BackgroundIn order to improve the biological control agent (BCA) efficacy, stress factors threatening the viability of microorganisms during spray application need to be determined. The effect of spray mixture temperature and exposure time on Trichoderma harzianum T 22 and Bacillus amyloliquefaciens QST713 viability were tested. Concurrently the combined effect of mechanical and thermal stress effect on BCA viability were tested at two initial spray mixture temperatures (14 and 25 & DEG;C) by simulating a spray application using airblast sprayers featured by different tank capacity and a spray liquid circuit (without and with hydraulic agitation system). To assess the BCA microorganism viability, spray mixture samples were collected at time intervals along trials and plated to count the colony forming units (CFU). ResultsThe critical temperature threshold that inhibited BCA viability was 35 & DEG;C with 30 min of exposure. The sprayer type, the initial temperature of the spray mixture and the temperature increment during the trials significantly decreased the number of CFU recovered. When simulating a spray application, the spray mixture temperature increase rate was determined mainly by the residual amount of spray mixture in the tank. Even if the tank capacity does not substantially affect the final temperature reached by the spray mixture, the higher residual spray mixture in bigger tanks can expose the BCAs for a longer time to critical temperatures. ConclusionsExperimental trials allowed us to identify the effect of factors affecting the viability of tested BCAs, providing information about the actual chance to guarantee the biological efficacy of BCA treatments. & COPY; 2023 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.

Assessment of microbial biocontrol agent (BCA) viability to mechanical and thermal stress by simulating spray application conditions

Grella M.
First
;
Gioelli F.
;
Marucco P.;Mozzanini E.;Pittarello M.;Balsari P.;Mezzalama M.;Pugliese M.
Last
2023-01-01

Abstract

BackgroundIn order to improve the biological control agent (BCA) efficacy, stress factors threatening the viability of microorganisms during spray application need to be determined. The effect of spray mixture temperature and exposure time on Trichoderma harzianum T 22 and Bacillus amyloliquefaciens QST713 viability were tested. Concurrently the combined effect of mechanical and thermal stress effect on BCA viability were tested at two initial spray mixture temperatures (14 and 25 & DEG;C) by simulating a spray application using airblast sprayers featured by different tank capacity and a spray liquid circuit (without and with hydraulic agitation system). To assess the BCA microorganism viability, spray mixture samples were collected at time intervals along trials and plated to count the colony forming units (CFU). ResultsThe critical temperature threshold that inhibited BCA viability was 35 & DEG;C with 30 min of exposure. The sprayer type, the initial temperature of the spray mixture and the temperature increment during the trials significantly decreased the number of CFU recovered. When simulating a spray application, the spray mixture temperature increase rate was determined mainly by the residual amount of spray mixture in the tank. Even if the tank capacity does not substantially affect the final temperature reached by the spray mixture, the higher residual spray mixture in bigger tanks can expose the BCAs for a longer time to critical temperatures. ConclusionsExperimental trials allowed us to identify the effect of factors affecting the viability of tested BCAs, providing information about the actual chance to guarantee the biological efficacy of BCA treatments. & COPY; 2023 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.
2023
Inglese
Esperti anonimi
79
11
4423
4438
16
https://onlinelibrary.wiley.com/doi/10.1002/ps.7643
airblast sprayers; antagonist BCAs; bio plant protection products; colony forming unit; integrated pest management; spray application
GRECIA
PAESI BASSI
   Prog. Horizon 2020 "Optimised Pest Integrated management to precisely detect and control plant diseases crops and open-field vegetables" - OPTIMA
   UNIONE EUROPEA
   H2020
   --
1 – prodotto con file in versione Open Access (allegherò il file al passo 6 - Carica)
262
11
Grella M.; Gioelli F.; Marucco P.; Zwertvaegher I.; Mozzanini E.; Pittarello M.; Balsari P.; Fountas S.; Nuyttens D.; Mezzalama M.; Pugliese M....espandi
info:eu-repo/semantics/article
open
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1935650
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