, Volume 11, Issue 2, pp 87–93 | Cite as

MonitoringAspergillus fumigatus aerosols from a composting facility

  • Lawrence D. Syzdek
  • John H. Haines


The large, outdoor Islip Yard Waste Composting Facility on Long Island, New York was investigated as a source of airborne fungus spores. The Burkard-Hirst volumetric spore trap was used for the first extensive sampling of small mold spores for this application. Samplers were operated continuously from 21 August to 30 November 1992 in the facility and in a suburban community about 540 m from the facility. A control site approximately 10 000 m from the facility was also sampled to establish background levels of fungus spores. The facility site had higher average readings ofAspergillus fumigatus spores than did the community and both were higher than the control.A. fumigatus was the only fungus among 30 categories tracked that differed significantly between the facility and control sites. It was also isolated repeatedly from the compost. Higher average levels ofA. fumigatus were measured in the community when winds blew from the facility, and also during times when the compost was moved or mixed at the facility. No correlation was found between wind direction or work times andA. fumigatus conidia at the control site. The study shows that this compost facility can produce a measurable increase in the number of airborneA. fumigatus conidia both at the edge of the facility and at 540 m downwind. It also demonstrates that the Burkard spore trap can be used for monitoring small, airborne mold spores, but it is a difficult and labor intensive task.


Airborne spores Aspergillus fumigatus Burkard sampler Hirst sampler Compost Fungi 


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  1. Kane, B.E. and Mullins, J.T. (1973) Thermophilic fungi in municipal waste compost system. Mycologia 65, 1087–1100.CrossRefGoogle Scholar
  2. Millner, P.D., Marsh, P.B., Snowden, R.B. and Parr, J.F. (1977) Occurrence ofAspergillus fumigatus during composting of sewage sludge. Appl. Environ. Microbiol. 34, 765–772.Google Scholar
  3. Millner, P.D., Bassett, D.A. and Marsh, P.B. (1980) Dispersal ofAspergillus fumigatus from sewage sludge compost piles subjected to mechanical agitation in open air. Appl. Environ. Microbiol. 39, 1000–1009.Google Scholar
  4. Passman, F.J. (1983) Recovery ofAspergillus fumigatus aerospora from municipal sewage composting operations in the state of Maine. Mycopathologia 83, 41–51.CrossRefGoogle Scholar
  5. State of New York Department of Health Report, (1994) A Prospective Study of Health Symptoms and Bioaerosol Levels Near a Yard Waste Facility: Islip Composting Facility, Town of Islip, Suffolk County, New York, State of New York Department of Health, Albany, NY.Google Scholar

Copyright information

© Elsevier Science Ireland Ltd 1995

Authors and Affiliations

  • Lawrence D. Syzdek
    • 1
  • John H. Haines
    • 1
  1. 1.New York State Biological SurveyNew York State MuseumAlbanyUSA

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