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Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes

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Zeitschriftentitel: Atmospheric Measurement Techniques
Personen und Körperschaften: Hernandez, Mark, Perring, Anne E., McCabe, Kevin, Kok, Greg, Granger, Gary, Baumgardner, Darrel
In: Atmospheric Measurement Techniques, 9, 2016, 7, S. 3283-3292
Format: E-Article
Sprache: Englisch
veröffentlicht:
Copernicus GmbH
Schlagwörter:
Atmospheric Science
author_facet Hernandez, Mark
Perring, Anne E.
McCabe, Kevin
Kok, Greg
Granger, Gary
Baumgardner, Darrel
Hernandez, Mark
Perring, Anne E.
McCabe, Kevin
Kok, Greg
Granger, Gary
Baumgardner, Darrel
author Hernandez, Mark
Perring, Anne E.
McCabe, Kevin
Kok, Greg
Granger, Gary
Baumgardner, Darrel
spellingShingle Hernandez, Mark
Perring, Anne E.
McCabe, Kevin
Kok, Greg
Granger, Gary
Baumgardner, Darrel
Atmospheric Measurement Techniques
Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
Atmospheric Science
author_sort hernandez, mark
spelling Hernandez, Mark Perring, Anne E. McCabe, Kevin Kok, Greg Granger, Gary Baumgardner, Darrel 1867-8548 Copernicus GmbH Atmospheric Science http://dx.doi.org/10.5194/amt-9-3283-2016 <jats:p>Abstract. Rapid bioaerosol characterization has immediate applications in the military, environmental and public health sectors. Recent technological advances have facilitated single-particle detection of fluorescent aerosol in near real time; this leverages controlled ultraviolet exposures with single or multiple wavelengths, followed by the characterization of associated fluorescence. This type of ultraviolet induced fluorescence has been used to detect airborne microorganisms and their fragments in laboratory studies, and it has been extended to field studies that implicate bioaerosol to compose a substantial fraction of supermicron atmospheric particles. To enhance the information yield that new-generation fluorescence instruments can provide, we report the compilation of a referential aerobiological catalogue including more than 50 pure cultures of common airborne bacteria, fungi and pollens, recovered at water activity equilibrium in a mesoscale chamber (1 m3). This catalogue juxtaposes intrinsic optical properties and select bandwidths of fluorescence emissions, which manifest to clearly distinguish between major classes of airborne microbes and pollens. </jats:p> Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes Atmospheric Measurement Techniques
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title Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
title_unstemmed Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
title_full Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
title_fullStr Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
title_full_unstemmed Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
title_short Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
title_sort chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
topic Atmospheric Science
url http://dx.doi.org/10.5194/amt-9-3283-2016
publishDate 2016
physical 3283-3292
description <jats:p>Abstract. Rapid bioaerosol characterization has immediate applications in the military, environmental and public health sectors. Recent technological advances have facilitated single-particle detection of fluorescent aerosol in near real time; this leverages controlled ultraviolet exposures with single or multiple wavelengths, followed by the characterization of associated fluorescence. This type of ultraviolet induced fluorescence has been used to detect airborne microorganisms and their fragments in laboratory studies, and it has been extended to field studies that implicate bioaerosol to compose a substantial fraction of supermicron atmospheric particles. To enhance the information yield that new-generation fluorescence instruments can provide, we report the compilation of a referential aerobiological catalogue including more than 50 pure cultures of common airborne bacteria, fungi and pollens, recovered at water activity equilibrium in a mesoscale chamber (1 m3). This catalogue juxtaposes intrinsic optical properties and select bandwidths of fluorescence emissions, which manifest to clearly distinguish between major classes of airborne microbes and pollens. </jats:p>
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author Hernandez, Mark, Perring, Anne E., McCabe, Kevin, Kok, Greg, Granger, Gary, Baumgardner, Darrel
author_facet Hernandez, Mark, Perring, Anne E., McCabe, Kevin, Kok, Greg, Granger, Gary, Baumgardner, Darrel, Hernandez, Mark, Perring, Anne E., McCabe, Kevin, Kok, Greg, Granger, Gary, Baumgardner, Darrel
author_sort hernandez, mark
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container_title Atmospheric Measurement Techniques
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description <jats:p>Abstract. Rapid bioaerosol characterization has immediate applications in the military, environmental and public health sectors. Recent technological advances have facilitated single-particle detection of fluorescent aerosol in near real time; this leverages controlled ultraviolet exposures with single or multiple wavelengths, followed by the characterization of associated fluorescence. This type of ultraviolet induced fluorescence has been used to detect airborne microorganisms and their fragments in laboratory studies, and it has been extended to field studies that implicate bioaerosol to compose a substantial fraction of supermicron atmospheric particles. To enhance the information yield that new-generation fluorescence instruments can provide, we report the compilation of a referential aerobiological catalogue including more than 50 pure cultures of common airborne bacteria, fungi and pollens, recovered at water activity equilibrium in a mesoscale chamber (1 m3). This catalogue juxtaposes intrinsic optical properties and select bandwidths of fluorescence emissions, which manifest to clearly distinguish between major classes of airborne microbes and pollens. </jats:p>
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spelling Hernandez, Mark Perring, Anne E. McCabe, Kevin Kok, Greg Granger, Gary Baumgardner, Darrel 1867-8548 Copernicus GmbH Atmospheric Science http://dx.doi.org/10.5194/amt-9-3283-2016 <jats:p>Abstract. Rapid bioaerosol characterization has immediate applications in the military, environmental and public health sectors. Recent technological advances have facilitated single-particle detection of fluorescent aerosol in near real time; this leverages controlled ultraviolet exposures with single or multiple wavelengths, followed by the characterization of associated fluorescence. This type of ultraviolet induced fluorescence has been used to detect airborne microorganisms and their fragments in laboratory studies, and it has been extended to field studies that implicate bioaerosol to compose a substantial fraction of supermicron atmospheric particles. To enhance the information yield that new-generation fluorescence instruments can provide, we report the compilation of a referential aerobiological catalogue including more than 50 pure cultures of common airborne bacteria, fungi and pollens, recovered at water activity equilibrium in a mesoscale chamber (1 m3). This catalogue juxtaposes intrinsic optical properties and select bandwidths of fluorescence emissions, which manifest to clearly distinguish between major classes of airborne microbes and pollens. </jats:p> Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes Atmospheric Measurement Techniques
spellingShingle Hernandez, Mark, Perring, Anne E., McCabe, Kevin, Kok, Greg, Granger, Gary, Baumgardner, Darrel, Atmospheric Measurement Techniques, Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes, Atmospheric Science
title Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
title_full Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
title_fullStr Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
title_full_unstemmed Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
title_short Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
title_sort chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
title_unstemmed Chamber catalogues of optical and fluorescent signatures distinguish bioaerosol classes
topic Atmospheric Science
url http://dx.doi.org/10.5194/amt-9-3283-2016