ABSTRACT
1. This study evaluated photohydroionisation efficiency on the disinfection of new shavings used as substrate for litter in the poultry industry, pre-inoculated with bacterial, fungal and viral agents.2. Each replicate consisted of 250 g of new shavings sterilised by autoclaving, challenged with bacterial (Escherichia coli, Staphylococcus aureus, and Salmonella enterica, serovar Abony), fungal (Saccharomyces cerevisiae) and viral inoculum (Gumboro disease virus). The experiment consisted of six replicates at four times (0, 1, 5 or 10 min exposure) of photohydroionisation. The disinfection process was performed in a bench photohydroionisation device with four ultraviolet lamps. The agents inoculated in the shavings were analysed after the disinfection process.3. The counts of enterobacteria and total bacteria showed a quadratic effect. In contrast, the counts of fungi and viruses showed a negative linear effect with an increase in the time of photohydroionisation. The enterobacteria showed a linear response plateau effect (LRP), with a minimum time point of 5.498 minutes at a minimum contamination of 0.666 CFU/g and a reduction of 82.27% of the pre-established inoculum. Total bacteria had an LRP effect with a minimum time point of 1.902 minutes at minimum contamination of 1.739 CFU/g and a reduction of 50.0% of the pre-established inoculum. An LRP effect was found for fungi, with a minimum time point of 7.931 minutes in minimum contamination of 3.380 CFU/g, and with a reduction of 11.0% of the pre-established inoculum. For viruses, there was an LRP effect with a minimum time point of 5.012 minutes in minimum contamination of 0.000 viral titre per 100 g of shavings, which was reduced by 100% of the pre-established inoculum.4. Photohydroionisation in the disinfection of new shavings used as poultry litter has partial potential as a microbiological control tool, as a complete reduction occurred only for the viruses, whereas for bacteria and fungi only partial reductions of these microorganisms were observed.
Subject(s)
Disinfection , Poultry , Animals , Bacteria , Chickens , Colony Count, Microbial/veterinary , FungiABSTRACT
Os óleos essenciais são metabólitos secundários dos vegetais com propriedades biológicas diferenciadas, dentre elas, a atividade contra microrganismos, sendo de interesse da indústria de alimentos as concentrações mínimas inibitórias (CMI) desses óleos para diversas bactérias. As CMI variam em função dos compostos majoritários e da espécie de bactéria. Nesta pesquisa, os óleos essenciais das plantas Satureja montana L., Cymbopogon nardus L. e Citrus limonia Osbeck foram caracterizados quimicamente e se determinou a CMI sobre as bactérias Staphylococcus aureus ATCC 2592 e Escherichia coli ATCC 25922. A CMI dos óleos testados contra E. coli e S. aureus foi de 1,5%, exceto para o óleo essencial de S. montana sobre S. aureus, a qual foi sensível a este óleo a partir da concentração de 5,0%. Sobre a constituição química, os componentes majoritários dos óleos de S. montana, C. narduse C. limonia Osbeck foram respectivamente o timol, citronelal e limoneno.
Essential oils are plant secondary metabolites with different biological properties, such as activity against microorganisms, being of major interest to the food industry. The minimal inhibitory concentrations (MIC) of these oils for various bacteria should be determined. The MICvaries according to the oil used by the major compounds and phenotypic and genotypic characteristics of the bacteria. In this research, the essential oils of the plants Satureja montana L., Cymbopogon nardus L. and Citrus limonia Osbeck were chemically characterized and the MIC of the bacteria Staphylococcus aureusATCC 2592 and Escherichia coli ATCC 25922, determined. The MICfor all oils against E. coli was 1.5%, and S. aureus was sensitive to the concentration of 5.0% of S. montanaoil and tothe concentration of 1.5% of the essential oils of the other plants.Chemically, the major components ofthe S. montana, C. nardus and C.limonia Osbeck oils were respectively thymol, citronellal and limonene.
Subject(s)
Staphylococcus aureus/isolation & purification , Oils, Volatile/chemistry , Escherichia coli/isolation & purification , Plants, Medicinal/metabolism , Microbial Sensitivity TestsABSTRACT
Os óleos essenciais são metabólitos secundários vegetais com propriedades biológicas diferenciadas, dentre elas a atividade contra microrganismos, sendo de importante interesse para a indústria de alimentos. As concentrações mínimas inibitórias (CMI) desses óleos para diversas bactérias devem ser determinadas. As CMI variam de acordo com o óleo utilizado, dos compostos majoritários e do tipo de bactéria. Nesta pesquisa, os óleos essenciais das plantas Satureja montana L., Cymbopogon nardus L. e Citrus limonia Osbeck foram caracterizados quimicamente e determinada a CMI sobre as bactérias Staphylococcus aureus ATCC 2592 e Escherichia coli ATCC 25922. A CMI para todos os óleos contra E. coli foi 1,5%, já S. aureus foi sensível a partir da concentração de 5,0% do óleo essencial de S. montana e 1,5% foi a CMI obtida quando utilizados os óleos essenciais das outras espécies estudadas. Na constituição química os componentes majoritários para os óleos de S. montana, C. narduse C. limonia Osbeck foram respectivamente o timol, citronelal e limoneno.
Essential oils are plant secondary metabolites with different biological properties, such as action against microorganisms, being majorly important to the food industry. The minimal inhibitory concentrations (CMI) of these oils for several bacteria should be determined. CMIs vary according to the oil used, the major compounds and the phenotypic and genotypic characteristics of the bacteria. In this research, the essential oils of the plants Satureja montana L., Cymbopogon nardus L. and Citrus limonia Osbeck were chemically characterized, and CMI was determined for the Staphylococcus aureus ATCC 2592 and Escherichia coli ATCC 25922 bacteria. The CMI for all oils against E. coli was at 1.5%, and S. aureus was sensitive to the 5.0% concentration of the S. montana oil, and the CMI achieved was equivalent to 1.5% when essential oils of other plants were used. In the chemical composition, the major components for the S. montana, C. nardus and C.limonia Osbeck oils were thymol, citronellal and limonene, respectively.
