OPPORTUNISTIC FUNGI IN THE POLLUTED SOILS OF KOLA PENINSULA

The species diversity and the structure of the opportunistic fungi complexes in the forest Albic Podzols under the impact of the Aluminum and Copper-Nickel Plants emissions, as well as in the Hortic Anthrosol contaminated by the oil products (diesel fuel, gas condensate, mazut) in the north-west reg...

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Published in:GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY
Main Authors: Maria Korneykova V., Elena Lebedeva V.
Format: Article in Journal/Newspaper
Language:English
Published: Russian Geographical Society 2018
Subjects:
opportunistic fungi
potential pathogenicity
soil
pollution
industrial plant
oil products
Kola Peninsula
kola peninsula
Online Access:https://ges.rgo.ru/jour/article/view/426
https://doi.org/10.24057/2071-9388-2018-11-2-125-137
id ftjges:oai:oai.gesj.elpub.ru:article/426
record_format openpolar
institution Open Polar
collection Geography, Environment, Sustainability (E-Journal)
op_collection_id ftjges
language English
topic opportunistic fungi
potential pathogenicity
soil
pollution
industrial plant
oil products
Kola Peninsula
spellingShingle opportunistic fungi
potential pathogenicity
soil
pollution
industrial plant
oil products
Kola Peninsula
Maria Korneykova V.
Elena Lebedeva V.
OPPORTUNISTIC FUNGI IN THE POLLUTED SOILS OF KOLA PENINSULA
topic_facet opportunistic fungi
potential pathogenicity
soil
pollution
industrial plant
oil products
Kola Peninsula
description The species diversity and the structure of the opportunistic fungi complexes in the forest Albic Podzols under the impact of the Aluminum and Copper-Nickel Plants emissions, as well as in the Hortic Anthrosol contaminated by the oil products (diesel fuel, gas condensate, mazut) in the north-west region of Russia (the Kola Peninsula) have been investigated. The share of the opportunistic fungi increase up to 15% in the zones of the Aluminum and Copper-Nickel Plants emissions comparable to the background soil, and up to 20-25% in the soils contaminated by the oil products has been revealed. The majority of the fungi species belong to the following genera: Penicillium, Aspergillus, Mucor, Lecanicillium, Phoma and Cladosporium. The structure of the fungal complexes has changed in the polluted soil, that is, the species abundance and the frequency of the opportunistic fungi occurrence have increased. The strains of the fungi isolated from the contaminated soil reveal the potential pathogenicity in a greater degree, than the strains isolated from the clean soil. 55% of the total amount of fungi strains isolated from the soils contaminated by the Aluminum Plant emissions had the potential pathogenicity. The most dangerous for a human’s health were Amorphotheca resinae, Aspergillus fumigatus, A. niger, Paecilomyces variotii, Penicillium commune, P. purpurеogenum, Trichoderma viride isolated from the soils contaminated by the Aluminum Plant emissions; and P. aurantiogriseum, P. glabrum, P. commune, P. simplicissimum, Rhizopus nigricans isolated from the soils contaminated by the oil products. Those species revealed protease, phospholipase activity, as well as the growth ability at the temperature 37°C
format Article in Journal/Newspaper
author Maria Korneykova V.
Elena Lebedeva V.
author_facet Maria Korneykova V.
Elena Lebedeva V.
author_sort Maria Korneykova V.
