Dimethyl disulfide (DMDS) as an effective soil fumigant against nematodes in China

Yan, Dongdong; Cao, Aocheng; Wang, Qiuxia; Li, Yuan; Ouyang, Canbin; Guo, Ming; Guo, Xuewu

doi:10.1371/journal.pone.0224456

Cited by 28 publications

(18 citation statements)

References 28 publications

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“…In the Pseudomonas genus, the production of volatiles such as dimethyl sulfide, dimethyl trisulfide, S -methyl thioacetate, methyl thiocyanate, 1-undecan, and HCN is a conserved trait and depends on the GacS/GacA two-component regulatory system ( Cheng et al, 2016 ; Ossowicki et al, 2017 ). It is worthy of noting that dimethyl disulfide has been used as a pre-plant soil fumigant against nematodes, weeds, and soil-borne plant pathogens ( Wang et al, 2009 ; Leocata et al, 2014 ; Mao et al, 2019 ; Yan et al, 2019 ). It acts by inducing mitochondria dysfunction, activation of ATP-sensitive potassium channels, and inhibition of cytochrome oxidase ( Auger et al, 1989 ; Van Wambeke et al, 2009 ).…”

Section: Discussionmentioning

confidence: 99%

“…Several compounds such as hydrogen cyanide (HCN), ammonia (NH3), 1-undecene, dimethyl disulfide, dimethyl trisulfide, and other volatiles have been identified in bacteria over years and often associated with the biocontrol of diverse plant pathogens ( De Vrieze et al, 2015 and references therein; Giorgio et al, 2015 ; Hunziker et al, 2015 ; Ossowicki et al, 2017 ; Guevara-Avenda[~no et al, 2019 ; Báez-Vallejo et al, 2020 ). Remarkably, dimethyl disulfide has found its application in agriculture as a novel soil fumigant ( Wang et al, 2009 ; Leocata et al, 2014 ; Mao et al, 2019 ; Yan et al, 2019 ).…”

Section: Introductionmentioning

confidence: 99%

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Basidiomycetes Are Particularly Sensitive to Bacterial Volatile Compounds: Mechanistic Insight Into the Case Study of Pseudomonas protegens Volatilome Against Heterobasidion abietinum

et al. 2021

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Volatile organic compounds (VOCs) play an important role in the communication among organisms, including plants, beneficial or pathogenic microbes, and pests. In vitro, we observed that the growth of seven out of eight Basidiomycete species tested was inhibited by the VOCs of the biocontrol agent Pseudomonas protegens strain CHA0. In the Ascomycota phylum, only some species were sensitive (e.g., Sclerotinia sclerotiorum, Botrytis cinerea, etc.) but others were resistant (e.g., Fusarium oxysporum f. sp. cubense, Verticillium dahliae, etc.). We further discovered that CHA0 as well as other ten beneficial or phytopathogenic bacterial strains were all able to inhibit Heterobasidion abietinum, which was used in this research as a model species. Moreover, such an inhibition occurred only when bacteria grew on media containing digested proteins like peptone or tryptone (e.g., Luria-Bertani agar or LBA). Also, the inhibition co-occurred with a pH increase of the agar medium where the fungus grew. Therefore, biogenic ammonia originating from protein degradation by bacteria was hypothesized to play a major role in fungus inhibition. Indeed, when tested as a synthetic compound, it was highly toxic to H. abietinum (effective concentration 50% or EC50 = 1.18 M; minimum inhibitory concentration or MIC = 2.14 M). Using gas chromatography coupled to mass spectrometry (GC/MS), eight VOCs were found specifically emitted by CHA0 grown on LBA compared to the bacterium grown on potato dextrose agar (PDA). Among them, two compounds were even more toxic than ammonia against H. abietinum: dimethyl trisulfide had EC50 = 0.02 M and MIC = 0.2 M, and 2-ethylhexanol had EC50 = 0.33 M and MIC = 0.77 M. The fungus growth inhibition was the result of severe cellular and sub-cellular alterations of hyphae occurring as early as 15 min of exposure to VOCs, as evidenced by transmission and scanning electron microscopy observations. Transcriptome reprogramming of H. abietinum induced by CHA0’s VOCs pointed out that detrimental effects occurred on ribosomes and protein synthesis while the cells tried to react by activating defense mechanisms, which required a lot of energy diverted from the growth and development (fitness cost).

