Abstract
Commercially, extra virgin olive oil (EVOO) is subjected to be adulterated with low-price oils having similar color to EVOO. Fourier transform infrared (FTIR) spectroscopy combined with chemometrics has been successfully used for classification and quantification of corn (CO) and sunflower oils (SFOs) in EVOO sets. The combined frequency regions of 3027–3000, 1076–860, and 790–698 cm−1 were used for classification and quantification of CO in EVOO; meanwhile, SFO was analyzed using frequency regions of 3025–3000 and 1400–985 cm−1. Discriminant analysis can make classification of pure EVOO and EVOO adulterated with CO and SFO with no misclassification reported. The presence of CO in EVOO was determined with the aid of partial least square calibration using FTIR normal spectra. The calibration and validation errors obtained in CO's quantification are 0.404 and 1.13%, respectively. Meanwhile, the first derivative FTIR spectra and PLS calibration model were preferred for quantification of SFO in EVOO with high coefficient of determination (R 2) and low errors, either in calibration or in validation sample sets.
Highlights
Extra virgin olive oil (EVOO) is the highest classes of olive oil accounting for an approximately of 10% from olive oil production
Corn, and sunflower oils were obtained from several supermarkets in Yogyakarta, Indonesia
sunflower oils (SFOs) and CO exhibited a maximum absorbance at 3009 cm−1, while extra virgin olive oil (EVOO) has maximum peak absorbance at 3006 cm−1
Summary
Extra virgin olive oil (EVOO) is the highest classes of olive oil accounting for an approximately of 10% from olive oil production. Olive oil is among the most important oils used by humans. Olive has contributed to a great economic and social importance for the Mediterranean regions [1]. The olive oil is not strictly consumed by Mediterranean people. Olive oil has high price; olive oil is subjected to be adulterated with other oils having similar color like corn and sunflower oils [2]. The adulteration practice may cause severe health and safety problems, especially to whom having allergy history [4]. There is no doubt that the detection of adulteration needs to be addressed in order to ensure the quality of EVOO [5]
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