Reprint

Target and Non-Target Approaches for Food Authenticity and Traceability

Edited by
September 2022
278 pages
  • ISBN978-3-0365-5458-7 (Hardback)
  • ISBN978-3-0365-5457-0 (PDF)

This is a Reprint of the Special Issue Target and Non-Target Approaches for Food Authenticity and Traceability that was published in

Biology & Life Sciences
Chemistry & Materials Science
Engineering
Public Health & Healthcare
Summary

Over the last few years, the subject of food authenticity and food fraud has received increasing attention from consumers and other stakeholders, such as government agencies and policymakers, control labs, producers, industry, and the research community. Among the different approaches aiming to identify, tackle, and/or deter fraudulent practices in the agri-food sector, the development of new, fast, and accurate methodologies to evaluate food authenticity is of major importance. This book, entitled “Target and Non-Target Approaches for Food Authenticity and Traceability”, gathers original research and review papers focusing on the development and application of both targeted and non-targeted methodologies applied to verify food authenticity and traceability. The contributions regard different foods, among which some are frequently considered as the most prone to adulteration, such as olive oil, honey, meat, and fish. This book is intended for readers aiming to enrich their knowledge through reading contemporary and multidisciplinary papers on the topic of food authentication.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
COIBar–RFLP (cytochrome oxidase I barcode–restriction fragment length polymorphism); seafood; fraud; DNA barcoding; food authenticity; food adulteration; food fraud; donkey; cytochrome b; real-time PCR; meat products; honey; regional origin; chemometric analysis; mineral content; Montenegro; Sepia; common cuttlefish; Sepia officinalis; real-time PCR (Polymerase Chain Reaction); species identification; food authentication; COI (Cytochrome Oxidase I); Olea europaea var Sylvestris; oleaster; olive; olive oil; real-time PCR; adulteration; SNP; DNA; virgin olive oil; quality; volatile compounds; sensory analysis; chemometrics; anti food fraud; Curcuma longa; DNA markers; species identification; SYBR-GREEN real-time PCR; Zea mays; pasta; Triticum aestivum; Triticum durum; genetic traceability; digital PCR; semolina; species; truffle; Tuber spp.; food authentication; species differentiation; near-infrared spectroscopy; chemometrics; red deer; roe deer; water deer; multiplex PCR; capillary electrophoresis; perilla; sesame; geographic origin; metabolomics; multivariate analysis; metabolite profiling; real-time PCR; quantification; chicken; guinea fowl; pheasant; quail; turkey; authentication; authenticity; chemometric; fish; origin; honey; meat; milk; spectroscopy; species; 1H-NMR; GC-MS; HPLC-UV/VIS; metabolomics; food fraud; protein hydrolysate; free amino acid contents; ProHydrAdd; monofloral honey; direct analysis in real time (DART); high resolution mass spectrometry (HRMS); geographical origin; chemometrics; adulteration; authenticity; Ginkgo biloba; plant infusions; real-time polymerase chain reaction; DNA extraction; opium poppy; seed; pollen grains; bakery product; oil; PCR; authenticity; fish; Salmo salar L.; fatty acids; mislabeling; chemometrics; machine learning; n/a