Abstract
Of 236 soil samples baited with wool, some 71.2% (168) produced fungal growth. Gliocladium (25.0%), Paecilomyces (14.8%), Trichophyton (11.9%) species were the most prevalent in soil moistened with sterile distilled water (SDW) containing antibiotics. On the other hand, in soil moistened with SDW only, Trichophyton (32.6%), Paecilomyces (27.5%), Diheterospora (16.5%), Gliocladium (13.6%) and Fusarium (13.1%) species were more common. Of the known potential pathogens, the Paecilomyces and Fusarium species were frequently isolated from soil collected in parks, cleared areas, paddocks, rivers and roadsides. All five sites are areas of human and animal activity. The keratinolytic species were Microsporum cookei, M. gypseum complex, Trichophyton ajelloi and T. terrestre, which are regarded as nonpathogens with the exception of M. cookei and M. gypseum complex.
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References
Chmel L, Hasilikova A, Hrasko J, Vlaoilikova. The influence of some ecological factors on keratinophilic fungi in the soil. Sabouraudia 1972; 10: 26–34.
Ajello L. Natural habitats of the fungi that cause pulmonary mycoses. In: Preusser JH (ed) Medical Mycology Zbl Bkt Suppl 8. New York: Gustav Fisher Verlag, 1980; 31–42.
Vanbreuseghem R. Technique biologique pour l'isolement des dermatophytes du sol. Ann Soc Beige Méd Trop 1952; 32: 173–177.
Griffin DM. Fungal colonisation of sterile hair in contact with soil. Trans Brit Mycol Soc 1960; 43: 583–596.
Simpanya MF, Baxter M. Isolation of fungi from the pelage of cats and dogs using the hair-brush technique. Mycopathologia, 1996; 134: 129–133.
English MP. The saprophytic growth of non-keratinophilic fungi on keratinized substrata and a comparison with keratinophilic fungi. Trans Brit Mycol Soc 1965; 48: 219–235.
Ajello L, Alpert EM. Survey of Easter Islands soils for keratinophilic fungi. Mycologia 1972; 64: 161–166.
Marchisio VF, Curretti D, Cassinelli C, Bordese C. Keratinophilic fungi in the soils of Papua New Guinea. Mycopathologia 1991; 115: 113–119.
Soon-Hoo TS. Isolation of keratinophilic fungi from soils in Malaysia. Mycopathologia 1991; 113: 155–158.
Vanbreuseghem R, De Vroey C, Takashio M. A Practical Guide to Medical and Veterinary Mycology. New York: Masson Publishing USA, 1978.
Demange C, Contet-Audonneau N, Kombila M, Miegeville M, Berthonneau M, De Vroey Ch, Percebois G. Microsporum gypseum complex in man and animals. J Med Vet Mycol 1992; 30: 301–308.
Lundell E. Microsporum cookei Ajelloi in an eczematous skin lesion. Mykosen 1969; 12: 123–126.
Mariat F, Tapia G. Observations sur une souche de Microsporum cookei parasite du cynocephale (Papio papio). Sabouraudia 1966; 4: 43–45.
Schick GW. Drei positive befunde von Mikrosporum cookei Ajelloi 1959 in hautlasionen beim menschen. Derm Wachr 1966; 152: 177–183.
Mycoses Newsletter. Communicable Disease Centre, New Zealand, April 1992; 2: 3–13.
Mycoses Newsletter. Communicable Disease Centre, New Zealand, April 1991; 1:13–17.
Marples MJ. The distribution of keratinophilic fungi in soils from New Zealand and from two Polynesian Islands. Mycopathol Mycol Appl 1965; 25: 361–372.
Male O. The significance of mycology in medicine. In: Hawksworth DC (ed), Frontiers in Mycology: Hononary and general lectures from the Fourth International Mycological Congress. CAB International, 1990 131–156.
King DS. Systematics of fungi causing entomophthoromycosis. Mycologia 1979; 71: 731–745.
Costa AR, Porto E, Pegas JRP, dos Reis VMS, Pires MC, Lacaz CS, Rodrigues MC, Muller H, Cucé LC. Rhinofacial zygomycosis caused by Conidiobolus coronatus. Mycopathologia 1991; 115: 1–8.
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Simpanya, M.F., Baxter, M. Isolation of fungi from soil using the keratin-baiting technique. Mycopathologia 136, 85–89 (1996). https://doi.org/10.1007/BF00437500
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DOI: https://doi.org/10.1007/BF00437500