Advanced search
Publication Cover
Aerosol Science and Technology Volume 51, 2017 - Issue 7
Submit an article Journal homepage
2,240
Views
18
CrossRef citations to date
0
Altmetric
New Generation of Aerosol Instrumentation for Distributed or Personal Sampling

Field performance of a novel passive bioaerosol sampler using polarized ferroelectric polymer films

Jennifer TherkornDepartment of Environmental Sciences, Rutgers, The State University of New Jersey, New Brunswick, New Jersey, USAORCID Iconhttp://orcid.org/0000-0001-7742-9938
ORCID Icon,
Nirmala ThomasDepartment of Environmental Sciences, Rutgers, The State University of New Jersey, New Brunswick, New Jersey, USA
,
Jerry ScheinbeimDepartment of Chemical and Biochemical Engineering, Rutgers, The State University of New Jersey, Piscataway, New Jersey, USA
&
Gediminas MainelisDepartment of Environmental Sciences, Rutgers, The State University of New Jersey, New Brunswick, New Jersey, USACorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0002-5837-0413
ORCID Icon
Pages 787-800 | Received 12 Jan 2017, Accepted 23 Mar 2017, Published online: 28 Apr 2017

References

  • Ackerman, J. D. (2000). Abiotic Pollen and Pollination: Ecological, Functional, and Evolutionary Perspectives. Plant Syst. Evol., 222:167–185.
  • Adams, R. I., Tian, Y., Taylor, J. W., Bruns, T. D., Hyvärinen, A., and Täubel, M. (2015). Passive Dust Collectors for Assessing Airborne Microbial Material. Microbiome, 3, 46.
  • Adhikari, A., Martuzevicius, D., Reponen, T., Grinshpun, S. A., Cho, S. H., Sivasubramani, S. K., Zhong, W., Levin, L., Kelley, A. L., St. Clair, H. G., and LeMasters, G. (2003). Performance of the Button Personal Inhalable Sampler for the Measurement of Outdoor Aeroallergens. Atmos. Environ., 37:4723–4733.
  • Adhikari, A., Reponen, T., Lee, S. A., and Grinshpun, S. A. (2004). Assessment of Human Exposure to Airborne Fungi in Agricultural Confinements: Personal Inhalable Sampling Versus Stationary Sampling. Ann. Agric. Environ. Med., 11:269–277.
  • Aizenberg, V., Grinshpun, S. A., Willeke, K., Smith, J., and Baron, P. A. (2000a). Performance characteristics of the Button Personal Inhalable Aerosol Sampler. Am. Ind. Hyg. Assoc. J., 61:398–404.
  • Aizenberg, V., Reponen, T., Grinshpun, S. A., and Willeke, K. (2000b). Performance of Air-O-Cell, Burkard, and Button Samplers for Total Enumeration of Airborne Spores. Am. Ind. Hyg. Assoc. J., 61:855–864.
  • Andon, B. M. (2006). Active Air vs. Passive Air (settle plate) Monitoring in Routine Environmental Monitoring Programs. PDA J. Pharm. Sci. Technol., 60:350–355.
  • Baird, R., Hodges, N., and Denyer, S. (2000). Handbook of Microbiological Quality Control: Pharmaceuticals and Medical Devices. CRC Press, Boca Raton, FL.
  • Bauer, H., Schueller, E., Weinke, G., Berger, A., Hitzenberger, R., Marr, I. L., and Puxbaum, H. (2008). Significant Contributions of Fungal Spores to the Organic Carbon and to the Aerosol Mass Balance of the Urban Atmospheric Aerosol. Atmos. Environ., 42:5542–5549.
  • Breed, R. S., and Dotterrer, W. D. (1916). The Number of Colonies Allowable on Satisfactory Agar Plates. J. Bacteriol., 1:321–331.
  • Brown, R. C., Hemingway, M. A., Wake, D., and Thompson, J. (1995). Field Trials of an Electret-Based Passive Dust Sampler in Metal-Processing Industries. Ann. Occup. Hyg., 39:603–622.
  • Brown, R. C., Hemingway, M., Wake, D., and Thorpe, A. (1996). Electret-Based Passive Dust Sampler: Sampling of Organic Dusts. Analyst, 121:1241–1246.
  • Brown, R. C., Wake, D., Thorpe, A., Hemingway, M. A., and Roff, M. W. (1994). Theory and Measurement of the Capture of Charged Dust Particles by Electrets. J. Aerosol Sci., 25:149–163.
  • Burdett, G., and Bard, D. (2007). Exposure of UK Industrial Plumbers to Asbestos, Part I: Monitoring of Exposure using Personal Passive Samplers. Ann. Occup. Hyg., 51:121–130.
