Entomopathogenic activity of bacterial and viral strains from the bioresource collection “State Collection of Entomoacariphages and Microorganisms”

Entomopathogenic activity of bacterial and viral strains from the bioresource collection “State Collection of Entomoacariphages and Microorganisms”

As a result of a series of experiments to study the entomopathogenic activity of bacteria and viruses from the “State Collection of Entomoacariphages and Microorganisms”, it was revealed that the large wax moth Galleria mellonella L. it is sensitive to new strains of bacteria and viruses. In the fut...

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Main Authors: Bondarchuk Elena Yu., Tsygichko Alexandra A., Tomashevich Natalia S., Asaturova Anzhela M.
Format: Article
Language:English
Published: EDP Sciences 2021-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/61/e3sconf_abr2021_03004.pdf
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spelling doaj-651e2cd9af31483eadcfa8aff21761fe2021-07-07T11:41:52ZengEDP SciencesE3S Web of Conferences2267-12422021-01-012850300410.1051/e3sconf/202128503004e3sconf_abr2021_03004Entomopathogenic activity of bacterial and viral strains from the bioresource collection “State Collection of Entomoacariphages and Microorganisms”Bondarchuk Elena Yu.Tsygichko Alexandra A.Tomashevich Natalia S.Asaturova Anzhela M.As a result of a series of experiments to study the entomopathogenic activity of bacteria and viruses from the “State Collection of Entomoacariphages and Microorganisms”, it was revealed that the large wax moth Galleria mellonella L. it is sensitive to new strains of bacteria and viruses. In the future, the strains can be used in the subsequent stages of screening of microorganisms that are promising as agents of biological pest control. The maximum biological efficacy on the fifth day against the tested insect was observed when using bacterial strains Bacillus spp. BZR 1159 (94.6%) and BZR 936 (95.0%) and a granulovirus strain of the codling moth (CpGV) BZR L-5 (100%). Larvae of G. mellonella L were susceptible to melanization in the process of infection with new bacterial and viral agents.https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/61/e3sconf_abr2021_03004.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Bondarchuk Elena Yu.
Tsygichko Alexandra A.
Tomashevich Natalia S.
Asaturova Anzhela M.
spellingShingle Bondarchuk Elena Yu.
Tsygichko Alexandra A.
Tomashevich Natalia S.
Asaturova Anzhela M.
Entomopathogenic activity of bacterial and viral strains from the bioresource collection “State Collection of Entomoacariphages and Microorganisms”
E3S Web of Conferences
author_facet Bondarchuk Elena Yu.
Tsygichko Alexandra A.
Tomashevich Natalia S.
Asaturova Anzhela M.
author_sort Bondarchuk Elena Yu.
title Entomopathogenic activity of bacterial and viral strains from the bioresource collection “State Collection of Entomoacariphages and Microorganisms”
title_short Entomopathogenic activity of bacterial and viral strains from the bioresource collection “State Collection of Entomoacariphages and Microorganisms”
title_full Entomopathogenic activity of bacterial and viral strains from the bioresource collection “State Collection of Entomoacariphages and Microorganisms”
title_fullStr Entomopathogenic activity of bacterial and viral strains from the bioresource collection “State Collection of Entomoacariphages and Microorganisms”
title_full_unstemmed Entomopathogenic activity of bacterial and viral strains from the bioresource collection “State Collection of Entomoacariphages and Microorganisms”
title_sort entomopathogenic activity of bacterial and viral strains from the bioresource collection “state collection of entomoacariphages and microorganisms”
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2021-01-01
description As a result of a series of experiments to study the entomopathogenic activity of bacteria and viruses from the “State Collection of Entomoacariphages and Microorganisms”, it was revealed that the large wax moth Galleria mellonella L. it is sensitive to new strains of bacteria and viruses. In the future, the strains can be used in the subsequent stages of screening of microorganisms that are promising as agents of biological pest control. The maximum biological efficacy on the fifth day against the tested insect was observed when using bacterial strains Bacillus spp. BZR 1159 (94.6%) and BZR 936 (95.0%) and a granulovirus strain of the codling moth (CpGV) BZR L-5 (100%). Larvae of G. mellonella L were susceptible to melanization in the process of infection with new bacterial and viral agents.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/61/e3sconf_abr2021_03004.pdf
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