Stachybotrys chartarum
Stachybotrys chartarum[note 1] (/stækiːˈbɒtrɪs tʃɑːrˈtɛərəm/, stak-ee-BO-tris char-TARE-əm[1]), also known as black mold or toxic black mold, is a variety of microfungus that produces its conidia in slime heads. It is sometimes found in soil and grain, but the mold is most often detected in cellulose-rich building materials, such as gypsum-based drywall and wallpaper, from damp or water-damaged buildings.[2][3] S. chartarum was originally discovered on the wall of a house in Prague in 1837 by Czech mycologist August Carl Joseph Corda.
Stachybotrys chartarum | |
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Scientific classification | |
Kingdom: | Fungi |
Division: | Ascomycota |
Class: | Sordariomycetes |
Order: | Hypocreales |
Family: | Stachybotryaceae |
Genus: | Stachybotrys |
Species: | S. chartarum |
Binomial name | |
Stachybotrys chartarum (Ehrenb.) S.Hughes | |
Synonyms | |
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Growth, reproduction, and habitat
S. chartarum is a slow-growing mold that does not compete well with other molds. It is only rarely found in nature, and seldom encounters the kind of living environment occasionally produced by human habitation (i.e., large amounts of cellulose, large temperature fluctuations, low nitrogen, no other molds, no sunlight, and ample constant humidity).[3] The spores are only released into the ambient air when the mold is mechanically disturbed, particularly when wet. It is considered an uncommon contaminant of most indoor air.[4]
Not all strains of S. chartarum produce mycotoxins, and under certain conditions some of these lose the ability to produce such toxins over time; the presence of high indoor humidity does not imply that mycotoxin-producing S. chartarum is also present; even intense exposure in a laboratory setting of rats to vapors from walls entirely covered in S. chartarum resulted in few notable biological effects (possibly because the air contained almost no spores, possibly because the walls were not disturbed during the experiment). In another experiment, mice exposed to concentrations of mycotoxins from S. chartarum much greater than a human could obtain in any living environment showed no ill effects. According to one author, "These studies suggest that the concentrations of airborne spores of S. chartarum realistically obtainable in indoor air are too low to produce clinical effects."[4]
Toxicity
Claims of health problems related to this mold have been documented in humans and animals since the 1930s.[5] More recently, S. chartarum has been linked with so-called sick building syndrome. However, the link has not been firmly established in the scientific literature.[6]
In 1994 the US Center for Disease Control verified that a number of infants in Cleveland, Ohio became sick, and some died from pulmonary hemosiderosis (bleeding in the lungs) following exposure to unusually high levels of S. chartarum spores.[3] Subsequent investigation by the CDC did not reveal a definitive link between mold exposure and the infant deaths.
In 2007 the journal Veterinary Forum published an article reporting that two cats had died under anesthesia in what is believed to be the first documented case of black mold poisoning in pets. The cats had been living in Florida in a water damaged home. During routine dental procedures both cats experienced severe pulmonary hemorrhage and later died. Blood tests confirmed the presence of a toxin produced by S. chartarum, and severe mold contamination was found in the home.[7]
There are two chemotypes in S. chartarum, one that produces trichothecene mycotoxins such as satratoxin H and one that produces atranones.[8]
See also
- Bioaerosol
- Mold growth, assessment, and remediation
- Mold health issues
Notes
- Other Latin names are Stachybotrys atra, Stachybotrys alternans, and or Stilbospora chartarum.
References
- Nicholas P. Money (2004). Carpet Monsters and Killer Spores: A Natural History of Toxic Mold. Oxford University Press. p. 5. ISBN 978-0-19-803847-4.
- Samson RA, Houbraken J, Thrane U, Frisvad JC & Andersen B. (2010). Food and Indoor Fungi. CBS-KNAW Fungal Biodiversity Centre, Utrecht, the Netherlands. pp. 1–398.
- Richard F. Progovitz (2003). Black Mold Your Health and Your Home. The Forager Press, LLC. p. 96. ISBN 978-0-9743943-9-8.
- Donald G. Barceloux (2012). Medical Toxicology of Natural Substances: Foods, Fungi, Medicinal Herbs, Plants, and Venomous Animals. John Wiley & Sons. p. 885. ISBN 978-1-118-38276-9.
- Etzel RA, Montaña E, Sorenson WG, Kullman GJ, Allan TM, Dearborn DG, Olson DR, Jarvis BB, Miller JD (August 1998). "Acute pulmonary hemorrhage in infants associated with exposure to Stachybotrys atra and other fungi". Archives of Pediatrics and Adolescent Medicine. 152 (8): 757–62. doi:10.1001/archpedi.152.8.757. PMID 9701134.
- Page, E. H.; Trout, D. B. (2001). "The Role ofStachybotrysMycotoxins in Building-Related Illness". AIHA Journal. 62 (5): 644. doi:10.1080/15298660108984664.
- "Toxic mold may pose threat to pets". Veterinary Forum. Veterinary Learning Systems. 24 (10): 17. October 2007.
- Andersen B, Nielsen KF, Thrane U, Szaro, T, Taylor, JW & Jarvis, BB (2003). "Molecular and phenotypic descriptions of Stachybotrys chlorohalonata sp. nov. And two chemotypes of stachybotrys chartarum found in water-damaged buildings" (PDF). Mycologia. 95 (6): 1227–38. doi:10.1080/15572536.2004.11833031. PMID 21149024. S2CID 203881222.
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External links
- Mold On The Wall – A Health Hazard Preventing Mold On The Wall
- Stachybotrys chartarum: The Toxic Indoor Mold Archived from APSnet. American Phytological Society
- Questions & Answers on Stachybotrys chartarum & Other Molds National Center for Environmental Health
- Dunning, Brian (November 24, 2015). "Skeptoid #494: Black Mold: Peril or Prosaic?". Skeptoid.