  • Burdett, G., and Revell, G. (1999). Strategy, Development and Laboratory Calibration of a Personal Passive Sampler for Monitoring the Asbestos Exposure of Maintenance Workers, in Advances in Environmental Measurement Methods for Asbestos, M. Beard and H. Rook (Eds.), ASTM International, West Conshohocken, PA, pp. 129–146.
  • Burge, H. A., Feeley, J. C., Kreiss, K., Milton, D., Morey, P., Otten, J. A., Peterson, K., Tulis, J. J., and Tyndall, R. (1989). Guidelines for the Assessment of Bioaerosols in the Indoor Environment. American Conference of Governmental Industrial Hygienists (ACGIH), Cincinnati, OH.
  • Cartwright, C., Horrocks, S., Kirton, J., and Crook, B. (2009). Review of Methods to Measure Bioaerosols from Composting Sites. Science Report: SC040021/SR3). Environment Agency, United Kingdom.
  • Chen, P.-S., and Li, C.-S. (2005). Sampling Performance for Bioaerosols by Flow Cytometry with Fluorochrome. Aerosol Sci. Technol., 39:231–237.
  • Cherrie, J. W., Lynch, G., Bord, B. S., Heathfield, P., Cowie, H., and Robertson, A. (1994). Does the Wearing of Sampling Pumps Affect Exposure? Ann. Occup. Hyg., 38:827–838.
  • Cox, C. S., and Wathes, C. M. (1995). Bioaerosols Handbook. Lewis Publishers, United States of America.
  • Douwes, J., Thorne, P., Pearce, N., and Heederik, D. (2003). Bioaerosol Health Effects and Exposure Assessment: Progress and Prospects. Ann. Occup. Hyg., 47:187–200.
  • Elbert, W., Taylor, P. E., Andreae, M. O., and Pöschl, U. (2007). Contribution of Fungi to Primary Biogenic Aerosols in the Atmosphere: Wet and Dry Discharged Spores, Carbohydrates, and Inorganic Ions. Atmos. Chem. Phys., 7:4569–4588.
  • Fierer, N., Liu, Z., Rodríguez-Hernández, M., Knight, R., Henn, M., and Hernandez, M. T. (2008). Short-Term Temporal Variability in Airborne Bacterial and Fungal Populations. Appl. Environ. Microbiol., 74:200–207.
  • Fröhlich-Nowoisky, J., Pickersgill, D. A., Després, V. R., and Pöschl, U. (2009). High Diversity of Fungi in Air Particulate Matter. Proc. Natl. Acad. Sci. USA, 106:12814–12819.
  • Gordon, J., Gandhi, P., Shekhawat, G., Frazier, A., Hampton-Marcell, J., and Gilbert, J. A. (2015). A Simple Novel Device for Air Sampling by Electrokinetic Capture. Microbiome, 3, 79.
  • Gorny, R. L., Dutkiewicz, J., and Krysinska-Traczyk, E. (1999). Size Distribution of Bacterial and Fungal Bioaerosols in Indoor Air. Ann. Agric. Environ. Med., 6:105–113.
  • Green, B. J., Sercombe, J. K., and Tovey, E. R. (2005). Fungal Fragments and Undocumented Conidia Function as New Aeroallergen Sources. J. Allergy Clin. Immunol., 115:1043–1048.
  • Hauck, B. C., Grinshpun, S. A., Reponen, A., Reponen, T., Willeke, K., and Bornschein, R. L. (1997). Field Testing of New Aerosol Sampling Method with a Porous Curved Surface as Inlet. Am. Ind. Hyg. Assoc. J., 58:713–719.
  • Held, A., Zerrath, A., McKeon, U., Fehrenbach, T., Niessner, R., Plass-Dülmer, C., Kaminski, U., Berresheim, H., and Pöschl, U. (2008). Aerosol Size Distributions Measured in Urban, Rural and High-Alpine Air with an Electrical Low Pressure Impactor (ELPI). Atmos. Environ., 42:8502–8512.
  • Hock, N., Schneider, J., Borrmann, S., Römpp, A., Moortgat, G., Franze, T., Schauer, C., Pöschl, U., Plass-Dülmer, C., and Berresheim, H. (2008). Rural Continental Aerosol Properties and Processes Observed During the Hohenpeissenberg Aerosol Characterization Experiment (HAZE2002). Atmos. Chem. Phys., 8:603–623.
  • Hoisington, A. J., Maestre, J. P., King, M. D., Siegel, J. A., and Kinney, K. A. (2014). Impact of Sampler Selection on the Characterization of the Indoor Microbiome via High-Throughput Sequencing. Build. Environ., 80:274–282.
