, P.; Strehle, M.A.; Poll, J. Chemotaxonomic Characterisation of Essential Oil Plants by Vibrational Spectroscopy Measurements. Vibrational Spectroscopy 2005, 35, 81–86.
  • Strehle, M.A.; Rösch, P.; Baranska, M.; Schulz, H.; Popp, J. On the Way to a Quality Control of the Essential Oil of Fennel by Means of Raman Spectroscopy. Biopolymers 2005, 77, 44–52.
  • Yang, H.; Irudayraj, J.; Paradkar, M.M. Discriminant Analysis of Edible Oils and Fats by FTIR, FT-NIR and FT-Raman Spectroscopy. Food Chemistry 2005, 93, 25–32.
  • Schulz, H.; Ōzkan, G.; Baranska, M.; Krüger, H.; Ozcan, M. Characterisation of Essential Oil Plants from Turkey by IR and Raman Spectroscopy. Vibrational Spectroscopy 2005, 39, 249–256.
  • Baeten, V.; Pierna, J.A.F.; Dardenne, P.; Meurens, M.; Garciäa-Gonzaälez, D.L.; Aparicio-Ruiz, R. Detection of the Presence of Hazelnut Oil in Olive Oil by FT-Raman and FT-MIR Spectroscopy. Journal of Agricultural and Food Chemistry 2005, 53, 6201–6206.
  • Vlachos, N.; Skopelitis, Y.; Psaroudaki, M.; Konstantinidou, V.; Chatsilazarou, A.; Tegou, E. Applications of Fourier Transform-Infrared Spectroscopy to Edible Oils. Analytica Chimica Acta 2006, 573–574, 459–465.
  • Strehle, K.R.; Rösch, P.; Berg, D.; Schulz, H.; Popp, J. Quality Control of Commercially Available Essential Oils by Means of Raman Spectroscopy. Journal of Agricultural and Food Chemistry 2006, 54, 7020–7026.
  • Bendini, A.; Cerretani, L.; Di Virgilio, A.; Belloni, P.; Bonoli-Carbognin, M.; Lercker, G. Preliminary Evaluation of the Application of the FTIR Spectroscopy to Control the Geographic Origin and Quality of Virgin Olive Oils. Journal of Food Quality 2007, 30, 424–437.
  • Sinelli, N.; Cosio, M.S.; Gigliotti, C.; Casiraghi, E. Preliminary Study on Application of Mid Infrared Spectroscopy for the Evaluation of the Virgin Olive Oil “Freshness.” Analytica Chimica Acta 2007, 598, 128–134.
  • El-Abassy, R.M.; Donfack, P.; Materny, A. Visible Raman Spectroscopy for the Discrimination of Olive Oils from Different Vegetable Oils and the Detection of Adulteration. Journal of Raman Spectroscopy 2009, 40, 1284–1289.
  • Lerma-Garcia, M.J.; Ramis-Ramos, G.; Herrero-Martinez, J.M.; Simo-Alfonso, E.F. Authentication of Extra Virgin Olive Oils by Fourier-Transform Infrared Spectroscopy. Food Chemistry 2010, 118, 78–83.
  • Samyn, P.; Van Niuwkerke, D.; Schoukens, G.; Vonck, L.; Stanssens, D.; Van den Aabbeele, H. Quality and Statistical Classification of Brazilian Vegetable Oils Using Mid-Infrared and Raman Spectroscopy. Applied Spectroscopy 2012, 66, 552–562.
  • Siddiqui, N.; Ahmad, A. Infrared Spectroscopic Studies on Edible and Medicinal Oils. International Journal of Science, Environment and Technology 2013, 2, 1297–1306.
  • Jentzsch, P.V.; Ciobota, V. Raman Spectroscopy As An Analytical Tool for Analysis of Vegetable and Essential Oils. Flavour and Fragrance Journal 2014, 29, 287–295.
  • Rohman, A.; Windarsih, A.; Riyanto, S.; Sudjadi; Ahmad, A.S.; Rosman, A.S.; Yusoff, F.M. Fourier Transform Infrared Spectroscopy Combined with Multivariate Calibrations for the Authentication of Avocado Oil. International Journal of Food Properties 2016, 19, 680–687.
