Trends in Chemometrics: Food Authentication, Microbiology, and Effects of Processing

Overview

Journal Compr Rev Food Sci Food Saf

Specialties Biotechnology
Nutritional Sciences

Date 2020 Dec 22

PMID 33350122

Citations 61

Authors

Daniel Granato

Predrag Putnik

Danijela Bursac Kovacevic

Janio Sousa Santos

Veronica Calado

Ramon Silva Rocha

Adriano Gomes da Cruz

Basil Jarvis

Oxana Ye Rodionova

Alexey Pomerantsev

Affiliations

Soon will be listed here.

Abstract

In the last decade, the use of multivariate statistical techniques developed for analytical chemistry has been adopted widely in food science and technology. Usually, chemometrics is applied when there is a large and complex dataset, in terms of sample numbers, types, and responses. The results are used for authentication of geographical origin, farming systems, or even to trace adulteration of high value-added commodities. In this article, we provide an extensive practical and pragmatic overview on the use of the main chemometrics tools in food science studies, focusing on the effects of process variables on chemical composition and on the authentication of foods based on chemical markers. Pattern recognition methods, such as principal component analysis and cluster analysis, have been used to associate the level of bioactive components with in vitro functional properties, although supervised multivariate statistical methods have been used for authentication purposes. Overall, chemometrics is a useful aid when extensive, multiple, and complex real-life problems need to be addressed in a multifactorial and holistic context. Undoubtedly, chemometrics should be used by governmental bodies and industries that need to monitor the quality of foods, raw materials, and processes when high-dimensional data are available. We have focused on practical examples and listed the pros and cons of the most used chemometric tools to help the user choose the most appropriate statistical approach for analysis of complex and multivariate data.

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