  • IBM Corporation. (2015). IBM SPSS Statistics for Windows. IBM Corp., Armonk, NY.
  • Jaenicke, R. (2005). Abundance of Cellular Material and Proteins in the Atmosphere. Science, 308(5718):73.
  • Jensen, P. A., and Schafer, M. P. (2003). Sampling and Characterization of Bioaerosols, in NOSH Manual of Analytical Methods (NMAM), K. Ashley and P. Fey O'Conner (Eds.), DHHS (NIOSH), Atlanta, GA. pp. 82–112.
  • Jensen, P. A., Todd, W. F., Davis, G. N., and Scarpino, P. V. (1992). Evaluation of Eight Bioaerosol Samplers Challenged with Aerosols of Free Bacteria. Am. Ind. Hyg. Assoc. J., 53:660–667.
  • Kalatoor, S., Grinshpun, S. A., Willeke, K., and Baron, P. (1995). New Aerosol Sampler with Low Wind Sensitivity and Good Filter Collection Uniformity. Atmos. Environ., 29:1105–1112.
  • Kellogg, C. A., and Griffin, D. W. (2006). Aerobiology and the Global Transport of Desert Dust. Trends Ecol. Evol., 21:638–644.
  • Kilburg-Basnyat, B., Metwali, N., and Thorne, P. S. (2015a). Effect of Deployment Time on Endotoxin and Allergen Exposure Assessment using Electrostatic Dust Collectors. Ann. Occup. Hyg., 59:104–115.
  • Kilburg-Basnyat, B., Metwali, N., and Thorne, P. S. (2016). Performance of Electrostatic Dust Collectors (EDCs) for Endotoxin Assessment in Homes: Effect of Mailing, Placement, Heating, and Electrostatic Charge. J. Occup. Environ. Hyg., 13:85–93.
  • Kilburg-Basnyat, B., Peters, T. M., Perry, S. S., and Thorne, P. S. (2015b). Electrostatic Dust Collectors Compared to Inhalable Samplers for Measuring Endotoxin Concentrations in Farm Homes. Indoor Air, 26:724–733.
  • Lee, T., Grinshpun, S. A., Martuzevicius, D., Adhikari, A., Crawford, C. M., Luo, J., and Reponen, T. (2006). Relationship Between Indoor and Outdoor Bioaerosols Collected with a Button Inhalable Aerosol Sampler in Urban Homes. Indoor Air, 16:37–47.
  • Li, C.-S. (1999). Evaluation of Microbial Samplers for Bacterial Microorganisms. Aerosol Sci. Technol., 30:100–108.
  • Linaker, C., and Smedley, J. (2002). Respiratory Illness in Agricultural Workers. Occup. Med., 52:451–459.
  • Mainelis, G., Górny, R. L., Reponen, T., Trunov, M., Grinshpun, S. A., Baron, P., Yadav, J., and Willeke, K. (2002). Effect of Electrical Charges and Fields on Injury and Viability of Airborne Bacteria. Biotechnol. Bioeng., 79:229–241.
  • Menetrez, M. Y., Foarde, K. K., Esch, R. K., Schwartz, T. D., Dean, T. R., Hays, M. D., Cho, S. H., Betancourt, D. A., and Moore, S. A. (2009). An Evaluation of Indoor and Outdoor Biological Particulate Matter. Atmos. Environ., 43:5476–5483.
  • Noss, I., Wouters, I. M., Visser, M., Heederik, D. J. J., Thorne, P. S., Brunekreef, B., and Doekes, G. (2008). Evaluation of a Low-Cost Electrostatic Dust Fall Collector for Indoor Air Endotoxin Exposure Assessment. Appl. Environ. Microbiol., 74:5621–5627.
  • Palmgren, U., Strom, G., Blomquist, G., and Malmberg, P. (1986). Collection of Airborne Micro-Organisms on Nuclepore Filters, Estimation and Analysis-CAMNEA Method. J. Appl. Bacteriol., 61:401–406.
  • Pasanen, A. L. (2001). A Review: Fungal Exposure Assessment in Indoor Environments. Indoor Air, 11:87–98.
  • Peccia, J., Milton, D. K., Reponen, T., and Hill, J. (2008). A Role for Environmental Engineering and Science in Preventing Bioaerosol-Related Disease. Environ. Sci. Technol., 42:4631–4637.
  • Plog, B. A., and Quinlan, P. J. (2001). Fundamentals of Industrial Hygiene. National Safety Council, USA.
  • Reponen, T., Willeke, K., Grinshpun, S., and Nevalainen, A. (2011). Biological Particle Sampling, in Aerosol Measurement: Principles, Techniques and Applications, P. Kulkarni, P. Baron, and K. Willeke, eds., John Wiley & Sons, Inc., Hoboken, NJ, pp. 549–570.