  • Lai, Y.W.; Kemsley, E.K.; Wilson, R.H. Quantitative Analysis of Potential Adulterants of Extra Virgin Olive Oil Using Infrared Spectroscopy. Food Chemistry 1995, 53, 95–98.
  • Wesley, I.J.; Pacheco, F.; McGill, A.E.J. Identification of Adulterants in Olive Oils. Journal of the American Chemical Society 1996, 73, 515–518.
  • Yang, H.; Irudayaraj, J. Comparison of Near-Infrared, Fourier Transform-Infrared, and Fourier Transform-Raman Methods for Determining Olive Pomace Oil Adulteration in Extra Virgin Olive Oil. Journal of the American Oil Chemists’ Society 2001, 78, 889–895.
  • Che Man, Y.B.; Marina, A.M.; Rohman, A.; Al-Kahtani, H.A.; Norazura, O. A Fourier Transform Infrared Spectroscopy Method for Analysis of Palm Oil Adulterated with Lard in Pre-Fried French Fries. International Journal of Food Properties 2014, 17, 354–362.
  • Ozen, B.; Maurer, L. Detection of Hazelnut Oil Adulteration Using FT-IR Spectroscopy. Journal of Agricultural and Food Chemistry 2002, 50, 3898–3901.
  • Lopez-Diez, E.C.; Bianchi, G.; Goodacre, R. Rapid Quantitative Assessment of the Adulteration of Virgin Olive Oils with Hazelnut Oils Using Raman Spectroscopy and Chemometrics. Journal of Agricultural and Food Chemistry 2003, 51, 6145–6150.
  • Ozen, B.F.; Weiss, I.; Mauer, L. Dietary Supplement Oil Classification and Detection of Adulteration Using Fourier Transform Infrared Spectroscopy. Journal of Agricultural and Food Chemistry 2003, 51, 5871–5876.
  • Christy, A.A.; Kasemsumran, S.; Du, Y.; Ozaki, Y. The Detection and Quantification of Adulteration in Olive Oil by Near-Infrared Spectroscopy and Chemometrics. Analytical Sciences 2004, 20, 935–940.
  • Baeten, V.; Pierna, F.J.A.; Dardenne, P.; Meurens, M.; Garciäa-Gonzaälez, D.L.; Aparicio-Ruiz, R. Detection of the Presence of Hazelnut Oil in Olive Oil by FT-Raman and FT-MIR Spectroscopy. Journal of Agricultural and Food Chemistry 2005, 53, 6201–6206.
  • Kasemsumran, S.; Kang, N.; Christy, A.; Ozaki, Y. Partial Least Squares Processing of Near-Infrared Spectra for Discrimination and Quantification of Adulterated Olive Oils. Spectroscopy Letters 2005, 38, 839–851.
  • Fragaki, G.; Spyros, A.; Siragakis, G.; Salivaras, E.; Dais, P. Detection of Extra Virgin Olive Oil Adulteration with Lampante Olive Oil and Refined Olive Oil Using Nuclear Magnetic Resonance Spectroscopy and Multivariate Statistical Analysis. Journal of Agricultural and Food Chemistry 2005, 53, 2810–2816.
  • Wang, L.; Lee, F.S.C.; Wang, X.; He, Y. Feasibility Study of Quantifying and Discriminating Soybean Oil Adulteration in Camellia Oils by Attenuated Total Reflectance MIR and Fiber Optic Diffuse Reflectance NIR. Food Chemistry 2006, 95, 529–526.
  • Manaf, M.A.; Che Man, Y.B.; Hamid, N.S.A.; Ismail, A.; Abidin, S.Z. Analysis of Adulteration of Virgin Coconut Oil by Palm Kernel Olein Using Fourier Transform Infrared Spectroscopy. Journal of Food Lipids 2007, 14, 111–121.
  • Allam, M.; Hamed, S.F. Application of FTIR Spectroscopy in the Assessment of Olive Oil Adulteration. Journal of Applied Sciences Research 2007, 3, 102–108.
  • Groselj, M.; Vracko, M.M.; Pierna, J.A.F.; Baeten, V.; Novic, M. The Use of FT-MIR Spectroscopy and Counter-Propagation Artificial Neural Networks for Tracing the Adulteration of Olive Oil. Acta Chimica Slovenica 2008, 55, 935–941.
