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J Air Waste Manag Assoc


Title:Identification and evaluation of volatile organic compounds evolved during solarization with almond hull and shell amendments
Author(s):Shea E; Fernandez-Bayo JD; Pastrana AM; Simmons CW;
Address:"Food Science & Technology, UC Davis, Davis, CA, USA. Biological & Agricultural Engineering, UC Davis, Davis, CA, USA. Plant Pathology, UC Davis, Davis, CA, USA"
Journal Title:J Air Waste Manag Assoc
Year:2021
Volume:20210113
Issue:3
Page Number:400 - 412
DOI: 10.1080/10962247.2020.1846637
ISSN/ISBN:2162-2906 (Electronic) 1096-2247 (Linking)
Abstract:"Biosolarization is a fumigation alternative that combines solarization with organic amendments to suppress pests and pathogens in agricultural soils. The generation of volatile biopesticides in the soil, stemming from biodegradation of carbon-rich amendments, contributes to pest inactivation. The purpose of this study was to (1) profile volatiles that may contribute to pest control under field conditions and (2) measure volatile compounds that may present nuisance or exposure risks for humans near biosolarized fields where larger-scale anaerobic degradation of residues occurs. Biosolarization was performed using prominent agricultural waste products, hulls and shells from several almond varieties as soil amendments. After 8 days of biosolarization, soil samples were analyzed using solid phase microextraction-gas chromatography coupled to mass spectrometry. Volatile fatty acids and ketones made up 85% of biosolarized soil headspace, but terpenes, alcohols, aldehydes, esters, and sulfides were detected as well. Different almond variety residues produced distinct volatile profiles, and nonpareil-amended soils had a much richer and more diverse profile, as well as a fivefold greater VOC abundance, than pollinator-amended soil. Identified volatiles with low US recommended exposure limits were quantified via internal and external standards, including acetic acid, 2-butanone, butanal, hexanal, and phenylethyl alcohol. Across biosolarization treatments, headspace concentrations of selected compounds did not exceed 1 mg/m(3). This study demonstrates that almond processing residues recycled into the soil as biosolarization substrates produce a high diversity of bioactive degradation compounds on a field scale, with low potential of non-target risks to humans.Implications: This manuscript has implications for two policy goals in the state of California: to reduce landfill disposal of organic waste, and to reduce emissions from soil fumigants. Almond hulls and shells are an increasing source of organic waste, and novel recycling strategies must be developed. Here, recycling almond residues as soil amendments promoted the rapid formation of VOCs which may act as alternatives to chemical fumigants. Headspace concentrations of potentially deleterious VOCs produced from treated soil were low, on the order of parts per billion. These results will help achieve policy goals by expanding waste usage and fumigation alternatives"
Keywords:Gas Chromatography-Mass Spectrometry Humans *Prunus dulcis Soil *Volatile Organic Compounds/analysis Waste Products/analysis;
Notes:"MedlineShea, Emily Fernandez-Bayo, Jesus D Pastrana, Ana M Simmons, Christopher W eng U54 OH007550/OH/NIOSH CDC HHS/ Research Support, U.S. Gov't, P.H.S. 2020/12/16 J Air Waste Manag Assoc. 2021 Mar; 71(3):400-412. doi: 10.1080/10962247.2020.1846637. Epub 2021 Jan 13"

 
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