  • Samadi, S., Heederik, D. J. J., Krop, E. J. M., Jamshidifard, A.-R., Willemse, T., Wouters, I. M. (2010). Allergen and Endotoxin Exposure in a Companion Animal Hospital. Occup. Environ. Med., 67:486–492.
  • Sandle, T. (2015). Settle Plate Exposure under Unidirectional Airflow and the Effect of Weight Loss Upon Microbial Growth. EJPPS, 20:45–50.
  • Smith, D. J., Griffin, D. W., and Schuerger, A. C. (2010). Stratospheric Microbiology at 20 km Over the Pacific Ocean. Aerobiologia, 26:35–46.
  • Sterling, M., Rogers, C., and Levetin, E. (1999). An Evaluation of Two Methods used for Microscopic Analysis of Airborne Fungal Spore Concentrations from the Burkard Spore Trap. Aerobiologia, 15:9–18.
  • Stewart, S. L., Grinshpun, S. A., Willeke, K., Terzieva, S., Ulevicius, V., and Donnelly, J. (1995). Effect of Impact Stress on Microbial Recovery on an Agar Surface. Appl. Environ. Microbiol., 61:1232–1239.
  • Taha, M. P. M., Drew, G. H., Longhurst, P. J., Smith, R., and Pollard, S. J. T. (2006). Bioaerosol Releases from Compost Facilities: Evaluating Passive and Active Source Terms at a Green Waste Facility for Improved Risk Assessments. Atmos. Environ., 40:1159–1169.
  • The Rutgers Gardens Weather Tower. (2016). Weather Center. The Rutgers Gardens Weather Tower, New Brunswick, NJ. Available at: http://synoptic.envsci.rutgers.edu/site/
  • Therkorn, J., Thomas, N., Calderon, L., Scheinbeim, J., and Mainelis, G. (2017). Design and Development of a Passive Bioaerosol Sampler using Polarized Ferroelectric Polymer Film. J. Aerosol. Sci., 105:128–144.
  • Toivola, M., Alm, S., Reponen, T., Kolari, S., and Nevalainen, A. (2002). Personal Exposures and Microenvironmental Concentrations of Particles and Bioaerosols. J. Environ. Monit., 4:166–174.
  • Toivola, M., Nevalainen, A., and Alm, S. (2004). Personal Exposures to Particles and Microbes in Relation to Microenvironmental Concentrations. Indoor Air, 14:351–359.
  • Tovey, E. R., Mitakakis, T. Z., Sercombe, J. K., Vanlaar, C. H., and Marks, G. B. (2003). Four Methods of Sampling for Dust Mite Allergen: Differences in ‘Dust’. Allergy, 58:790–794.
  • United Nations. (2006). Uniting Against Terrorism: Recommendations for a Global Counter-Terrorism Strategy. Report A/60/825 of the Secretary-General, United Nations, Geneva.
  • U.S. Environmental Protection Agency (USEPA). (2016). Air Monitoring Methods - Passive Monitoring. Available at: http://www3.epa.gov/ttn/amtic/passive.html
  • Wang, Z., Reponen, T. A., Grinshpun, S. L., Górny, R., and Willeke, K. (2001). Effect of Sampling Time and Air Humidity on the Bioefficiency of Filter Samplers for Bioaerosol Collection. J. Aerosol Sci., 32:661–674.
  • Womiloju, T. O., Miller, J. D., Mayer, P. M., and Brook, J. R. (2003). Methods to Determine the Biological Composition of Particulate Matter Collected from Outdoor Air. Atmos. Environ., 37:4335–4344.
  • Wood, J. D. (1977). A Review of Personal Sampling Pumps. Ann. Occup. Hyg., 20:3–17.
  • Yamamoto, N., Nazaroff, W. W., and Peccia, J. (2014). Assessing the Aerodynamic Diameters of Taxon-Specific Fungal Bioaerosols by Quantitative PCR and Next-Generation DNA Sequencing. J. Aerosol Sci., 78:1–10.
  • Yamamoto, N., Schmechel, D., Chen, B. T., Lindsley, W. G., and Peccia, J. (2011). Comparison of Quantitative Airborne Fungi Measurements by Active and Passive Sampling Methods. J. Aerosol Sci., 42:499–507.
  • Zhen, H., Han, T., Fennell, D. E., and Mainelis, G. (2013). Release of Free DNA by Membrane-Impaired Bacterial Aerosols Due to Aerosolization and Air Sampling. Appl. Environ. Microbiol., 79:7780–7789.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.