Year : 2010 | Volume
: 55 | Issue : 3 | Page : 306--308
Dermatophytes and related keratinophilic fungi in soil of parks and agricultural fields of Uttar Pradesh, India
Itisha Singh1, R K S Kushwaha2,
1 Department of Botany, Christ Church College, Kanpur 208 001, India
2 Department of Applied Microbiology and Biotechnology, Dr. H.S. Gour University, Sagar 470003, India
R K S Kushwaha
Department of Applied Microbiology and Biotechnology, Dr. H.S. Gour University, Sagar 470003
|How to cite this article:|
Singh I, Kushwaha R. Dermatophytes and related keratinophilic fungi in soil of parks and agricultural fields of Uttar Pradesh, India.Indian J Dermatol 2010;55:306-308
|How to cite this URL:|
Singh I, Kushwaha R. Dermatophytes and related keratinophilic fungi in soil of parks and agricultural fields of Uttar Pradesh, India. Indian J Dermatol [serial online] 2010 [cited 2020 Apr 10 ];55:306-308
Available from: http://www.e-ijd.org/text.asp?2010/55/3/306/70700
Indian keratinophilic fungal flora was described by Tripathi and Kushwaha  who describe 270 fungal species. A taxonomic review was published that dealt with 116 genera of human pathogenic keratinophilic fungi  and Kushwaha  compiled the taxonomy and biotechnological potential of Chrysosporium and related dermatophytes. The association of keratinophilic fungi and related dermatophytes with the soil of UP is not well documented and no data are available of the prevalence of these fungi in different parks and cultivated fields of UP. The present study was carried out to identify keratinophilic fungal flora of parks and cultivated fields of UP.
Soil samples were collected from 25 parks of Agra, Kanpur, and Lucknow and cultivated fields of 16 districts of UP, and keratinophilic fungi were isolated by using the hair-baiting technique using human hair and chicken feathers as keratinous baits. Isolated fungi were cultured and maintained on Sabouraud's dextrose and potato dextrose agars, and also maintained as water agar cultures. The pure cultures were deposited in the Germ Plasm Centre for Keratinophilic Fungi [GPCK], Department of Botany, Christ Church College, Kanpur.
Alternaria alternata, Aspergillus candidus, A. flavus, A. niger, Aphanoascus fulvescens, A. kiliense, Acremonium implicatum, Arthroderma tuberculatum, Aurobasidium piluliferum, Chrysosporium carmichaelii, C. georgii, C. indicum, C. keratinophilum, C. queensladicum, C. tropicum 1, C. tropicum 2, C. xerophilum, C. zonatum, C. keratinophilum, Cladosporium herbarium, Diamargaris sp., Geomyces pannorum, Geotrichum sp., Gliocladium sp., Gymnoascus hyalinospora, Microsporum fulvum, M. gypseum, M. vanbreuseghmii, M. mannum, Malbranchea pulchella, Mucor pusillus, Myceliophthora vellera, T. mentagrophytes, T. varrucosum, and Verticillium tenuipes were isolated from 213 samples of cultivated fields of Agra, Allahabad, Etawah, Faizabad, Farrukhabad, Gonda, Gorakhpur, Kannauj, Kanpur, Lucknow, Meerut, Raibareilly, Sitapur, Unnao, Fatehpur, and Varanasi. M. gypseum and C. tropicum 1 were isolated from all the districts and yielded 51 and 44 isolates respectively; C. keratinophilum and C. indicum yielded 34 and 31 isolates. A. alternata was isolated from 11 districts. Among six species of Aspergillus, A. fulvescens was present in the soil from seven districts, A. kiliense from only two, and A. niger was the most common, showing its presence in nine districts and yielding 11 isolates. A. implicatum could be isolated from eight districts whereas A. tuberculatum was present in ten districts. B. piluliferum was present in only three districts whereas a maximum of ten species of Chrysosporium were encountered during this study. C. herbarum, Diamrgaris sp., G. pannorum, Geotrichum, and Gliocladium sp. could be isolated from seven, five, three, three, and five districts respectively. Ten isolates of G. hyalinospora were found in six districts. M. fulvum, M. racemosum, M. mannum were isolated from six, five, and three districts only, whereas M. gypseum was present in all the samples. M. pulchella was also common in the soil of nine districts, yielding 12 isolates. Mucor was restricted to only one district. T. mentagrophytes and T verrucosum were isolated in six and two districts respectively. V. tenuipes was restricted to five districts, representing one isolate from each. Kanpur and Lucknow yielded 65 and 62 isolates of keratinophilic fungi respectively, and Varanasi and Agra districts showed presence of 51 and 50 isolates of these fungi.
