The species composition of microscopic fungi (micromycetes) on the foliage surface of wood and shrub plants in the center and suburbs of Saint Petersburg was studied. Thirty species of fungi and the sterile forms of light and dark mycelium were detected. Different micromycetes permanently inhabit plant foliage and form communities having characteristic structures. The basis of these communities is constituted by dark- colored anamorphic microscopic fungi referred to a few species. They form hyphae and microcolonies, the distribution of which may be related to the structural features of foliage. Micromycetes of phylloplane fungi show antagonistic relationships with powdery mildew pathogens, which also develop on foliage surfaces. The composition of phylloplane mycobiota depends on the spatial arrangement of plantations as well as on their composition. Phyllophilic biofilms associated with dust particles of various shapes and sizes form organo-mineral layers on foliage surfaces. As a result, fungi are involved in the formation of bio-inert systems and in crystallization and mineral formation. In general, the specific features of phylloplane mycobiota development are largely determined by ecological situations in specific areas.

micromycetes, urban environment, leaf surface, trees and shrubs, bio-inert interactions, anthropogenic impact.

Благовещинская ЕЮ. Методы выявления грибов филлопланы. В кн.: Материалы VII всероссийской микологической школы-конференции с международным участием «Биотические связи грибов: мосты между царствами». Москва; 2015. с. 10-8.

Воронин ЛВ. Грибы филлопланы Nuphar lutea (L.) Smith в малых реках бассейна Рыбинского водохранилища. Ярославский педагогический вестник. 2010;(3):91-5.

Марфенина ОЕ, Иванова АЕ, Глушакова АМ, Соина ВС, Шишкова ВА, Бареева ЛФ. Грибные эпифиты древесных растений после «Ледяного дождя». Микология и фитопатология. 2012;46(6):377-84.

Марфенина ОЕ, Макарова НВ, Иванова АЕ. Оппортунистические грибы в почвах и приземных слоях воздуха мегаполиса (на примере района Тушино г. Москвы). Микология и фитопатология. 2011;45(5):397-407.

Марфенина ОЕ. Антропогенная экология почвенных грибов. М.: Медицина для всех; 2005.

Овчаренко НС. Консортивные связи ароматических и лекарственных растений с грибами. Труды Никитского ботанического сада. 2011;133:143-51.

Овчинникова ТА, Кремс ЕВ, Корчиков ЕС. Сезонная динамика микобиоты листовой поверхности древесных растений городской среды. Вестник СамГУ. 2013;107(6):188-95.

Пидопличко НМ. Грибы-паразиты культурных растений. Определитель. Т. 2. Несовершенные грибы. Киев: Наукова думка; 1977.

Саттон Д, Фотергилл А, Ринальди М. Определитель патогенных и условно патогенных грибов. М.: Мир; 2001.

Сверлова ЛИ. Научные основы современного подхода к оценке уровня загрязнения атмосферного воздуха городов. Успехи современного естествознания. 2009;(7):20-32. Рис. 9. Округлые пылевые частицы, встречающиеся в воздухе Санкт-Петербурга 56

Blagoveshchinskaya YeYu. Methods for detection of phylloplane fungi. In: Materialy VII Vserossijskoy Mikologicheskoy Shkoly-konferentsii s Mezhdunarodnym Uchastiyem «Bioticheskiye Svyazi Gribov: Mosty Mezhdu Tsarstvami». Moscow; 2015. p. 10-8. (In Russ.)

Voronin LV. Phyyloplane fungi Nuphar lutea (L.) Smith in minor rivers of Rybinsk water storage basin. Yaroslavskiy Pedagogicheskiy Vestnik. 2010;(3):91-5. (In Russ.)

Marfenina OYe, Ivanova AYe, Glushakova AM, Soina VS, Shishkova VA, Bareyeva LF. Fungal epiphytes of woody plants after ice rain. Mikologiya i Fitopatologiya. 2012;46(6):377-84. (In Russ.)

Marfenina OYe, Makarova NV, Ivanova AYe. Opportunistic fungi in soils and ground air of a megalopolice exemplified with Tushino in Moscow. Mikologiya i Fitopatologiya. 2011;45(5):397-407. (In Russ.)

Marfenina OYe. Antropogennaya Ekologiya Pochvennykh Gribov. Moscow: Meditsyna dlya Vsekh; 2005. (In Russ.)

Ovcharenko NS. Consortium associations of aromatic and medicinal plants with fungi. Trudy Nikitskogo Botanicheskogo Sada. 2011;133:143-51. (In Russ.)

Ovchinnikova TA, Krems YeV, Korchikov YeS. Seasonal dynamics of mycobiota of the foliage surfaces of woody plants in the urban environment. Vestnik Samarskogo Gosudartvennogo Universiteta. 2013;107(6):188-95. (In Russ.)

Pidoplichko NM. Griby-Parazity Kulturnykh Rasteniy. Opredelitel. T. 2. Nesovershennye Griby. Kiev: Naukova Dumka; 1977. (In Russ.)

Satton D, Fotergill A, Rinaldi M. Opredelitel Patogennykh i Uslovno Patogennykh Gribov. Moscow: Mir; 2001. (In Russ.)

Sverlova LI. Scientific basis of modern approaches to estimating urban air pollution. Uspekhi Sovremennogo Yestestvoznaniya. 2009;(7):20-32. (In Russ.)

Ajay KS, Aparajita R, Das P. Fungal colonization of phylloplane of Psidiumguineense Sw. growing in Suryamaninagar, Tripura, Northeast India. Int J Basic Applied Chem Sci. 2013;3(1):62-7.

Andrews JH, Buck JW. Adhesion of yeasts to leaf surfaces. In: Phyllosphere Microbiology. APS Press: St. Paul; 2002. p. 53-68.

Andrews JH, Spear RN, Nordheim EV. Population biology of Aureobasidium pullulans on apple leaf surfaces. Can J Microbiol. 2002;48:500-13.

Bakkar GR, Frampton CM, Jaspers MV, Stewart A, Walter M. Assessment of Phylloplane microorganism populations in Canterbury apple orchards NZ Plant Protect. 2002;55:129-34.

Blakeman JP. Pathogens in the foliar environment. Plant Pathol. 1993;42(4):479-93.

Blakeman JP, Fokkema NJ. Potential for biocontrol of plant diseases on the phylloplane. Annu Rev Phytopathol. 1982;20:167-92.

Borogohain A, Das R, Chutia M. Fungal diversity in phylloplane of castor plant (Ricinus communis L.): the primary food plant of Eri Silkworm. Scholarly J Agricult Sci. 2014;4(2):82-6.

Breeze EM, Dix NJ. Seasonal analysis of the fungal community on Acer platanoides leaves. Trans Br Mycol Soc 1981;77:321-8.

Collado JG, Platas I, Gonzaloz-Pelaez F. New Phytol. 1999;144:525-32.

Ellis MB. Dematiaceous Hyphomycetes. Kew, Surrey, UK: Commonwealth Mycological Institite; 1971.

Ellis MB. More Dematiaceous Hyphomycetes. Kew, Surrey, UK: Commonwealth Mycological Institite; 1976.

El-Said AHM. Phyllosphere and phylloplane fungi of banana cultivated in Upper Egypt and their cellulolytic ability. Mycobiology. 2001;29(4):210-7.

Fernandez-Camacho R, Rodrigues S. Ultrafine particle and fine trace metal (As, Cd, Cu, Pb and Zn) pollution episodes induced by industrial emissions in Huelva, SW Spain. Atmospheric Environment; 2012. p. 1-11.

De Hoog GS, Guarro J. Atlas of Clinical Fungi. Baarn: CBS; 1995.

Inacio J, Pereira P, de Carvalho M, Fonseca A, Amaral- Collaco MT, Spenser-Martins I. Estimation and diversity of phylloplane mycobiota on selected plants in a Mediterranean-type ecosystem in Portugal. Microb Ecol. 2002;44:344-53.

Kuthubutheen AJ. Leaf surface fungi associated with Avicennia alba and Rhizophora mucornata in Malaysia. In: Proc. Asian Symp. on Mangrove Environment, Research and Management; 1984 25-29 August. Kuala Lumpur; 1984. p. 133-71.

Langvad F. A simple and rapid method for qualitative and quantitative study of the fungal flora of leaves. Can J Botany. 1980;26:666-70.

Lee OHK, Hyde KD. Phylloplane fungi in Hong Kong mangroves: evaluation of study methods. Mycologia. 2002;94(4):596-606.

Levetin E. Bioaerosols in agricultural and outdoor settings. In.: Encyclopedia of Environmental Microbiology. N-Y.: John Wiley and Sons; 2002.

Levetin E, Dorsey K. Contribution of leaf surface fungi to the air spora. Aerobiologia. 2006;22;3-12.

Levine S, Schwarz S. In-cloud and below-cloud scavenging of nitric acid vapor. Atmospheric Environment. 1982;16(7):1725-34.

Lindow SE. Brandl MT. Microbiology of the phyllosphere. Appl Environ Microbiol. 2003;69:1875-83.

Maji MD, Qadri SMH, Pal SC. Evaluation of mulberry phylloplane microorganisms for biological control of bacterial leaf spot of mulberry caused by Xanthomonas campestri spv. mori. Indian J Agric Res. 2003;37(4):307-9.

Osono T, Bhatta BK, Takeda H. Phyllosphere fungi on living and decomposing leaves of giant dogwood. Mycoscience. 2004;45:35-41.

Pagoda IO, Pautov AA, Zelenskaya MS, Vlasov DYu. Cork warts on leaves of Gnetum L. (Gnetaceae) and its phylloplane fungi. Int J Botany. 2015;11(1):10-20.

Prabakaran M, Merinal S, Panneerselvam A. Investigation of phylloplanemycoflora from some medicinal plants. Eur J Exper Biol. 2011;1(2): 219-25.

Shamim S, Naher N, Haq R. Fungi as biocontrol agents in nature: interaction of fungi on phylloplane of Datura metel L. and Vignacatjang L. Bangladesh J Agric. 2012;37(3):537-41.

Thakur S, Harsh NSK. In vitro potential of volatile metabolites of phylloplane fungi of Piper longum as biocontrol agent against plant pathogen. Int J Sci Nat. 2014;5(1):33-6.

Thakur S, Harsh NSK. Phylloplane fungi as biocontrol agent against Alternaria leaf spot disease of (Akarkara) Spilanthesoleracea. Bioscience Discovery. 2014;5(2):139-144.

Usha Ch, Rekha P. Diversity of fungi in the phylloplane of Jatropha curcas L. during summer and winter season. Int Indexed Referred Res J. 2012;4:28-31.