Planned intervention: On Thursday 19/09 between 05:30-06:30 (UTC), Zenodo will be unavailable because of a scheduled upgrade in our storage cluster.
Norwegian Journal of development of the International Science
Published April 26, 2023 | Version v1
Journal article Open

GENERAL CHARACTERİSTİCS OF MİCOLOGİCAL STATUS İN KİNDERGARDENS (İN THE SAMPLE OF BAKU CİTY)

Creators

  • 1. PhD in biology, leading researcher, Institute of Microbiology of the Ministry of Science and Education, Baku, Azerbaijan
  • 2. PhD in biology, senior teacher, Azerbaijan Medical University, Baku, Azerbaijan
  • 3. PhD in biology, Senior lecturer, Azerbaijan State Pedagogical College, Baku, Azerbaijan

Description

Abstract

The presented work is dedicated to analysis of micological status of kindergardens constructed in Baku City and mainly registered with the state. It was determined that micobiota formed in the interior environment of kindergardens consisted of 10 genes and 21 species 57% of which are the representatives of Aspergillus, Penicillium and Cladosporium genes. It was identified that dominant species of fungi are directly involved in the formation of dominant core of micobiota in the kindergardens. As well as it became known that almost all the fungi registered are mainly spread in the atmospheric air in rooms with different stetus. Its defined that conventional  pathogenic fungi are easily adhessed on the tender skin of kids and on ecological condition are quickly transforming to aggressive inflamors of invasive mycoses.

Notes

References: 1. Aliyev I.A., Djabrailzade S.M., Akhmedova F.R., Ibrahimov E.A., Asadova Sh.F. Some ecological and biological properties of opportunistic representatives mycobiota in residential build-ings // Herald MSOU, series "Natural Science", 2014, N 2, p. 15-19 2. Aliyev İ.A., Ağayeva S.A., Ganbarov Kh.G. The influence of ecologcal situations in buildings over the micodiversity // Deutscher Wissenschaftsherold. German Science Herald. 2016, № 1, p. 6-8 3. Aliyev I.A., Huseynova A.A., AgayevaN.A., Ganbarov Kh.G.The infkuence of temperature to the growth of opportunist fungi of Baku city environment // International Journal of Applied and Pure Science an Agriculture (IJARSA), 2016, vol. 2, issue 6, p. 148-150 4. El-Morsy E.-S.M. Prelitinary survey of indoor and outdoor airborne nicrofungi at coostal buildings in Egupt // Aerobiologia. 2006, vol. 22, N 2, p. 197-210 5. De Hood G.S., Guarro J., Gene J., Figueras M.J. Atlas of clinical fungi. Ultrecht (Spain: CBS): Universitat Rovira I Virgili Reus, 2000, 1126 p. 6. Duncan S.M., Farrell R.L., Lardan N., Lurgens L.A., Blanchette R.A. Monitoring and identification of airborne fungi at historic locations on Ross sland, Antarctica // Polar Sci. 2010, v/ 4, p. 275-283 7. Dighton J. Fungi in ecosystyem processes. Marcel Deccer Inc., 2003, 438 p. 8. Lugauskas A., Sveistyte L. Contamination of occupational and dwelling premices with micromycetes hazardous to human health / Eds D. Cugas, K.D.Froehner // Environ. Engineering / Vl International Conf., Vilnus, Lithuania, 2005, p. 171-175 9. Lugauskas A., Jaskelevicus B. Micromycetes hazardous to human health in buildings of various age and use in Vilmus // Indoor Built. Environ, 2007, vol. 16, p. 358-370 10. Satton D., Fothergill A., Rinaldi M. The determinant of pathogenic and opportunistic fungi. Moscow, Publishing House "Mir", 2011, 468 p. 11. Rylander R. Humid buildings – the problem // İndoor Build. Environ, 2003, vol. 12, p. 211-213 12. Pyrri I., Kapsanaki-Gotsi E.A. Comparative study on the airborne fungi in Athens, Greece, by viable and non-vable sampling methods // Aerobiologia. 2007, vol. 23, N 1, p. 3-15 13. Wang W., Ma X., Ma Y., Mao L., Wu F., Feng H. Sea-sonal dynamics of airbornefungi in different cavs of the Mogao Grottoes, Dunhuang China // Internat. Biodeteriorat. Biodegradat. 2010, vol. 64, N 6, p. 461-466

Files

NJD_107-3-5.pdf

Files (372.2 kB)

Name Size Download all
md5:9f62754b30621804e45be8aeb6ffe297
372.2 kB Preview Download