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Basidiomycetes Are Particularly Sensitive to Bacterial Volatile Compounds: Mechanistic Insight Into the Case Study of Pseudomonas protegens Volatilome Against Heterobasidion abietinum

et al. 2021

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“…Hence, there is necessity for development of a cost‐effective process for conversion of the waste methyl mercaptan gas to a useful product, which will generate wealth. Our third objective was conversion of hazardous methyl mercaptan to dimethyl disulfide which is used as herbicide, [31] food additive, [32] and soil fumigant [33] . We also report the conversion of the generated methyl mercaptan gas to dimethyl disulfide, followed by conversion to methane sulfonic acid during heating, in presence of catalytic amount of iodine in DMSO (Scheme 1).…”

Section: Figurementioning

confidence: 99%

Solvent‐Free Single‐Pot Mannich Reaction and Detoxification of Industrial Hazardous Waste Methyl Mercaptan Gas

et al. 2021

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Environment pollution is causing serious human health issues and forest deterioration. Methyl mercaptan is a malodorous gaseous pollutant, which is a by product of sewage treatment plants, pulp plants, petrochemical plants, agrochemicals, and some pharmaceutical products. A long term exposure to methyl mercaptan may lead to adverse effects on central nervous system and cardiovascular system. The pharmaceutical industries are devoting significant efforts to develop process by using green solvents like water, and develop solvent‐free reactions. This will help to develop green, sustainable methods for the synthesis of API and reduce the manufacturing cost. A ZnCl2 catalyzed solvent‐free, one‐pot process for the synthesis of ranitidine and quenching of hazardous waste methyl mercaptan gas to a useful product have been developed.

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“…, 15 cm, 20 cm (Table 3) . Ou (2006) (vertually impermeable film, VIF) polyethylene film (PE) MNa , Yan (2019) . , MNa 1,3-D, chloropicrin (Desaeger , 2008…”

Section: Mna (Sl) Dmdsmentioning

confidence: 99%

Efficacy of a Soil Disinfection Machine for Fumigants to Clover Cyst Nematode

Ko¹,

Lee²,

Kang³

et al. 2020

Res. Plant Dis

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Clover cyst nematode, Heterodera trifolii, is one of the most important plant-parasitic nematode on Kimchicabbage in highland in Korea. Recently, a demand of soil disinfection machine for fumigants is increasing. This study was conducted to assess the control effects of a newly developed prototype soil disinfection machine to the cyst nematode. Two fumigants, dimethyl disulfide (DMDS) and metam sodium (MNa), were treated using the machine in a field, which was infected with the cyst nematode. After 4 weeks, control effects of fumigants were assessed as eggs hatching rates inside of cysts extracted from the soil, and as a number of females reproduced in roots of Kimchi-cabbage. DMDS (39 l/10 a) suppressed over 99.0% of the eggs hatching rate and the number of females reproduced. On the other hand, MNa (29 l/10 a) controlled the egg hatching rates from minimum 78.3% to maximum 99.4%, and the number of females from 34.7% to 49.3%. The control effects of two fumigants to clover cyst nematode by treated depth were no significant differences statistically. These results showed that DMDS treatment using the soil disinfection machine was expected to have the control effects for the clover cyst nematode.

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Dimethyl disulfide (DMDS) as an effective soil fumigant against nematodes in China

Cited by 28 publications

References 28 publications

Basidiomycetes Are Particularly Sensitive to Bacterial Volatile Compounds: Mechanistic Insight Into the Case Study of Pseudomonas protegens Volatilome Against Heterobasidion abietinum

Basidiomycetes Are Particularly Sensitive to Bacterial Volatile Compounds: Mechanistic Insight Into the Case Study of Pseudomonas protegens Volatilome Against Heterobasidion abietinum

Solvent‐Free Single‐Pot Mannich Reaction and Detoxification of Industrial Hazardous Waste Methyl Mercaptan Gas

Efficacy of a Soil Disinfection Machine for Fumigants to Clover Cyst Nematode

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