Content of issue 06, volume 34, 2021

1. Mokhov I. I., Sitnov S. A., Tsidilina M. N., Voronova O. S. Relationship of pyrogenic NO2 emissions from wildfires in Russia with atmospheric blocking events. P.
Bibliographic reference:
Mokhov I. I., Sitnov S. A., Tsidilina M. N., Voronova O. S. Relationship of pyrogenic NO2 emissions from wildfires in Russia with atmospheric blocking events. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210601 [in Russian].
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Mokhov I.I., Sitnov S.A., Tsidilina M.N. and Voronova O.S. Relation between Pyrogenic NO2 Emissions from Wildfires in Russia and Atmospheric Blocking Events // Atmospheric and Oceanic Optics, 2021, V. 34. No. 05. pp. 503–506.
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2. Gubanova D. P., Iordanskii M. A., Kuderina T. M., Skorochod A. I., Elansky N. F., Minashkin V. M. Aerosol element composition of the surface air in Moscow: seasonal variations throughout 2019/2020. P.
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Gubanova D. P., Iordanskii M. A., Kuderina T. M., Skorochod A. I., Elansky N. F., Minashkin V. M. Aerosol element composition of the surface air in Moscow: seasonal variations throughout 2019/2020. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210602 [in Russian].
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Gubanova D.P., Iordanskii M.A., Kuderina T.M., Skorokhod A.I., Elansky N.F. and Minashkin V.M. Elemental Composition of Aerosols in the Near-Surface Air of Moscow: Seasonal Changes in 2019 and 2020 // Atmospheric and Oceanic Optics, 2021, V. 34. No. 05. pp. 475–482.
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3. Andreeva I. S., Safatov A. S., Puchkova L. I., Emelyanova E. K., Buryak G. A., Ternovoi V. A. Biodiversity and biotechnological potential of spore-forming bacteria isolated from atmospheric aerosols of Western Siberia. P.
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Andreeva I. S., Safatov A. S., Puchkova L. I., Emelyanova E. K., Buryak G. A., Ternovoi V. A. Biodiversity and biotechnological potential of spore-forming bacteria isolated from atmospheric aerosols of Western Siberia. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210603 [in Russian].
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Andreeva I.S., Safatov A.S., Puchkova L.I., Emel’yanova E.K., Buryak G.A. and Ternovoy V.A. Biodiversity and Biotechnological Potential of Spore-Forming Bacteria of Atmospheric Aerosols in the South of Western Siberia // Atmospheric and Oceanic Optics, 2021, V. 34. No. 05. pp. 464–470.
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4. Shchelkanov A. A., Kovalenko M. A., Kupryazhkin A. Ya., Markelov Yu. I., Poddubnyi V. A., Gadelshin V. M. First results of the study of particulate matter samples of the Middle Ural using the secondary ion mass spectrometry. P.
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Shchelkanov A. A., Kovalenko M. A., Kupryazhkin A. Ya., Markelov Yu. I., Poddubnyi V. A., Gadelshin V. M. First results of the study of particulate matter samples of the Middle Ural using the secondary ion mass spectrometry. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210604 [in Russian].
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Shchelkanov A.A., Kovalenko M.A., Kupryazhkin A.Ya., Markelov Yu.I., Poddubny V.A. and Gadelshin V.M. First Results of the Study of Particulate Matter Samples from the Middle Urals with the Use of Secondary Ion Mass Spectrometry // Atmospheric and Oceanic Optics, 2021, V. 34. No. 05. pp. 400–405.
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5. Dul'tseva G. G., Dubtsov S. N. Investigation of the relations between biogenic and anthropogenic sources of atmospheric organic aerosol under the conditions of restrictions due to the coronavirus pandemic. P.
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Dul'tseva G. G., Dubtsov S. N. Investigation of the relations between biogenic and anthropogenic sources of atmospheric organic aerosol under the conditions of restrictions due to the coronavirus pandemic. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210605 [in Russian].
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Dultseva G.G. and Dubtsov S.N. Investigation of the Relations between Biogenic and Anthropogenic Sources of Organic Atmospheric Aerosol under Conditions of Restrictions Due to the Coronavirus Pandemic // Atmospheric and Oceanic Optics, 2021, V. 34. No. 05. pp. 471–474.
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6. Gorchakov G. I., Karpov A. V., Gushchin R. A., Dazenko O. I., Buntov D. V. Stratification of aleurite and sand particle size distribution in windsand flux over desertified areas. P.
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Gorchakov G. I., Karpov A. V., Gushchin R. A., Dazenko O. I., Buntov D. V. Stratification of aleurite and sand particle size distribution in windsand flux over desertified areas. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210606 [in Russian].
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Gorchakov G.I., Karpov A.V., Gushchin R.A., Datsenko O.I. and Buntov D.V. Stratification of Aleurite and Sand Particle Size Distribution in Windsand Flux over Desertified Areas // Atmospheric and Oceanic Optics, 2021, V. 34. No. 05. pp. 438–442.
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7. Zakharenko V. S., Daibova E. B. Surface properties of aerosol microparticles from mineral zircon under tropospheric conditions. P.
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Zakharenko V. S., Daibova E. B. Surface properties of aerosol microparticles from mineral zircon under tropospheric conditions. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210607 [in Russian].
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Zakharenko V.S. and Daybova E.B. Surface Properties of Aerosol Microparticles from Zircon Mineral under Tropospheric Conditions // Atmospheric and Oceanic Optics, 2021, V. 34. No. 05. pp. 491–494.
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8. Yazikov E. G., Osipova N. A., Talovskaya A. V., Osipov K. Yu. Magnetic sensitivity of road dust as a pollution indicator in the areas influenced by coal mining. P.
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Yazikov E. G., Osipova N. A., Talovskaya A. V., Osipov K. Yu. Magnetic sensitivity of road dust as a pollution indicator in the areas influenced by coal mining. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210608 [in Russian].
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9. Arkhipov V. A., Basalaev S. A., Zolotorev N. N., Perfilieva K. G., Usanina A. S. New methods for studying the evaporation rate of liquid-drop aerosols. P.
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Arkhipov V. A., Basalaev S. A., