The work is devoted to the analysis of the summer-autumn aerobiological spectrum of Krasnodar for 2021, obtained with a volumetric pollen trap. The pollination of 8 herbaceous taxa and 2 genera of micromycetes was studied. The beginning of pollination was recorded in the first decade of May, a high concentration of allergenic pollen was observed until the end of September. The main allergen was Ambrosia pollen, which accounted for 59% of the total pollen. In addition to ragweed, pollen of Artemisia and Chenopodiaceae was noted in significant amounts in the spectrum. The peak of Ambrosia pollination was on 25.VIII 2021 (1036 pg/m3), Artemisia – on 30.IX 2021 (187 pg/m3), Chenopodiaceae – on 29. VIII 2021 (75 pg/m3). Analysis of the daily rhythm of pollination revealed that the maximum concentration of pollen allergens in the air is observed in the middle of the day (12–14 hours), the minimum – at night (22–02 hours).
2022. T. 127. Vyp. 5.
2022. T. 127. Vyp. 5.
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Features of the Dynamics of the Aeropalinological Spectrum of Krasnodar in the Autumn-Summer Period of 2021
References
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Список литературы
- Abbasov A. G. Clinical and epidemiological study of pollinosis in children of preschool and primary school age in Krasnodar // specialty 14.00.36: abstract of the dissertation for the degree of candidate of medical sciences. Krasnodar, 2003. 18 s.
- Allergic rhinoconjuctivitis: clinical recomendations / Ed. by A.S. Lopatina. Moscow, 2016. 96 s.
- Yelkina N. A. Possibilities of applying the results of aeropalinological monitoring // Botany and ecology for creating a comforta-ble human habitat: Materials of a scientific and practical conference with international participation. Novosibirsk, 2019. S. 44–47.
- Esipenko L.P., Gozhko A.A. Ragweed wormwood on the territory of the Russian Far East // Biosphere. 2015. N 4. S. 415–420.
- Kirichenko K. S. Soils of the Krasnodar territory. Krasnodar, 1953. 200 s.
- Klimenko Ya.V., Milchenko N.O., Moroz A.N., et al. The influence of ragweed pollen rain in the city of Krasnodar on the devel-opment and course of allergic diseases in the dynamics of three years: a non-randomized controlled study // Kuban Scientific Medical Bulletin. 2021. Vol. 28. T. 2. S. 157–169 (https://doi.org/10.25207/1608-6228-2021-28-2-157-16).
- Klimenko Ya.V., Moroz A.N., Pavlyuchenko I.I. The relevance of aeropalinological monitoring of the air environment of Kras-nodar // Health of the nation in the XXI century: Materials of the II All-Russian Scientific and Practical Conference. Krasno-dar, 2021. S. 53–59.
- Klimenko Ya.V., Prozorovskaya Yu.I., Milchenko N.O., et al. Comparative analysis of the results of aeropalinological studies of pollen grains of allergenic plants in Krasnodar // Ecology and health: materials of the VIII International Scientific and Practi-cal Conference. Rostov-on-Don, 2021. S. 45–50.
- Kobzar V. N. Allergenic pollen as an indicator of climate change // Bulletin of Science and Practice. 2018. № 11. S. 23–30 (https://doi10.5281/zenodo.1488070).
- Loboda N.B., Savenkova O.R., Kaverina A.O. Pollinosis as a typical example of an allergic disease // Bulletin of Kaluga Univer-sity. 2021. № 2. S. 123–125 (https://doi10.54072/18192173_2021_2_123).
- Malygina K.V. Clinical and immunological characteristics, optimization of prevention and treatment of pollinosis in children // specialty 14.01.08, 14.03.09: abstract of the dissertation for the degree of candidate of medical sciences. Perm, 2010. 23 s.
- Matveeva L.P. Prevalence and main risk factors for the development of pollinosis in children of the Udmurt Republic // specialty 14.00.09: abstract of the dissertation for the degree of Candidate of Medical Sciences. Izhevsk, 2006. 27 s.
- Moskalenko G.P. Quarantine weeds of Russia. Penza: IPK “Penzinskaya Pravda”, 2001. 278 s.
- Nagalevsky Yu. Ya., Chistyakov V. I. Physical geography of the Krasnodar Territory. Krasnodar, 2003. 256 s.
- Nosova M. B., Severova E. E., Volkova O. A. Modern spore-pollen spectra of European Russia: 10 years of observations // Botanical Journal. 2019. № 104. S. 1228–1248 (https://doi10.1134/s000681361907007x).
- Osipova G.L. Pollinosis – allergic seasonal disease // Russian Medical Journal. 2000. Vol. 8. № 3. S. 151–155.
- Ostroumov A.I. Pollinoses of the South of the RSFSR // Proceedings of the III International Palynological Conference. Moscow, 1973. S. 20–23.
- Peredelskaya M.Yu., Nenasheva N.M., Kizhaev Yu.E. Global warming and allergy in the framework of a medical dispute // Asthma and allergy. 2022. № 1. S. 3–8 (https://doi10.24412/2308-3190-2022-12695).
- Popov N.N., Kurinnaya E.G. Molecular and cellular mechanisms of the development of type I allergic reactions. Basic principles of diagnosis and treatment // Bulletin of Kharkiv National University. Medicine. 2002. № 545. S. 115–125.
- Principles and methods of aeropalinological research / Edited by N.R. Meyer-Melikyan, E.E. Severova, G.P. Gapochka et al. Moscow, 1998. 48 s.
- Prokopenko V.V., Kabakova T.I. Analysis of medical prescriptions for patients diagnosed with pollinosis and allergic rhinitis // Pharmacoeconomics: theory and practice. 2018. № 6. S. 69 (https://doi10.30809/phe.1.2018.34).
- Severova E.E., Volkova O.A., Polevova S.V., et al. Features of the aeropalinological composition of the atmosphere in 2018 // Ecological and climatic characteristics of the atmosphere of Moscow in 2018 according to the Meteorological Observatory of Lomonosov Moscow State University / Ed. Lokoshchenko M.A. M., 2019. 277 s.
- Severova E.E., Batanova A.K., Demina O.N. Features of ambrosia dusting (Ambrosia sp., Compositae) in Rostov-on-Don ac-cording to the results of aeropalinological monitoring: the first results // Bulletin of the Moscow Society of Nature Testers. De-partment of Biological. 2015. Vol. 120. № 6. S. 65–68.
- Ukhanova O.P., Bogdanova M.A., Zheltova I.V., et al. Aeropalinological monitoring of pollen of weeds and mold fungi // RMZH. Medical review. 2020. № 1. S. 48–51.
- Fedorovich S. V., Gritsenko T. D., Sokolov S. M., et al. Spatial, temporal and seasonal distribution of aeroallergens of plant origin in the atmospheric air of populated areas // Military medicine. 2019. Vol. 1. T. 50. S. 90–93
- Churyukina E.V., Ukhanova O.P., Goloshubova E.A. Aeropalinological monitoring of the air environment in the Rostov region: results of the 2019 palination season // Russian Allergological Journal. 2020. Vol. 17. Т. 4. S. 57–65 (https://doi10.36691/RJA1387).
- Shamgunova B. A., Zaklyakova L. V., Popov E. A., et al. The daily rhythm of dusting of allergenic plants of Astrakhan // Inter-national journal on immunorehabilitation. 2009. Vol. 11. T. 1. S. 33–34.
- Afonin A.N., Fedorova Y.A., Luneva N.N. et al. History of introduction and distribution of common ragweed (Ambrosia artemisi-ifolia L.) in the European part of the Russian Federation and in the Ukraine // Eppo Bulletin. 2018. Vol. 48. P. 266–273 (https://doi10.1111/epp.12484).
