Bioactivity of Rosmarinus officinalis essential oils against Apis mellifera, Varroa destructor and Paenibacillus larvae related to the drying treatment of the plant material

In this study, chemical composition, physicochemical properties and bioactivity of two essential oils of Rosmarinus officinalis extracted from plant material with different drying treatments against Apis mellifera, Varroa destructor and Paenibacillus larvae were assessed. The lethal concentration 50...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Maggi, M., Gende, L., Russo, K., Fritz, R., Eguaras, M.
Formato: JOUR
Lenguaje:English
Materias:
Apis mellifera
drying treatment
essential oils
LC 50
Paenibacillus larvae
Varroa destructor
cineole
essential oil
myrcene
article
broth dilution
chemical composition
controlled study
honeybee
insecticidal activity
larva
minimum inhibitory concentration
nonhuman
Paenibacillus
rosemary
Varroa
Animals
Anti-Infective Agents
Bees
Insecticides
Oils, Volatile
Rosmarinus
Varroidae
Acari
Apoidea
Rosmarinus officinalis
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_14786419_v25_n4_p397_Maggi
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_14786419_v25_n4_p397_Maggi
record_format dspace
spelling todo:paper_14786419_v25_n4_p397_Maggi2023-10-03T16:19:27Z Bioactivity of Rosmarinus officinalis essential oils against Apis mellifera, Varroa destructor and Paenibacillus larvae related to the drying treatment of the plant material Maggi, M. Gende, L. Russo, K. Fritz, R. Eguaras, M. Apis mellifera drying treatment essential oils LC 50 Paenibacillus larvae Varroa destructor cineole essential oil myrcene article broth dilution chemical composition controlled study honeybee insecticidal activity larva LC 50 minimum inhibitory concentration nonhuman Paenibacillus rosemary Varroa Animals Anti-Infective Agents Bees Insecticides Oils, Volatile Paenibacillus Rosmarinus Varroidae Acari Apis mellifera Apoidea Paenibacillus larvae Rosmarinus officinalis Varroa destructor In this study, chemical composition, physicochemical properties and bioactivity of two essential oils of Rosmarinus officinalis extracted from plant material with different drying treatments against Apis mellifera, Varroa destructor and Paenibacillus larvae were assessed. The lethal concentration 50 (LC 50) for mites and bees was estimated using a complete exposure method test. The broth microdilution method was followed in order to determine the minimum inhibitory concentrations (MICs) of the essential oils against P. larvae. Physicochemical properties were similar in both the essential oils, but the percentage of components showed certain differences according to their drying treatment. β-Myrcene and 1,8-cineole were the main constituents in the oils. The LC 50 for complete exposure method at 24, 48 and 72 h was minor for mites exposed to R. officinalis essential oil dried in oven conditions. MIC values were 700-800 μg mL -1 and 1200 mu;g mL -1 for R. officinalis dried in air and oven conditions, respectively. The results reported in this research show that oil toxicity against V. destructor and P. larvae differed depending on the drying treatment of the plant material before the distillation of essential oil. © 2011 Taylor & Francis. JOUR English info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_14786419_v25_n4_p397_Maggi
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
language English
orig_language_str_mv English
topic Apis mellifera
drying treatment
essential oils
LC 50
Paenibacillus larvae
Varroa destructor
cineole
essential oil
myrcene
article
broth dilution
chemical composition
controlled study
honeybee
insecticidal activity
larva
LC 50
minimum inhibitory concentration
nonhuman
Paenibacillus
rosemary
Varroa
Animals
Anti-Infective Agents
Bees
Insecticides
Oils, Volatile
Paenibacillus
Rosmarinus
Varroidae
Acari
Apis mellifera
Apoidea
Paenibacillus larvae
Rosmarinus officinalis
Varroa destructor
spellingShingle Apis mellifera
drying treatment
essential oils
LC 50
Paenibacillus larvae
Varroa destructor
cineole
essential oil
myrcene
article
broth dilution
chemical composition
controlled study
honeybee
insecticidal activity
larva
LC 50
minimum inhibitory concentration
nonhuman
Paenibacillus
rosemary
Varroa
Animals
Anti-Infective Agents
Bees
Insecticides
Oils, Volatile
Paenibacillus
Rosmarinus
Varroidae
Acari
Apis mellifera
Apoidea
Paenibacillus larvae
Rosmarinus officinalis
Varroa destructor
Maggi, M.