  • Gurdeniz, G.; Ozen, B. Detection of Adulteration of Extra-Virgin Olive Oil by Chemometric Analysis of Mid-Infrared Spectral Data. Food Chemistry 2009, 116, 519–525.
  • Obeidad, S.M.; Khanfar, M.S.; Obeidad, W.M. Classification of Edible Oils and Uncovering Adulteration of Virgin Olive Oil Using FTIR with the Aid of Chemometrics. Australian Journal of Basic and Applied Sciences 2009, 3, 2048–2053.
  • Alexa, E.; Dragomirescu, A.; Pop, G.; Lianu, C.; Dragos, D. The Use of FT-IR Spectroscopy in the Identification of Vegetable Oils Adulteration. Journal of Food, Agriculture and Environment 2009, 7, 20–24.
  • Gergen, I. Metode Spectroscopice de Investigare Si Control a Compozitiei Alimentelor. Editura Agroprint, Timisoara (Spectroscopic methods of investigation and control of food composition) 2009, 113–119.
  • El-Abassy, R.M.; Donfack, P.; Materny, A. Visible Raman Spectroscopy for the Discrimination of Olive Oils from Different Vegetable Oils and the Detection of Adulteration. Journal of Raman Spectroscopy 2009, 40, 1284–1289.
  • Rohman, A.; Man, Y.B.C. Fourier Transform Infrared (FTIR) Spectroscopy for Analysis of Extra Virgin Olive Oil Adulterated with Palm Oil. Food Research International 2010, 43, 886–892.
  • Maggio, R.M.; Cerretani, L.; Chiavaro, E.; Kaufman, T.S.; Bendibi, A. A Novel Chemometric Strategy for the Estimation of Extra Virgin Olive Oil Adulteration with Edible Oils. Food Control 2010, 21, 890–895.
  • Poiana, M.-A.; Mousdis, G.; Ersilia, A.; Moigradean, D.; Nwgrea, M.; Mateescu, C. Application of FT-IR Spectroscopy to Assess the Oil Adulteration. Journal of Agroalimentary Processes and Technologies 2012, 18, 277–282.
  • Rohman, A.; Che Man, Y.B.; Nurrulhidayah, A.F. Fourier-Transform Infrared Spectra Combined with Chemometrics and Fatty Acid Composition for Analysis of Pumpkin Seed Oil Blended Into Olive Oil. International Journal of Food Properties 2015, 18, 1086–1096.
  • Oussama, A.; Elabadi, F.; Platinakov, S.; Kzaiber, F.; Tauler, R. Detection of Olive Oil Adulteration Using FT-IR Spectroscopy and PLS with Variable Importance of Projection (VIP) Scores. Journal of the American Oil Chemists’ Society 2012, 89, 1807–1812.
  • Liang, P.; Wang, H.; Chen, C.; Ge, F.; Liu, D.; Li, S.; Han, B.; Xiong, X.; Zhao, S. The Use of Fourier Transform Infrared Spectroscopy for Quantification of Adulteration in Virgin Walnut Oil. Journal of Spectroscopy 2013, ID 305604, 1–6.
  • Pandurangan, M.K.; Murugesan, S.; Gajivaradhan, P. Application of FTIR Spectroscopy to Assess the Groundnut Oil Adulteration. Journal of Chemical and Pharmaceutical Research 2014, 6, 553–560.
  • Sheibani, A.; Ghotbaddini-Bahraman, N.; Sadeghi, F. FT-IR Application for the Detection of Pistachio Oil Adulteration. Oriental Journal of Chemistry 2014, 30, 1205–1209.
  • Poiana, M.-A.; Alexa, E.; Mounteanu, M.-F.; Gligor, R.; Moigradean, D.; Mateescu, C. Use of ATR-FTIR Spectroscopy to Detect the Changes in Extra Virgin Olive Oil by Adulteration with Soybean Oil and High Temperature Heat Treatment. Open Chemistry 2015, 13, 689–698.
  • Arnold, R.G.; Hartung, T.E. Infrared Spectroscopic Determination of Degree of Unsaturation of Fats and Oil. Journal of Food Science 1971, 36, 166–168.
  • Bailey, G.F.; Horvat, R.J. Raman Spectroscopic Analysis of the Cis/Trans Isomer Composition of Edible Vegetable Oils. Journal of the American Oil Chemists’ Society 1972, 49, 494–498.