title OPPORTUNISTIC FUNGI IN THE POLLUTED SOILS OF KOLA PENINSULA
title_short OPPORTUNISTIC FUNGI IN THE POLLUTED SOILS OF KOLA PENINSULA
title_full OPPORTUNISTIC FUNGI IN THE POLLUTED SOILS OF KOLA PENINSULA
title_fullStr OPPORTUNISTIC FUNGI IN THE POLLUTED SOILS OF KOLA PENINSULA
title_full_unstemmed OPPORTUNISTIC FUNGI IN THE POLLUTED SOILS OF KOLA PENINSULA
title_sort opportunistic fungi in the polluted soils of kola peninsula
publisher Russian Geographical Society
publishDate 2018
url https://ges.rgo.ru/jour/article/view/426
https://doi.org/10.24057/2071-9388-2018-11-2-125-137
geographic Kola Peninsula
geographic_facet Kola Peninsula
genre kola peninsula
genre_facet kola peninsula
op_source GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY; Vol 11, No 2 (2018); 125-137
2542-1565
2071-9388
op_relation https://ges.rgo.ru/jour/article/view/426/324
Badiee P. and Hashemizadeh Z. (2014). Opportunistic invasive fungal infections: diagnosis and clinical management. The Indian journal of medical research, 139(2), pp. 25-195.
Bogomolova E., Minenko E., and Kircideli I. (2007). Potential virulence of micromycetes isolated from museum premises. Mycology and phytopathology, 41(2), pp.113-119 (in Russian with English summary).
Bogomolova E., Velikova T., Goryaeva A., Ivanova A., Kirtsideli I., Lebedeva E., Mamaeva N., Panina L., Popihina E., Smolyanitskaya O., and Trepova E. (2012). Microfungi in the air of Saint-Petersburg. Sankt-Peterburg: Himizdat, 215p. (in Russian).
Domsh K., Gams W., Anderson T. (2007). Compendium of soil fungi. 2nd ed. IHW Verlag Ehing.
Evdokimova G., Korneykova M., and Lebedeva E. (2013). Complexes of potentially pathogenic microscopic fungi in anthropogenic polluted soils. Journal of Environmental Science and Health, Part A, 48(7), pp.746-752.
Evdokimova G., Kalabin G. and Mozgova N. (2011). Content and toxicity of heave metals in soil of the zone affected by aerial emission from the Severonikel Enterprise. Eurasian Soil Science. 44(2), pp. 237-244.
Evdokimova G., Korneikova M., and Mozgova N. (2013). Changes in the Properties of Soils and Soil Biota in the Impact Zone of the Aerotechnogenic Emissions from the Kandalaksha Aluminum Smelter. Eurasian Soil Science. 46(10), pp. 1042-1048.
Fotedar R. and Ai-Hedaithy S. (2005). Comparison of phospholipase and proteinase activity in Candida albicans and Candida dubliniensis. Mycoses, 48, pp. 62-67.
Hoog de G. C., Guarro J., Gene J., and Figueras M. J. (2011). Atlas of clinical fungi. Electronic Version 3.1.
Kireeva N., Miphtakhova A., Bakaeva M., and Vodopyanov V. (2005). Complexes of soil microscopic fungi under technogenic conditions. Ufa: Gilem, 360p. (in Russian)
Marfenina O. (2005). Anthropogenous ecology of soil fungi. Moscow: Medicina dlya vseh (in Russian).
Pappas P. G. (2010). Opportunistic fungi: a view to the future. The American journal of the medical sciences, 340(3), 253-257.
Raper B. and Thom C. (1968). Manual of the Penicillia. London: Hafner Publishing Co.
Sanitary-and-epidemiologic rules SR 1.3.2322-08 (2008). «Safety of work with microorganisms of the III-IV groups of pathogenicity (danger) and causative agents of parasitic diseases», 185-186 (in Russian).
Satton D., Fotergill A., and Rhinaldi M. (2001). Key pathogenic and conditionally pathogenic fungi. Moscow: Mir (in Russian).
Seifert K., Morgan-Jones G., Gams W., and Kendrick B. (2011). The genera of Hyphomycetes. Utrecht: CBS.
https://ges.rgo.ru/jour/article/view/426
doi:10.24057/2071-9388-2018-11-2-125-137
op_rights Authors who publish with this journal agree to the following terms:Authors retain copyright and grant the journal the right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.Authors can enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgment of its initial publication in this journal.Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).The information and opinions presented in the Journal reflect the views of the authors and not of the Journal or its Editorial Board or the Publisher. The GES Journal has used its best endeavors to ensure that the information is correct and current at the time of publication but takes no responsibility for any error, omission, or defect therein.
Авторы, публикующие в данном журнале, соглашаются со следующим:Авторы сохраняют за собой авторские права на работу и предоставляют журналу право первой публикации работы на условиях лицензии Creative Commons Attribution License, которая позволяет другим распространять данную работу с обязательным сохранением ссылок на авторов оригинальной работы и оригинальную публикацию в этом журнале.Авторы сохраняют право заключать отдельные контрактные договорённости, касающиеся не-эксклюзивного распространения версии работы в опубликованном здесь виде (например, размещение ее в институтском хранилище, публикацию в книге), со ссылкой на ее оригинальную публикацию в этом журнале.Авторы имеют право размещать их работу
op_rightsnorm CC-BY
op_doi https://doi.org/10.24057/2071-9388-2018-11-2-125-137
container_title GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY
container_volume 11
container_issue 2
container_start_page 125
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spelling ftjges:oai:oai.gesj.elpub.ru:article/426 2023-05-15T17:04:52+02:00 OPPORTUNISTIC FUNGI IN THE POLLUTED SOILS OF KOLA PENINSULA Maria Korneykova V. Elena Lebedeva V. 2018-06-28 application/pdf https://ges.rgo.ru/jour/article/view/426 https://doi.org/10.24057/2071-9388-2018-11-2-125-137 eng eng Russian Geographical Society https://ges.rgo.ru/jour/article/view/426/324 Badiee P. and Hashemizadeh Z. (2014). Opportunistic invasive fungal infections: diagnosis and clinical management. The Indian journal of medical research, 139(2), pp. 25-195. Bogomolova E., Minenko E., and Kircideli I. (2007). Potential virulence of micromycetes isolated from museum premises. Mycology and phytopathology, 41(2), pp.113-119 (in Russian with English summary). Bogomolova E., Velikova T., Goryaeva A., Ivanova A., Kirtsideli I., Lebedeva E., Mamaeva N., Panina L., Popihina E., Smolyanitskaya O., and Trepova E. (2012). Microfungi in the air of Saint-Petersburg. Sankt-Peterburg: Himizdat, 215p. (in Russian). Domsh K., Gams W., Anderson T. (2007). Compendium of soil fungi. 2nd ed. IHW Verlag Ehing. Evdokimova G., Korneykova M., and Lebedeva E. (2013). Complexes of potentially pathogenic microscopic fungi in anthropogenic polluted soils. Journal of Environmental Science and Health, Part A, 48(7), pp.746-752. Evdokimova G., Kalabin G. and Mozgova N. (2011). Content and toxicity of heave metals in soil of the zone affected by aerial emission from the Severonikel Enterprise. Eurasian Soil Science. 44(2), pp. 237-244. Evdokimova G., Korneikova M., and Mozgova N. (2013). Changes in the Properties of Soils and Soil Biota in the Impact Zone of the Aerotechnogenic Emissions from the Kandalaksha Aluminum Smelter. Eurasian Soil Science. 46(10), pp. 1042-1048. Fotedar R. and Ai-Hedaithy S. (2005). Comparison of phospholipase and proteinase activity in Candida albicans and Candida dubliniensis. Mycoses, 48, pp. 62-67. Hoog de G. C., Guarro J., Gene J., and Figueras M. J. (2011). Atlas of clinical fungi. Electronic Version 3.1. Kireeva N., Miphtakhova A., Bakaeva M., and Vodopyanov V. (2005). Complexes of soil microscopic fungi under technogenic conditions. Ufa: Gilem, 360p. (in Russian) Marfenina O. (2005). Anthropogenous ecology of soil fungi. Moscow: Medicina dlya vseh (in Russian). Pappas P. G. (2010). Opportunistic fungi: a view to the future. The American journal of the medical sciences, 340(3), 253-257. Raper B. and Thom C. (1968). Manual of the Penicillia. London: Hafner Publishing Co. Sanitary-and-epidemiologic rules SR 1.3.2322-08 (2008). «Safety of work with microorganisms of the III-IV groups of pathogenicity (danger) and causative agents of parasitic diseases», 185-186 (in Russian). Satton D., Fotergill A., and Rhinaldi M. (2001). Key pathogenic and conditionally pathogenic fungi. Moscow: Mir (in Russian). Seifert K., Morgan-Jones G., Gams W., and Kendrick B. (2011). The genera of Hyphomycetes. Utrecht: CBS. https://ges.rgo.ru/jour/article/view/426 doi:10.24057/2071-9388-2018-11-2-125-137 Authors who publish with this journal agree to the following terms:Authors retain copyright and grant the journal the right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.Authors can enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgment of its initial publication in this journal.Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).The information and opinions presented in the Journal reflect the views of the authors and not of the Journal or its Editorial Board or the Publisher. The GES Journal has used its best endeavors to ensure that the information is correct and current at the time of publication but takes no responsibility for any error, omission, or defect therein. Авторы, публикующие в данном журнале, соглашаются со следующим:Авторы сохраняют за собой авторские права на работу и предоставляют журналу право первой публикации работы на условиях лицензии Creative Commons Attribution License, которая позволяет другим распространять данную работу с обязательным сохранением ссылок на авторов оригинальной работы и оригинальную публикацию в этом журнале.Авторы сохраняют право заключать отдельные контрактные договорённости, касающиеся не-эксклюзивного распространения версии работы в опубликованном здесь виде (например, размещение ее в институтском хранилище, публикацию в книге), со ссылкой на ее оригинальную публикацию в этом журнале.Авторы имеют право размещать их работу CC-BY GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY; Vol 11, No 2 (2018); 125-137 2542-1565 2071-9388 opportunistic fungi potential pathogenicity soil pollution industrial plant oil products Kola Peninsula info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2018 ftjges https://doi.org/10.24057/2071-9388-2018-11-2-125-137 2021-05-21T07:34:48Z The species diversity and the structure of the opportunistic fungi complexes in the forest Albic Podzols under the impact of the Aluminum and Copper-Nickel Plants emissions, as well as in the Hortic Anthrosol contaminated by the oil products (diesel fuel, gas condensate, mazut) in the north-west region of Russia (the Kola Peninsula) have been investigated. The share of the opportunistic fungi increase up to 15% in the zones of the Aluminum and Copper-Nickel Plants emissions comparable to the background soil, and up to 20-25% in the soils contaminated by the oil products has been revealed. The majority of the fungi species belong to the following genera: Penicillium, Aspergillus, Mucor, Lecanicillium, Phoma and Cladosporium. The structure of the fungal complexes has changed in the polluted soil, that is, the species abundance and the frequency of the opportunistic fungi occurrence have increased. The strains of the fungi isolated from the contaminated soil reveal the potential pathogenicity in a greater degree, than the strains isolated from the clean soil. 55% of the total amount of fungi strains isolated from the soils contaminated by the Aluminum Plant emissions had the potential pathogenicity. The most dangerous for a human’s health were Amorphotheca resinae, Aspergillus fumigatus, A. niger, Paecilomyces variotii, Penicillium commune, P. purpurеogenum, Trichoderma viride isolated from the soils contaminated by the Aluminum Plant emissions; and P. aurantiogriseum, P. glabrum, P. commune, P. simplicissimum, Rhizopus nigricans isolated from the soils contaminated by the oil products. Those species revealed protease, phospholipase activity, as well as the growth ability at the temperature 37°C Article in Journal/Newspaper kola peninsula Geography, Environment, Sustainability (E-Journal) Kola Peninsula GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY 11 2 125 137

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