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Main Authors: Haojie Gao, Fengqi Liu, Chong Han, Xiaochi Liu, Li Zhou, Jingzhi Zhang, Ranran Wang, Nan Zou, Daxia Zhang, Wei Mu, Yaozhong Zhang, Feng Liu
Format: Artículo Open Access
Published: Wiley 2024
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Online Access:https://scijournals.onlinelibrary.wiley.com/doi/10.1002/ps.8321
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author Haojie Gao
Fengqi Liu
Chong Han
Xiaochi Liu
Li Zhou
Jingzhi Zhang
Ranran Wang
Nan Zou
Daxia Zhang
Wei Mu
Yaozhong Zhang
Feng Liu
author_facet Haojie Gao
Fengqi Liu
Chong Han
Xiaochi Liu
Li Zhou
Jingzhi Zhang
Ranran Wang
Nan Zou
Daxia Zhang
Wei Mu
Yaozhong Zhang
Feng Liu
Haojie Gao
Fengqi Liu
Chong Han
Xiaochi Liu
Li Zhou
Jingzhi Zhang
Ranran Wang
Nan Zou
Daxia Zhang
Wei Mu
Yaozhong Zhang
Feng Liu
collection Wiley Open Access
contents A novel approach to managing facility airborne diseases: suppressing air pathogens with smoke aerosols generated from fungicide phase transition Haojie Gao Fengqi Liu Chong Han Xiaochi Liu Li Zhou Jingzhi Zhang Ranran Wang Nan Zou Daxia Zhang Wei Mu Yaozhong Zhang Feng Liu Pest Management Science AbstractBACKGROUNDEnvironmental microorganisms are major contributors to the development and spread of disease. Chemical disinfection can inhibit pathogens and play a preventive role against diseases. In agriculture, prolonging the floating time of chemical pesticides in the air has a positive effect on the control of airborne diseases. However, the interaction of chemical pesticides with airborne pathogens is not yet known.RESULTSHere, triazole fungicide was transformed into stable smoke aerosols in order to assess the feasibility of employing phase transition release pesticides for air disinfection. The phase transition had a minimal impact on hexaconazole (Hexa) and myclobutanil (Mycl), with their smoke formation rates remaining consistently >90%. In microscopic morphology, triadimenol (Tria) and epoxiconazole (Epox) are solid, and tebuconazole (Tebu), Hexa, Mycl and difenoconazole (Dife) are liquid. Liquid smoke has advantages over solid smoke in the inhibition of environmental pathogens. The floatability and spatial distribution of fungicide aerosol were optimized by the combination of smoke particles with different properties, so that the fungicide aerosol could meet the conditions of practical application. In practical applications, smoke exhibits a gentler deposition process at the target interface compared to spray, along with a more homogeneous distribution of fungicides. Moreover, fungicide smoke demonstrates superior control efficacy and leaves behind lower residual amounts on fruit.CONCLUSIONIn conclusion, the implementation of fungicide phase transition as a smoke aerosol offers a viable approach to effectively suppress pathogen aerosols and enhance the control of airborne diseases. © 2024 Society of Chemical Industry. 10.1002/ps.8321 http://onlinelibrary.wiley.com/termsAndConditions#vor
doi_str_mv 10.1002/ps.8321
format Artículo Open Access
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institution Wiley Open Access
license_str_mv http://onlinelibrary.wiley.com/termsAndConditions#vor
publishDate 2024
publisher Wiley
record_format wiley_oa
spellingShingle A novel approach to managing facility airborne diseases: suppressing air pathogens with smoke aerosols generated from fungicide phase transition
Haojie Gao
Fengqi Liu
Chong Han
Xiaochi Liu
Li Zhou
Jingzhi Zhang
Ranran Wang
Nan Zou
Daxia Zhang
Wei Mu
Yaozhong Zhang
Feng Liu
Pest Management Science
A novel approach to managing facility airborne diseases: suppressing air pathogens with smoke aerosols generated from fungicide phase transition Haojie Gao Fengqi Liu Chong Han Xiaochi Liu Li Zhou Jingzhi Zhang Ranran Wang Nan Zou Daxia Zhang Wei Mu Yaozhong Zhang Feng Liu Pest Management Science AbstractBACKGROUNDEnvironmental microorganisms are major contributors to the development and spread of disease. Chemical disinfection can inhibit pathogens and play a preventive role against diseases. In agriculture, prolonging the floating time of chemical pesticides in the air has a positive effect on the control of airborne diseases. However, the interaction of chemical pesticides with airborne pathogens is not yet known.RESULTSHere, triazole fungicide was transformed into stable smoke aerosols in order to assess the feasibility of employing phase transition release pesticides for air disinfection. The phase transition had a minimal impact on hexaconazole (Hexa) and myclobutanil (Mycl), with their smoke formation rates remaining consistently >90%. In microscopic morphology, triadimenol (Tria) and epoxiconazole (Epox) are solid, and tebuconazole (Tebu), Hexa, Mycl and difenoconazole (Dife) are liquid. Liquid smoke has advantages over solid smoke in the inhibition of environmental pathogens. The floatability and spatial distribution of fungicide aerosol were optimized by the combination of smoke particles with different properties, so that the fungicide aerosol could meet the conditions of practical application. In practical applications, smoke exhibits a gentler deposition process at the target interface compared to spray, along with a more homogeneous distribution of fungicides. Moreover, fungicide smoke demonstrates superior control efficacy and leaves behind lower residual amounts on fruit.CONCLUSIONIn conclusion, the implementation of fungicide phase transition as a smoke aerosol offers a viable approach to effectively suppress pathogen aerosols and enhance the control of airborne diseases. © 2024 Society of Chemical Industry. 10.1002/ps.8321 http://onlinelibrary.wiley.com/termsAndConditions#vor
title A novel approach to managing facility airborne diseases: suppressing air pathogens with smoke aerosols generated from fungicide phase transition
topic Pest Management Science
url https://scijournals.onlinelibrary.wiley.com/doi/10.1002/ps.8321