- Agashe S.N., Caulton E. Aerobiology: Aeropalynology // Pollen and Spores. CRC Press. 2019. P. 168–224 (https://doi10.1201/9780429063985-13).
- Anderegg W. R., Abatzoglou J.T., Anderegg L.D. et al. Anthropogenic climate change is worsening North American pollen seasons // PNAS. 2021. Vol. 118. P. 1–6 (https://doi.org/10.1073/pnas.2013284118).
- Bullock J. et al. Assessing and controlling the spread and the effects of common ragweed in Europe Final report // ENV.B2/ETU. 2010. 456 p.
- Chapman D.S., Makra L., Albertini R. et al. Modelling the introduction and spread of nonnative species: international trade and climate change drive ragweed invasion // Global Change Biology. 2016. Vol. 22. P. 67–79 (https://doi10.1111/gcb.13220).
- Dikareva T.V., Rumiantsev V.Yu. Distribution of allergenic plants in Russia // Geography, Environment, Sustainability. 2015. Vol. 8. Р. 18–25.
- Galan C., Smith M., Thibaudon M. et al. EAS QC Working Group. Pollen monitoring: minimum requirements and reproducibility of analysis // Aerobiologia. 2014. Vol. 30. P. 385–395.
- Hjelmroos M. Evidence of long-distance transport of Betula pollen // Grana. 1991. Vol. 30. P. 215–228.
- Nilsson S., Persson S. Tree pollen spectra in the Stockholm region (Sweden), 1973–1980 // Grana. 1981. Vol. 20. P. 179–182.
- Ranta H., Kubin E., Siljamo P., et al. Long- distance pollen transport cause problems for de-terrruning the timing of birch pollen season in Fennoscandia by using phenological observations // Grana. 2006. Vol. 45. P. 297–304.
- Rapiejko P., Stankiewicz W., Szczygielski K. et al. Progowe stężenie pyłku roślin niezbędne do wywołania objawów alergicznych // Otolaryngologia Polska. 2007. Vol. 61. P. 591–594 (https://doi.org/10.1016/S0030-6657(07)70491-2).
- Siljamo P., Soflev M., Severova E., et al. On influence of long-range transport of pollen grains onto pollinating season / In Air Pollution Modeling and Its Application XVIII. Edit. C. Borrego and E. Renner // Developments in Environmental Science. 2007. Vol. 6. P. 708–716.
- Siljamo P., Soflev M., Severova E., et al. Sources, impact and exchange of early-spring birch pollen in the Moscow region and Finland // Aerobiologia. 2008. Vol. 24. P. 211–230.
- Soflev M., Siljamo P., Ranta H., et al. Towards numerical forecasting of long-range air transport of birch pollen: Theoretical con-siderations and a feasibility study // Int. J. Biometeorol. 2006. Vol. 50. P. 392–402.
- Shivanna K.R. Pollen Morphology and Aeropalynology // Pollen Biology and Biotechnology. CRC Press. 2019. P. 26–44 (https://doi10.1201/9780429187704-3).
- Tokhtar V.K., Zelenkova V.N., Fomina E.V. et al. Peculiarities in plant communities’ formation in crop plantings in the south-eastern part of the Central Russian Upland // IOP Conference Series: Earth and Environmental Science. 2019. Vol. 34. P. 012012 (https://doi10.1088/1755-1315/341/1/012012).
- Tosi A., Wüthrich B., Bonini M. et al. Time lag between Ambrosia sensitisation and Ambrosia allergy: a 20-year study (1989–2008) in Legnano, northern Italy // Swiss Med. Wkly. 2011. Р. 141:115–126 (https://doi10.4414/smw.2011.13253).
- Ziska L.H., Makra L., Harry S. K. et al. Temperature-related changes in airborne allergenic pollen abundance and seasonality across the northern hemisphere: a retrospective data analysis // Lancet Planet Health. 2019. Vol. 3. P. 124–131 (https://doi.org/10.1016/S2542-5196(19)30015-4).