Bavaro Simona Lucia
Álvarez-Ordóñez Avelino
Capozzi Vittorio4- 1Institute of Sciences of Food Production, National Research Council (CNR), Grugliasco, Italy
- 2Department of Food Hygiene and Technology, Universidad de León, León, Spain
- 3Institute of Food Science and Technology, Universidad de León, León, Spain
- 4Institute of Sciences of Food Production, National Research Council (CNR), Foggia, Italy
Editorial on the Research Topic
Microbial-based solutions to reduce contaminants in foods and beverages
During different stages of food production, from the farm to the fork, many foods and beverages are prone to chemical and biological contaminations, improving the risks of making them unsuitable for consumption. Globally, ~14% of food produced is lost between harvest and retail, while an estimated 17% of total global food production is wasted (11% in households, 5% in food services, and 2% in retail; United Nations, 2022; https://www.un.org/en/observances/end-food-waste-day). Recently, microorganisms have been extensively used in the food chain to preserve the safety, nutritional properties, and, more generally, quality of food products. Among the different contaminants/spoilage control strategies, biopreservation has been proposed as an alternative method (Hernández et al., 2022; Kasimin et al., 2022) to extend the shelf life of foods by inoculating selected bacteria that can inhibit the growth of undesirable contaminants (Agriopoulou et al., 2020). Moreover, many studies have been conducted on the development of microbial strategies to reduce toxic by-products of microbial origin (e.g., mycotoxins and biogenic amines), chemical contaminants (e.g., polychlorinated biphenyls, dioxin-like compounds, pesticide residues, and perchlorate), or intrinsic factors, which are part of the food product itself, such as allergens.
The goal of the present Research Topic is to give an overview of the use of microbial-based biotools and their application in the food chain. Therefore, contributions were gathered from scientists working in diverse disciplines with common interests in microbiology. The objective is that bringing together seemingly different lines of research under one cover can result in a more global understanding of biopreservation/bioremediation, and perhaps draw new insight into food safety and food quality fields.
In this perspective, it was highlighted how the microorganisms and their enzymes can be used for mycotoxin and heavy metal detoxification or for inhibiting the growth of undesired microbes in various foodstuffs and feeds.
In particular, Abraham et al. provide a comprehensive review of the microbial enzymatic transformation of major mycotoxins, discussing the potential application of enzymes for mycotoxin detoxification and promoting their implementation as a successful strategy to remove these contaminants from foods/feeds.
The study by Wang et al. is focused on the molecular mechanisms underlying cadmium (Cd) tolerance in Hypomyces chrysospermus (H. chrysospermus), a fungal parasite that grows on Boletus species, with a strong ability to tolerate and absorb Cd. The exposure of H. chrysospermus to Cd stress has revealed that large amounts of differentially expressed genes were mainly involved in the translation, amino acid metabolism, transport and catabolism, carbohydrate metabolism, folding/sorting, and degradation pathways under Cd stress, providing new insights into the detoxification mechanisms of heavy metal-tolerant fungi and improved fungal bioremediation strategies. Olowe et al. investigated the use of Trichoderma species in the sustainable management of Fusarium infections, affecting oak and rice crops and characterizing its effects by biological and molecular tools. The obtained results showed that more members of the genus Trichoderma could have promising antagonistic prowess against fungi of economic importance, such as Fusarium species.
Shen et al. evaluated the potential risk of foodborne pathogen contaminations during blueberry production in the field, with or without derived ammonium sulfate (AS) fertilizer, by monitoring total coliforms and generic Escherichia coli and the main foodborne pathogens, including Shiga toxin-producing Escherichia coli (STEC), Salmonella, and Listeria monocytogenes. The study demonstrated that, under good agricultural practices, blueberries produced in fields, with or without manure-derived fertilizer AS, had food safety concerns only for Salmonella in early-season soil samples. On the contrary, total coliforms and generic Escherichia coli, STEC, and L. monocytogenes were all below the detection limit in all samples collected during production seasons.
Finally, the original research article by Donaghy et al. illustrated, nowadays, as big data analysis, in a dynamic risk management system, could be used in real time to identify hazards and control STEC risks related to leafy greens. At the same time, Dong and Feng highlighted that the high-throughput sequencing methods and analysis for microbiome research, combined with a farming food safety practice survey, can be used to explore the plant and environmental microbiomes in hydroponic cropping ecosystems. These outputs could provide customized and targeted improvement strategies throughout the hydroponic chain.
In conclusion, these studies present the progress in microbial bioremediation, food microbiology, and food biotechnologies, providing new information for the design of “Microbial-based solutions to reduce contaminants in foods and beverages.” However, deep investigations are still needed to develop precision fermentation biotools to improve the global quality/safety of food and beverage products and their economic, social, and environmental repercussions.
Author contributions
All authors contributed to the article and approved the submitted version.
Conflict of interest
The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
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References
Agriopoulou, S., Stamatelopoulou, E., Sachadyn-Król, M., and Varzakas, T. (2020). Lactic acid bacteria as antibacterial agents to extend the shelf life of fresh and minimally processed fruits and vegetables: Quality and safety aspects. Microorganisms 8, 1–23. doi: 10.3390/microorganisms8060952
Hernández, A., Rodríguez, A., Córdoba, M. G., Martín, A., Ruiz-moyano, S., Souza, A., et al. (2022). Fungal control in foods through biopreservation. Curr. Opin. Food Sci. 47, 100904. doi: 10.1016/j.cofs.2022.100904
Kasimin, M. E., Shamsuddin, S., Molujin, A. M., Sabullah, M. K., Gansau, J. A., and Jawan, R. (2022). Enterocin: Promising biopreservative produced by Enterococcus sp. Microorganisms 10, 40684. doi: 10.3390/microorganisms10040684
United Nations (2022). International Day of Awareness on Food Loss and Waste Reduction 29 September. Available online at: https://www.un.org/en/observances/end-food-waste-day (accessed May 8, 2023).
Keywords: microorganism, food safety, food quality, bioremediation, food and beverage
Citation: Lucia BS, Avelino Á-O and Vittorio C (2023) Editorial: Microbial-based solutions to reduce contaminants in foods and beverages. Front. Microbiol. 14:1192658. doi: 10.3389/fmicb.2023.1192658
Received: 23 March 2023; Accepted: 20 April 2023;
Published: 16 May 2023.
Edited and reviewed by: Aldo Corsetti, University of Teramo, Italy
Copyright © 2023 Lucia, Avelino and Vittorio. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
*Correspondence: Bavaro Simona Lucia, simona.bavaro@ispa.cnr.it