Our previous field studies have shown that the presence of molds in buildings does not necessarily mean elevated airborne spore counts. Therefore, we investigated the release of fungal spores from cultures of Aspergillus fumigatus, Penicillium sp. and Cladosporium sp. at different air velocities and air humidities. Spores of A. fumigatus and Penicillium sp. were released from conidiophores already at air velocity of 0.5 m s-1, whereas Cladosporium spores required at least a velocity of 1.0 m s-1. Airborne spore counts of A. fumigatus and Penicillium sp. were usually higher in dry than moist air, being minimal at relative humidities (r.h.) above 70%, while the effect of r.h. on the release of Cladosporium sp. was ambivalent. The geometric mean diameter of released spores increased when the r.h. exceeded a certain level which depends on fungal genus. Thus, spores of all three fungi were hygroscopic but the hygroscopicity of various spores appeared at different r.h.-ranges. This study indicates that spore release is controlled by external factors and depends on fungal genus which can be one reason for considerable variation of airborne spore counts in buildings with mold problems.

• fungi: spore, aerosol

1. A review: fungal exposure assessment in indoor environments
2. Airborne mesophilici fungal spores in various residential environments
3. Can microbial volatile metabolites cause irritation at indoor air concentrations?
4. Critical aspects on the significance of microbial volatile metabolites as indoor air pollutants
5. Effect of duct-cleaning detergents and disinfection substances on mould growth
6. Ergosterol content in various fungal species and biocontaminated building materials
7. Evaluation of indoor fungal exposure
8. Fungal growth and survival in building materials under fluctuating moisture and temperature conditions
9. Fungal microcolonies on indoor surfaces an explanation for the base-level fungal spore counts in indoor air
10. Growth and volatile metabolite production of Aspergillus versicolor in house dust
11. Occurrence and moisture requirements of microbial growth in building materials
12. Sensory irritating potency of some microbial volatile organic compounds (MVOCs) and a mixture of five MVOCs
13. Sensory irritation of microbially produced volatile organic compounds in mice during repeated exposures
14. The relationship between measured moisture conditions and fungal concentrations in water-damaged building materials
15. Volatile metabolites of Serpula lacrymans, Coniophora puteana, Poria placenta, Stachybotrys chartarum and Chaetomium globosum
16. Volatile organic metabolites associated with some toxic fungi end their mycotoxins  

1. Can microbial volatile metabolites cause irritation at indoor air concentrations?
2. Effect of duct-cleaning detergents and disinfection substances on mould growth
3. Ergosterol content in various fungal species and biocontaminated building materials
4. Fungal growth on wood surfaces at different moisture conditions in crawl spaces
5. Fungal spore transport through a building structure
6. Growth and volatile metabolite production of Aspergillus versicolor in house dust
7. Microbial contamination of indoor air due to leakages from crawl space- a field study
8. Transport of fungal spores from crawl space to indoors
9. Volatile compounds originating from mixed microbial cultures on building materials under various humidity conditions
10. Volatile organic metabolites associated with some toxic fungi end their mycotoxins  

1. Air pollution exposure in European cities: The "EXPOLIS" study
2. Fungal microcolonies on indoor surfaces an explanation for the base-level fungal spore counts in indoor air
3. Occurrence and moisture requirements of microbial growth in building materials
4. Temporal and spatial variation of fungal concentrations in indoor air  

1. Control of exposure to airborne viable microorganisms during remediation of moldy buildings; report of three case studies
2. Effect of duct-cleaning detergents and disinfection substances on mould growth
3. Ergosterol content in various fungal species and biocontaminated building materials
4. Fungal microcolonies on indoor surfaces an explanation for the base-level fungal spore counts in indoor air
5. Moisture conditions and fungi in wood and wood based material samples collected from damp buildings