Isolation of oxalotrophic bacteria associated with Varroa destructor mites

Isolation of oxalotrophic bacteria associated with Varroa destructor mites

Bacteria associated with varroa mites were cultivated and genotyped by 16S RNA. Under our experimental conditions, the cultivable bacteria were few in number, and most of them proved to be fastidious to grow. Cultivation with seven different media under O2/CO2 conditions and selection for colony mor...

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Bibliographic Details
Published in:Letters in applied microbiology Vol. 61; no. 5; pp. 411 - 417
Main Authors: Maddaloni, M., Pascual, D.W.
Format: Journal Article
Language:English
Published: England Oxford University Press 01-11-2015
Subjects:
Actinobacteria - genetics
Actinobacteria - isolation & purification
Actinobacteria - metabolism
Animals
Bees - parasitology
Bifidobacterium asteroides
Burkholderia
colony collapse disorder
commensals
Molecular Sequence Data
oxalic acid
Oxalic Acid - metabolism
Oxalic Acid - pharmacology
oxalotrophic bacteria
Proteobacteria - genetics
Proteobacteria - isolation & purification
Proteobacteria - metabolism
RNA, Ribosomal, 16S - genetics
Varroa destructor
Varroidae - drug effects
Varroidae - microbiology
colony collapse disorder
Bifidobacterium asteroides
oxalotrophic bacteria
Varroa destructor
Burkholderia
commensals
oxalic acid
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Summary:Bacteria associated with varroa mites were cultivated and genotyped by 16S RNA. Under our experimental conditions, the cultivable bacteria were few in number, and most of them proved to be fastidious to grow. Cultivation with seven different media under O2/CO2 conditions and selection for colony morphology yielded a panel of species belonging to 13 different genera grouped in two different phyla, proteobacteria and actinobacteria. This study identified one species of actinobacteria that is a known commensal of the honey bee. Some isolates are oxalotrophic, a finding that may carry ramifications into the use of oxalic acid to control the number of phoretic mites in the managed colonies of honey bees. Significance and Impact of the Study Oxalic acid, legally or brevi manu, is widely used to control phoretic Varroa destructor mites, a major drive of current honey bees' colony losses. Unsubstantiated by sanctioned research are rumours that in certain instances oxalic acid is losing efficacy, forcing beekeepers to increase the frequency of treatments. This investigation fathoms the hypothesis that V. destructor associates with bacteria capable of degrading oxalic acid. The data show that indeed oxalotrophy, a rare trait among bacteria, is common in bacteria that we isolated from V. destructor mites. This finding may have ramifications in the use of oxalic acid as a control agent. Significance and Impact of the Study: Oxalic acid, legally or brevi manu, is widely used to control phoretic Varroa destructor mites, a major drive of current honey bees' colony losses. Unsubstantiated by sanctioned research are rumours that in certain instances oxalic acid is losing efficacy, forcing beekeepers to increase the frequency of treatments. This investigation fathoms the hypothesis that V. destructor associates with bacteria capable of degrading oxalic acid. The data show that indeed oxalotrophy, a rare trait among bacteria, is common in bacteria that we isolated from V. destructor mites. This finding may have ramifications in the use of oxalic acid as a control agent.
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ISSN:0266-8254
1472-765X
DOI:10.1111/lam.12486