A Novel Technique Using Advanced Oxidation Process (UV-C/H2O2) Combined with Micro-Nano Bubbles on Decontamination, Seed Viability, and Enhancing Phytonutrients of Roselle Microgreens
Microbial contamination commonly occurs in microgreens due to contaminated seeds. This study investigated the decontamination effects of water wash (control), 5% hydrogen peroxide (H2O2 ), UV-C (36 watts), advanced oxidation process (AOP; H2O2 + UV-C), and improved AOP by combination with microb...
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my.unimas.ir.382202022-04-05T07:09:08Z http://ir.unimas.my/id/eprint/38220/ A Novel Technique Using Advanced Oxidation Process (UV-C/H2O2) Combined with Micro-Nano Bubbles on Decontamination, Seed Viability, and Enhancing Phytonutrients of Roselle Microgreens Phornvillay, Surisa Yodsarn, Suwanan Oonsrithong, Jiraporn Srilaong, Varit Pongprasert, Nutthachai S Agriculture (General) Microbial contamination commonly occurs in microgreens due to contaminated seeds. This study investigated the decontamination effects of water wash (control), 5% hydrogen peroxide (H2O2 ), UV-C (36 watts), advanced oxidation process (AOP; H2O2 + UV-C), and improved AOP by combination with microbubbles (MBs; H2O2 + MBs and H2O2 + UV-C + MBs) on microbial loads, seeds’ viability, and physio-biochemical properties of microgreens from corresponding roselle seeds. Results showed that H2O2 and AOP, with and without MBs, significantly reduced total aerobic bacteria, coliforms, Escherichia coli (E. coli), and molds and yeast log count in seeds as compared to the control. Improved AOP treatment of H2O2 + UV-C + MBs significantly augmented antimicrobial activity against total bacteria and E. coli (not detected,) as compared to control and other treatments due to the formation of the highest hydroxy radicals (5.25 × 10−13 M). Additionally, H2O2 and combined treatments promoted seed germination, improved microbiological quality, total phenolic, flavonoids, and 2,2-diphenyl-1-picrylhydrazyl radical (DPPH• ) activity of the grown microgreens. Ascorbic acid content was induced only in microgreens developed from H2O2 -treated seeds. Single UV-C treatment was ineffective to inactivate the detected microorganism population in seeds. These findings demonstrated that improved AOP treatment (H2O2 + UV-C + MBs) could potentially be used as a new disinfection technology for seed treatment in microgreens production. MDPI 2022 Article PeerReviewed text en http://ir.unimas.my/id/eprint/38220/1/A%20Novel%20Technique%20Using%20Advanced%20Oxidation%20Process.pdf Phornvillay, Surisa and Yodsarn, Suwanan and Oonsrithong, Jiraporn and Srilaong, Varit and Pongprasert, Nutthachai (2022) A Novel Technique Using Advanced Oxidation Process (UV-C/H2O2) Combined with Micro-Nano Bubbles on Decontamination, Seed Viability, and Enhancing Phytonutrients of Roselle Microgreens. Horticulturae, 8 (53). pp. 1-12. ISSN 2311-7524 10.3390/horticulturae8010053 |
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S Agriculture (General) Phornvillay, Surisa Yodsarn, Suwanan Oonsrithong, Jiraporn Srilaong, Varit Pongprasert, Nutthachai A Novel Technique Using Advanced Oxidation Process (UV-C/H2O2) Combined with Micro-Nano Bubbles on Decontamination, Seed Viability, and Enhancing Phytonutrients of Roselle Microgreens |
| description |
Microbial contamination commonly occurs in microgreens due to contaminated seeds.
This study investigated the decontamination effects of water wash (control), 5% hydrogen peroxide
(H2O2
), UV-C (36 watts), advanced oxidation process (AOP; H2O2 + UV-C), and improved AOP by
combination with microbubbles (MBs; H2O2 + MBs and H2O2 + UV-C + MBs) on microbial loads,
seeds’ viability, and physio-biochemical properties of microgreens from corresponding roselle seeds.
Results showed that H2O2 and AOP, with and without MBs, significantly reduced total aerobic
bacteria, coliforms, Escherichia coli (E. coli), and molds and yeast log count in seeds as compared to
the control. Improved AOP treatment of H2O2 + UV-C + MBs significantly augmented antimicrobial
activity against total bacteria and E. coli (not detected,) as compared to control and other treatments
due to the formation of the highest hydroxy radicals (5.25 × 10−13 M). Additionally, H2O2 and
combined treatments promoted seed germination, improved microbiological quality, total phenolic,
flavonoids, and 2,2-diphenyl-1-picrylhydrazyl radical (DPPH•
) activity of the grown microgreens.
Ascorbic acid content was induced only in microgreens developed from H2O2
-treated seeds. Single
UV-C treatment was ineffective to inactivate the detected microorganism population in seeds. These
findings demonstrated that improved AOP treatment (H2O2 + UV-C + MBs) could potentially be
used as a new disinfection technology for seed treatment in microgreens production. |
| format |
Article |
| author |
Phornvillay, Surisa Yodsarn, Suwanan Oonsrithong, Jiraporn Srilaong, Varit Pongprasert, Nutthachai |
| author_facet |
Phornvillay, Surisa Yodsarn, Suwanan Oonsrithong, Jiraporn Srilaong, Varit Pongprasert, Nutthachai |
| author_sort |
Phornvillay, Surisa |
| title |
A Novel Technique Using Advanced Oxidation Process (UV-C/H2O2) Combined with Micro-Nano Bubbles on Decontamination, Seed Viability, and Enhancing Phytonutrients of Roselle Microgreens |
| title_short |
A Novel Technique Using Advanced Oxidation Process (UV-C/H2O2) Combined with Micro-Nano Bubbles on Decontamination, Seed Viability, and Enhancing Phytonutrients of Roselle Microgreens |
| title_full |
A Novel Technique Using Advanced Oxidation Process (UV-C/H2O2) Combined with Micro-Nano Bubbles on Decontamination, Seed Viability, and Enhancing Phytonutrients of Roselle Microgreens |
| title_fullStr |
A Novel Technique Using Advanced Oxidation Process (UV-C/H2O2) Combined with Micro-Nano Bubbles on Decontamination, Seed Viability, and Enhancing Phytonutrients of Roselle Microgreens |
| title_full_unstemmed |
A Novel Technique Using Advanced Oxidation Process (UV-C/H2O2) Combined with Micro-Nano Bubbles on Decontamination, Seed Viability, and Enhancing Phytonutrients of Roselle Microgreens |
| title_sort |
novel technique using advanced oxidation process (uv-c/h2o2) combined with micro-nano bubbles on decontamination, seed viability, and enhancing phytonutrients of roselle microgreens |
| publisher |
MDPI |
| publishDate |
2022 |
| url |
http://ir.unimas.my/id/eprint/38220/1/A%20Novel%20Technique%20Using%20Advanced%20Oxidation%20Process.pdf http://ir.unimas.my/id/eprint/38220/ |
| _version_ |
1729708063984713728 |