2020
DOI: 10.3389/fsufs.2020.593568
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Two Food Waste By-Products Selectively Stimulate Beneficial Resident Citrus Host-Associated Microbes in a Zero-Runoff Indoor Plant Production System

Abstract: The global production of food waste is a far-reaching problem with sizable financial, ethical, social, and environmental costs. Over 66 million tons of food waste is produced annually in the United States alone. This waste can be converted into valuable digestate by-products that promote a circular economy within agri-food systems. The present work investigated the use of two liquid digestates of microaerobic fermentation from mixed food waste and beer mash, respectively, as biostimulants for non-bearing citru… Show more

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Cited by 8 publications
(1 citation statement)
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“…Beyond the development and validation of the MagMAX ™ -RT-qPCR system, its successful implementation was supported by the integration of robotic pipetting systems and a series of standard operating procedures for swab testing and decontamination protocols allowing the technical personnel, regardless of experience level, to use the method with consistent results with little or no troubleshooting needs (Osman and Vidalakis, 2022;Vidalakis et al, 2022;Dang et al, 2022). This systems approach allowed the use of MagMAX ™ isolated nucleic acids not only for pathogen detection but also for high-throughput sequencing-based microbiome field and greenhouse studies for different citrus tissue types (i.e., stems, leaves, and roots) (Ginnan et al, 2018;Ginnan et al, 2020;Pagliaccia et al, 2020).…”
Section: Discussionmentioning
confidence: 99%
“…Beyond the development and validation of the MagMAX ™ -RT-qPCR system, its successful implementation was supported by the integration of robotic pipetting systems and a series of standard operating procedures for swab testing and decontamination protocols allowing the technical personnel, regardless of experience level, to use the method with consistent results with little or no troubleshooting needs (Osman and Vidalakis, 2022;Vidalakis et al, 2022;Dang et al, 2022). This systems approach allowed the use of MagMAX ™ isolated nucleic acids not only for pathogen detection but also for high-throughput sequencing-based microbiome field and greenhouse studies for different citrus tissue types (i.e., stems, leaves, and roots) (Ginnan et al, 2018;Ginnan et al, 2020;Pagliaccia et al, 2020).…”
Section: Discussionmentioning
confidence: 99%