Gende, L.
Russo, K.
Fritz, R.
Eguaras, M.
Bioactivity of Rosmarinus officinalis essential oils against Apis mellifera, Varroa destructor and Paenibacillus larvae related to the drying treatment of the plant material
topic_facet Apis mellifera
drying treatment
essential oils
LC 50
Paenibacillus larvae
Varroa destructor
cineole
essential oil
myrcene
article
broth dilution
chemical composition
controlled study
honeybee
insecticidal activity
larva
LC 50
minimum inhibitory concentration
nonhuman
Paenibacillus
rosemary
Varroa
Animals
Anti-Infective Agents
Bees
Insecticides
Oils, Volatile
Paenibacillus
Rosmarinus
Varroidae
Acari
Apis mellifera
Apoidea
Paenibacillus larvae
Rosmarinus officinalis
Varroa destructor
description In this study, chemical composition, physicochemical properties and bioactivity of two essential oils of Rosmarinus officinalis extracted from plant material with different drying treatments against Apis mellifera, Varroa destructor and Paenibacillus larvae were assessed. The lethal concentration 50 (LC 50) for mites and bees was estimated using a complete exposure method test. The broth microdilution method was followed in order to determine the minimum inhibitory concentrations (MICs) of the essential oils against P. larvae. Physicochemical properties were similar in both the essential oils, but the percentage of components showed certain differences according to their drying treatment. β-Myrcene and 1,8-cineole were the main constituents in the oils. The LC 50 for complete exposure method at 24, 48 and 72 h was minor for mites exposed to R. officinalis essential oil dried in oven conditions. MIC values were 700-800 μg mL -1 and 1200 mu;g mL -1 for R. officinalis dried in air and oven conditions, respectively. The results reported in this research show that oil toxicity against V. destructor and P. larvae differed depending on the drying treatment of the plant material before the distillation of essential oil. © 2011 Taylor & Francis.
format JOUR
author Maggi, M.
Gende, L.
Russo, K.
Fritz, R.
Eguaras, M.
author_facet Maggi, M.
Gende, L.
Russo, K.
Fritz, R.
Eguaras, M.
author_sort Maggi, M.
title Bioactivity of Rosmarinus officinalis essential oils against Apis mellifera, Varroa destructor and Paenibacillus larvae related to the drying treatment of the plant material
title_short Bioactivity of Rosmarinus officinalis essential oils against Apis mellifera, Varroa destructor and Paenibacillus larvae related to the drying treatment of the plant material
title_full Bioactivity of Rosmarinus officinalis essential oils against Apis mellifera, Varroa destructor and Paenibacillus larvae related to the drying treatment of the plant material
title_fullStr Bioactivity of Rosmarinus officinalis essential oils against Apis mellifera, Varroa destructor and Paenibacillus larvae related to the drying treatment of the plant material
title_full_unstemmed Bioactivity of Rosmarinus officinalis essential oils against Apis mellifera, Varroa destructor and Paenibacillus larvae related to the drying treatment of the plant material
title_sort bioactivity of rosmarinus officinalis essential oils against apis mellifera, varroa destructor and paenibacillus larvae related to the drying treatment of the plant material
url http://hdl.handle.net/20.500.12110/paper_14786419_v25_n4_p397_Maggi
work_keys_str_mv AT maggim bioactivityofrosmarinusofficinalisessentialoilsagainstapismelliferavarroadestructorandpaenibacilluslarvaerelatedtothedryingtreatmentoftheplantmaterial
AT gendel bioactivityofrosmarinusofficinalisessentialoilsagainstapismelliferavarroadestructorandpaenibacilluslarvaerelatedtothedryingtreatmentoftheplantmaterial
AT russok bioactivityofrosmarinusofficinalisessentialoilsagainstapismelliferavarroadestructorandpaenibacilluslarvaerelatedtothedryingtreatmentoftheplantmaterial
AT fritzr bioactivityofrosmarinusofficinalisessentialoilsagainstapismelliferavarroadestructorandpaenibacilluslarvaerelatedtothedryingtreatmentoftheplantmaterial
AT eguarasm bioactivityofrosmarinusofficinalisessentialoilsagainstapismelliferavarroadestructorandpaenibacilluslarvaerelatedtothedryingtreatmentoftheplantmaterial
_version_ 1807315354405306368

Ejemplares similares