chia oil
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Author(s):  
María Gabriela Bordón ◽  
Romina Mariana Bodoira ◽  
Agustín González ◽  
Roxana Piloni ◽  
Pablo Daniel Ribotta ◽  
...  

2021 ◽  
Vol 149 ◽  
pp. 110703
Author(s):  
Juliana Cavalli ◽  
Mariana A. Freitas ◽  
Elaine C.D. Gonçalves ◽  
Guilherme P. Fadanni ◽  
Adara A. Santos ◽  
...  

2021 ◽  
pp. 107336
Author(s):  
Víctor M. Pizones Ruiz-Henestrosa ◽  
Lucie Ribourg ◽  
Alice Kermarrec ◽  
Marc Anton ◽  
Ana Pilosof ◽  
...  

2021 ◽  
Author(s):  
Ana Carolina Moreira Silva ◽  
Reny Angela Renzetti ◽  
Alan Massayuki Perdizio Sakita ◽  
Rodrigo Lassarote Lavall ◽  
Andreza de Sousa Andrada ◽  
...  

Foods ◽  
2021 ◽  
Vol 10 (8) ◽  
pp. 1798
Author(s):  
Monica Mburu ◽  
Clement Komu ◽  
Olivier Paquet-Durand ◽  
Bernd Hitzmann ◽  
Viktoria Zettel

Chia oil is a valuable source of omega-3-fatty acids and other nutritional components. However, it is expensive to produce and can therefore be easily adulterated with cheaper oils to improve the profit margins. Spectroscopic methods are becoming more and more common in food fraud detection. The aim of this study was to answer following questions: Is it possible to detect chia oil adulteration by spectroscopic analysis of the oils? Is it possible to identify the adulteration oil? Is it possible to determine the amount of adulteration? Two chia oils from local markets were adulterated with three common food oils, including sunflower, rapeseed and corn oil. Subsequently, six chia oils obtained from different sites in Kenya were adulterated with sunflower oil to check the results. Raman, NIR and fluorescence spectroscopy were applied for the analysis. It was possible to detect the amount of adulterated oils by spectroscopic analysis, with a minimum R2 of 0.95 for the used partial least square regression with a maximum RMSEPrange of 10%. The adulterations of chia oils by rapeseed, sunflower and corn oil were identified by classification with a median true positive rate of 90%. The training accuracies, sensitivity and specificity of the classifications were over 90%. Chia oil B was easier to detect. The adulterated samples were identified with a precision of 97%. All of the classification methods show good results, however SVM were the best. The identification of the adulteration oil was possible; less than 5% of the adulteration oils were difficult to detect. In summary, spectroscopic analysis of chia oils might be a useful tool to identify adulterations.


Author(s):  
María Gabriela Bordón ◽  
Noelia Pía Ximena Alasino ◽  
Álvaro Villanueva-Lazo ◽  
Cecilio Carrera-Sánchez ◽  
Justo Pedroche-Jiménez ◽  
...  

Author(s):  
Carolina Aranibar ◽  
Natalia B. Pigni ◽  
Marcela L. Martínez ◽  
Alicia Aguirre ◽  
Pablo D. Ribotta ◽  
...  

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