Rapid Assessment of Anthocyanins Content of Onion Waste through Visible-Near-Short-Wave and Mid-Infrared Spectroscopy Combined with Machine Learning Techniques

Nikolaos Tziolas,Stella A Ordoudi,Konstantinos Karyotis,Apostolos Tavlaridis,George Zalidis,Ioannis Mourtzinos

doi:10.3390/su13126588

Nikolaos Tziolas, Stella A Ordoudi + Show 4 more

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https://doi.org/10.3390/su13126588

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Journal: Sustainability	Publication Date: Jun 9, 2021
Citations: 3	License type: CC BY 4.0

Affiliation: Aristotle University of Thessaloniki

Abstract

A sustainable process for valorization of onion waste would need to entail preliminary sorting out of exhausted or suboptimal material as part of decision-making. In the present study, an approach for monitoring red onion skin (OS) phenolic composition was investigated through Visible Near-Short-Wave infrared (VNIR-SWIR) (350–2500 nm) and Fourier-Transform-Mid-Infrared (FT-MIR) (4000–600 cm−1) spectral analyses and Machine-Learning (ML) methods. Our stepwise approach consisted of: (i) chemical analyses to obtain reference values for Total Phenolic Content (TPC) and Total Monomeric Anthocyanin Content (TAC); (ii) spectroscopic analysis and creation of OS spectral libraries; (iii) generation of calibration and validation datasets; (iv) spectral exploratory analysis and regression modeling via several ML algorithms; and (v) model performance evaluation. Among all, the k-nearest neighbors model from 1st derivative VNIR-SWIR spectra at 350–2500 nm resulted promising for the prediction of TAC (R2 = 0.82, RMSE = 0.52 and RPIQ = 3.56). The 2nd derivative FT-MIR spectral fingerprint among 600–900 and 1500–1600 cm−1 proved more informative about the inherent phenolic composition of OS. Overall, the diagnostic value and predictive accuracy of our spectral data support the perspective of employing non-destructive spectroscopic tools in real-time quality control of onion waste.

Highlights

Huge amounts of onion (Allium cepa L) waste, consisting mainly of the skin and inedible outer scales of the bulb, are generated throughout their supply chain from the farm to retail stores and the households
It was observed that the samples originating from the Netherlands were far richer in monomeric anthocyanins
Even though a relatively small onion skin (OS) sample set was used in the current study, the variance in total phenol and total anthocyanin contents of these samples was in the low-high ranges that are typically reported in literature

Summary

Introduction

Huge amounts of onion (Allium cepa L) waste, consisting mainly of the skin and inedible outer scales of the bulb, are generated throughout their supply chain from the farm to retail stores and the households. In 2000, more than 450 000 tonnes of onion solid waste (OSW) were produced in Europe [1]; the tonnage is expected to be much higher today with increasing production [2]. Regardless of the season, cultivar, or ripening stage, OSW can be a potential source of fibers, fructooligosaccharides, the alk(en)yl cysteine sulfoxides and certain health-promoting phenolic compounds, especially flavonoids [3]. Onion flavonoids are found especially in the skin and outer layers [5], mainly in the form of quercetin aglycone.

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