2013
DOI: 10.5194/amt-6-337-2013
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Cluster analysis of WIBS single-particle bioaerosol data

Abstract: ?? Author(s) 2013. This work is distributed under the Creative Commons Attribution 3.0 LicenseHierarchical agglomerative cluster analysis was performed on single-particle multi-spatial data sets comprising optical diameter, asymmetry and three different ???uorescence measurements, gathered using two dual Wideband Integrated Bioaerosol Sensors (WIBSs). The technique is demonstrated on measurements of various ???uorescent and non-???uorescent polystyrene latex spheres (PSL) before being applied to two separate c… Show more

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Cited by 68 publications
(109 citation statements)
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References 33 publications
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“…Thus, the mass of tryptophan that saturates the FL1 detector at the high gain setting is ∼ 4 times lower than the low gain setting. As mentioned earlier, two WIBS clustering studies (Robinson et al, 2013;Crawford et al, 2015) excluded saturating particles from their analysis, and so understanding the range of measurable fluorophore mass is potentially important.…”
Section: Calibration Resultsmentioning
confidence: 99%
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“…Thus, the mass of tryptophan that saturates the FL1 detector at the high gain setting is ∼ 4 times lower than the low gain setting. As mentioned earlier, two WIBS clustering studies (Robinson et al, 2013;Crawford et al, 2015) excluded saturating particles from their analysis, and so understanding the range of measurable fluorophore mass is potentially important.…”
Section: Calibration Resultsmentioning
confidence: 99%
“…Perhaps loss of information may not matter to the user if they are employing a binary above-below threshold classification scheme, where the magnitudes of the fluorescence signals are not considered. On the other hand, as in the clustering study performed by Robinson et al (2013) in which saturating particles had to be excluded from analysis, a lower gain setting is likely optimal in most cases, as the dynamic range of measurable fluorophore mass is much larger. There may be considerable value in analyzing the fluorescence signal magnitudes in ambient data sets, and we recommend running instruments like the WIBS with gain settings that allow for the maximum range of mass determination.…”
Section: Detection Limitsmentioning
confidence: 99%
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“…Many LIF instruments deployed for the rapid detection of bioaerosol particles have become commonly used within the bioaerosol community, and a growing number of instruments are commercially available (e.g., Huffman and Santarpia, 2017). The WIBS-4A, in particular, has been used for the purposes of both laboratory validations and longer-term ambient measurements (e.g., Healy et al, 2012;Hernandez et al, 2016;Huffman et al, 2013;O'Connor et al, 2013;Perring et al, 2015;Robinson et al, 2013;Savage et al, 2017;Toprak and Schnaiter, 2013). The WIBS-4A provides information about particle size, a light scattering asymmetry factor (AF, broadly related to particle shape), and fluorescence properties for individual particles in real time.…”
Section: Online Psl Analysis Using the Wibs-4amentioning
confidence: 99%
“…The technique was shown to be capable of differentiating pollens from various plant species [9,10]. Fluorescence clustering analysis, especially when it is combined with the dualwavelength UV-LIF, appears promising for rapid airborne bioaerosol characterization [11,12]. When excited at a visible wavelength, e.g., 488 nm, 515 nm, 633 nm, or 780 nm, most pollens and fungal spores have one or several fluorescence humps in a wide spectral range, e.g., 500-800 nm.…”
Section: Introductionmentioning
confidence: 99%