A total of 641 isolates were obtained from 125 soil samples of 25 parks of Agra, Kanpur and Lucknow and they are represented by 31 species. A. clavatus, A. flavus, A. niger, A. parasiticus, Absidia repens, Acremonium implicatum, Aphanoasus fulvescens, Arthroderma tuberculatum, Aspergillus candidus, C. georgii, C. indicum, C. keratinophilum, C. queensladicum, C. tropicum 1, C. xerophilum, C. zonatum, Chaetomium globosum, Chrysosporium carmichaelii, Ctenomyces serratus, Curvularia lunata, Geomyces pannorum, Gliocladium sp., Gymnoascus hyalinospora, M. gypseum, M. vanbreuseghmii, M.mannum, Malbranchea pulchella, Mcrosporum fulvum, Mucor pusillus, Myceliophthora vellera, Nannizzia gypsea, T. varrucosum, T. mentagrophytes, Verticillium tenuipes were isolated from 25 parks. Among four species of Aspergillus, 16 isolates of A. niger were found in park soil. Similarly, 16 isolates of A. implicatum and 31 isolates of A. alternata were obtained. A. fulvescens, A. terreus, and A. tuberculatum yielded ten, 20, and 22 isolates; only one Aspergillus species was found in parks. Eight species of Chrysosporium were isolated of which 48 isolates of C. tropicum were found. The isolate number of C. globosum was 53. Among dermatophytes, M. gypseum was the most predominant and T. varrucosum was represented by 29 isolates. M. pusillus and M. vellera were found in two and C. serratus in three parks only. Greenpark of Kanpur was found to be the richest source of keratinophilic fungi and next to this, were Gulab and Nimboo parks of Lucknow, followed by Baldev park in Agra and Surajkund park of Lucknow. CSA park, Companybagh park, and JK temple park of Kanpur yielded lower numbers of fungal isolates.
A. flavus first appeared on hair in three days and completely colonized hair in 12 days, which was the minimum time when compared with other fungi. A. tuberculatum took 14 and A. fulvescence took 15 days to completely colonize hair. B. piluliferum and A. candidus took the most time to colonize all the hairs, while the rest of the fungi colonized hair completely within a month. The rapid and complete colonization of hair in soil is indicative of their ability to survive on these substrates and degrade the keratin at a later stage. Filipello  isolated 57 species of keratinophilic fungi from public parks in Italy and found that species of Microsporum, Aphanoascus, Chrysosporium, Malbranchea, and Geomyces were the most active keratinolytic. Vidal et al.  isolated keratinophilic fungi from parks of Barcelona, Spain. Gugnani et al.  obtained 23 isolates of T. mentagrophytes, two isolates of M. gypseum and several isolates of species of Aspergillus, Penicillium, Paecilomyces, Fusarium, Chrysosporium, Acremonium, Rhizopus, Mucor, Geotrichum, Trichosoporon, and Rhodotourula from different soil samples in India and Nepal. It can be concluded that the occurrence of these potentially pathogenic fungi in cultivated and park soils is of considerable importance, and their ability to perforate human hair is an evidence of their keratinolytic ability. The incidence of 50 isolates of Microsporum in cultivated soil and 60 isolates in parks along with large numbers of isolates of other fungi may predict the possibility of infection in human beings. Similarly, the incidence of dermatophytes and potentially pathogenic keratinophilic fungi in the soil of cultivated fields and parks, and their ability to perforate human hair is an indication of the outbreak of infections of skin and its appendages in farmers and children who remain in contact with these two habitats. This is the first report of keratinophilic genera, namely, Absidia, Alternaria, Acremonium, Aphanoascus, Arthroderma, Aurobasidium, Cephalosporium, Cladosporium, Curvularia, Diamargaris, Geotrichum, Gliocladium, Gymnoascus, Microsporum, Malbranchea, Mucor, Myceliophthora, Nannizzia, Trichophyton, and Verticillium in agricultural fields and parks of UP, India.
This work was financially supported by Ministry of Environment and Forests under All India Coordinated Project on Taxonomy.
|1||Tripathi N, Kushwaha RKS. Indian keratinophilic fungal flora. In: Deshmukh SK, Rai MK. editors. Fungi: Diversity and Biotechnology. Jodhpur: Scientific Publishers; 2005. p. 31-62.|
|2||Tripathi N, Kushwaha RKS. Human pathogenic fungi: A Review. In: Kushwaha RKS. editor. Animal and Human Pathogenic Fungi. Jodhpur: Scientific Publishers; 2004. p. 185-250.|
|3||Kushwaha RKS. The genus Chrysosporium, its physiology and biotechnological potential. In: Kushwaha RKS, Guarro J. editors. Biology of dermatophytes and other keratinophilic fungi. Bilbao, Spain: Rev Iberoamericana Micol; 2000. p. 66-76.|
|4||Fillipello Marchisio V. Keratinolytic and keratinophilic fungi of childrens sandpits in the city of Turin. Mycopathologia 1968;94:163-72.|
|5||Gugnani HC, Paliwal-Joshi A., Rahman H, Padhye AA, Singh TSK, Das TK, Khanal B, Bajaj R, Rao S, Chukhani R. Occurrence of pathogenic fungi in soil of burrows of rats and of other sites in bamboo plantations in India and Nepal. Mycoses 2007;50:507-11.|