  • Bernard, J.L.; Sims, L.G. IR Spectroscopy for Determination of Total Unsaturation. Industrial Research and Development 1980, 22, 81–83.
  • Sadeghi-Jorabchi, H.; Wilson, R.H.; Belton, P.S.; Edwards-Webb, J.D.; Coxon, D.T. Quantitative Analysis of Oils and Fats by Fourier Transform Raman Spectroscopy. Spectrochimica Acta A 1991, 47A, 1449–1458.
  • Afran, A.; Newbery, J.E. Analysis of the Degree of Unsaturation in Edible Oils by Fourier Transform-Infrared/Attenuated Total Reflectance. Spectroscopy 1991, 6, 31–34.
  • Ulberth, F.; Haider, H.J. Determination of Low Level Trans Unsaturation in Fats by Fourier Transform Infrared Spectroscopy. Journal of Food Science 1992, 57, 1444–1447.
  • Muniategui, S.; Paseiro, P.; Simal, J. Measurement of the Degree of Unsaturation of Oils and Fats Using Infra-Red Spectroscopy and Its Relationship with Iodine Value. Grasas y Aceites 1992, 43, 1–5.
  • Li-Chan, E.C.Y. The applications of Raman Spectroscopy in Food Science. Trends in Food Science and Technology 1996, 7, 361–370.
  • Kinder, R.; Ziegler, C.; Wessels, J.M. γ-Irradiation and UV-C Light-Induced Lipid Peroxidation: A Fourier Transform-Infrared Absorption Spectroscopic Study. International Journal of Radiation Biology 1997, 71, 561–571.
  • Yoshida, S.; Yoshida, H. Nondestructive Analyses of Unsaturated Fatty Acid Species in Dietary Oils by Attenuated Total Reflectance with Fourier Transform IR Spectroscopy. Biopolymers (Biospectroscopy) 2003, 70, 604–613.
  • Christy, A.A., Egeberg, P.K. Quantitative Determination of Saturated and Unsaturated Fatty Acids in Edible Oils by Infrared Spectroscopy and Chemometrics. Chemometrics and Intelligent Laboratory Sysytems 2006, 82, 130–136.
  • Silveira, F.L.; Silveira, L.; Villaverde, A.B.; Pacheco, M.T.T.; Pasqualucci, C.A. Use of Dispersive Raman Spectroscopy in the Determination of Unsaturated Fat in Commercial Edible Oil- and Fat-Containing Industrialized Foods. Instrumentation Science and Technology 2010, 38, 107–123.
  • Van der Voort, F.R.; Sedman, J.; Emo, G.; Ismail, A.A. Rapid and Direct Lodine Value and Saponification Number Determination of Fats and Oils by Attenuated Total Reflectance/Fourier Transform Infrared Spectroscopy. Journal of the American Oil Chemists’ Society 1992, 69, 1118–1123.
  • Baeten, V.; Hourant, P.; Morales, M.T.; Aparicio, R. Oil and Fat Classification by FT-Raman Spectroscopy. Journal of Agricultural and Food Chemistry 1998, 46, 2638–2646.
  • Li, H.; Van de Voort, F.R.; Ismail, A.A.; Sedman, J.; Cox, R.; Simard, C. Discrimination of Edible Oil Products and Quantitative Determination of Their Iodine Value by Fourier Transform Near-Infrared Spectroscopy. Journal of the American Oil Chemists’ Society 2000, 77, 29–36.
  • Yuan, J.-J.; Wang, Ch.-Z.; Chen, H.-X.; Ye, J.-Z.; Zhou, H. Identification and Detection of Adulterated Camellia Oleifera Abel. Oils by Near Infrared Transmittance Spectroscopy. International Journal of Food Properties 2016, 19, 300–313.
  • Baeten, V.; Aparicio, R.; Marigheto, N.; Wilson, R. Olive Oil Analysis by Infrared and Raman Spectroscopy: Methodologies and Applications. In Handbook of Olive Oil; Harwood; et al.; Ed.; Springer Science Business Media: New York, NY, 2000.
  • Chapman, D. Infrared Spectroscopy of Lipids. Journal of the American Oil Chemists’ Society 1965, 42, 353–371.

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