Environmental Engineering Reference
In-Depth Information
361. Kanaani, H., Hargreaves, M., Ristovski, Z. et al., Performance assessment of UVAPS: Inluence of fungal
spore age and air exposure,
J. Aerosol Sci
., 38, 83, 2007.
362. McFarland, A.R., Haglund, J.S., King, M.D. et al., Wetted wall cyclones for bioaerosol sampling,
Aerosol
Sci. Technol
., 44, 241, 2010.
363. Pyankov, O.V., Agranovski, I.E., Pyankova, O. et al., Using a bioaerosol personal sampler in combination
with real-time PCR analysis for rapid detection of airborne viruses,
Environ. Microbiol
., 9, 992, 2007.
364. Ligler, F.S., Sapsford, K.E., Golden, J.P. et al., The array biosensor: Portable, automated systems,
Anal.
Sci
., 23, 5, 2007.
365. Berti, G., Isocrono, D., Ropolo, L. et al., An experience of data quality evaluation in pollen monitoring
activities,
J. Environ. Monit
., 11, 788, 2009.
366. British Aerobiology Federation,
Airborne Pollens and Spores: A Guide to Trapping and Counting
,
European Aeroallegen Network (UK), University of Worcester, Worcester, U.K., 1995.
367. Rogers, C. and Muilenberg, M.,
Comprehensive Guidelines for the Operation of Hirst-Type Suction
Bioaerosol Samplers
, Pan-American Aerobiology Association, Standardized Protocols, 2001 (www.
paaa.org/StandardizedProtocols.pdf, website accessed December 15, 2010).
368. UNI 11108:2004,
Air Quality. Method for Sampling and Counting of Airborne Pollen Grains and Fungal
Spores
, ed. UNI Ente Nazionale Italiano di Uniicazione, Milano, Italy, 2004.
369. ASTM,
Standard Test Method for Categorization and Quantiication of Airborne Fungal Structures
in an Inertial Impaction Sample by Optical Microscopy
, ASTM International, West Conshohocken,
PA, 2009.
370. Gottardini, E., Cristofolini, F., Cristofori, A. et al., Sampling bias and sampling errors in pollen counting
in aerobiological monitoring in Italy,
J. Environ. Monit
., 11, 751, 2009.
371. Chun, D.T., Chew, V., Bartlett, K. et al., Second inter-laboratory study comparing endotoxin assay results
from cotton dust,
Ann. Agric. Environ. Med
., 9, 49, 2002.
372. Foto, M., Plett, J., Berghout, J. et al., Modiication of the
Limulus
amebocyte lysate assay for the analysis
of glucan in indoor environments,
Anal. Bioanal. Chem
., 379, 156, 2004.
373. Iossifova, Y., Reponen, T., Daines, M. et al., Comparison of two analytical methods for detecting
(1-3)-β-D-glucan in pure fungal cultures and in home dust samples,
Open Allergy J
., 1, 26, 2008.
374. Ding, J.L., Navas, M.A., and Ho., B., Molecular cloning and sequence analysis of factor C cDNA
from the Singapore horseshoe crab,
Carcinoscorpius rotundicauda
,
Mol. Mar. Biol. Biotechnol
., 4,
90, 1995.
375. Alwis, K.U. and Milton, D.K., Recombinant factor C assay for measuring endotoxin in house dust:
Comparison with LAL, and (1 → 3)-beta-D-glucans,
Am. J. Ind. Med
., 49, 296, 2006.
376. Thorne, P.S., Perry, S.S., Saito, R. et al., Evaluation of the
Limulus
amebocyte lysate and recombinant
factor C assays for assessment of airborne endotoxin,
Appl. Environ. Microbiol
., 76, 4988, 2010.
377. Saito, R., Cranmer, B.K., Tessari, J.D. et al., Recombinant factor C (rFC) assay and gas chromatography/
mass spectrometry (GC/MS) analysis of endotoxin variability in four agricultural dusts.
Ann. Occup.
Hyg
., 53, 713, 2009.
378. Reeslev, M., Miller, M., and Nielsen, K.F., Quantifying mold biomass on gypsum board: Comparison of
ergosterol and beta-n-acetylhexosaminidase as mold biomass parameters,
Appl. Environ. Microbiol
., 69,
3996, 2003.
379. Lignell, U., Meklin, T., Putus, T. et al., Microbial exposure, symptoms and inlammatory mediators in
nasal lavage luid of kitchen and clerical personnel in schools,
Int. J. Occup. Med. Environ. Health
, 18,
139, 2005.
380. Seshadri, S., Han, T., Krumis, V. et al., Application of ATP bioluminescence method to characterize per-
formance of bioaerosol sampling devices,
J. Aerosol Sci
., 40, 113, 2009.
381. Brera, C., Caputi, R., Miraglia, M. et al., Exposure assessment to mycotoxins in workplaces: Alatoxins
and ochratoxin A occurrence in airborne dusts and human sera,
Microchem. J
., 73, 167, 2002.
382. Andersson, M.A., Nikulin, M., Köljalg, U. et al., Bacteria, molds, and toxins in water-damaged building
materials,
Appl. Environ. Microbiol
., 63, 387, 1997.
383. Peltola, J., Andersson, M.A., Haahtela, T. et al., Toxic-metabolite-producing bacteria and fungus in an
indoor environment,
Appl. Environ. Microbiol
., 67, 3269, 2001.
384. Vesper, S., Dearborn, D.G., Yike, I. et al., Evaluation of
Stachybotrys chartarum
in the house of an infant
with pulmonary hemorrhage: Quantitative assessment before, during, and after remediation,
J. Urban
Health
, 77, 68, 2000.
385. Luczynska, C.M., Arruda, L.K., Platts-Mills, T.A.E. et al., A two-site monoclonal antibody ELISA for the
quantiication of the major
Dermatophagoides
spp. allergens,
Der p
I and
Der f
I,
J. Immunol. Methods
,
118, 227, 1989.
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