Abstract
This preliminary study demonstrated the possibility of discriminating geographical origin of palm oils using conventional quality characteristics and UV‐visible spectroscopy. A total of 60 samples, 20 from each region (North (N), South (S), and Central (C)) of Ondo State Nigeria, were analyzed for their quality characteristics and UV‐visible spectra. Principal component analysis (PCA) and orthogonal projection to latent structure discriminant analysis (OPLS‐DA) were applied to elaborate the data. Models were built on the most informative portion of the spectra (250–550 nm) as: untreated (without pretreatment) and standard normal variate—second‐derivative‐treated (SNV+2der) data matrices. OPLS‐DA classification models were validated by independent prediction sets and cross‐validation. PCA score plots of both chemical and spectral data matrices revealed geographical distinction between the palm oil samples. Significantly high carotene content, free fatty acids, acid value, and peroxide value distinguished Central palm oils. K extinction values, color density, and chlorophyll content were the most important quality parameters separating North oil samples. In the discriminant models, over 95% and 85% percent correct classification were recorded for spectral and chemical data, respectively. These results cannot be considered exhaustive because of the limited sample size used. However, the study suggested a potential analytical technique suitable for geographical origin authentication of palm oils with additional advantages that include the following: speed, low cost, and minimal waste.
Highlights
The economic and nutritional contributions of palm oil to the World’s oils and fats industries are highly significant; exceeding soya oil by a wide margin (Mancini et al, 2015)
The acidity of the oils from the three regions considered varied between 6.71% and 9.52%, which is slightly outside the expected value (≤5.00%) for crude palm oil according to PORAM (2013) and CODEX 210 (2011) quality assessment criteria
peroxide value (PV) measures the extent of accumulation of primary oxidative product called “hydroperoxides” which has not been converted to secondary products responsible for actual deterioration of the oils and fats
Summary
The economic and nutritional contributions of palm oil to the World’s oils and fats industries are highly significant; exceeding soya oil by a wide margin (Mancini et al, 2015). Palm oil is relatively high in saturated fatty acid counterbalanced with monounsaturated and polyunsaturated in addition to other important minor bioactive phytonutrients (Odia, Ofori, & Maduka, 2015). These minor compounds include the following: carotenoids, tocopherols, chlorophyll, sterols, squalene, phospholipids, and about 1% polyphenols (Mba, Adewale, Dumont, & Ngadi, 2014). These chemical parameters vary with geographical origins of palm fruits from which the oil is obtained. Free fatty acids (FFAs), oil content, and maturation index of palm fruits are the three major parameters
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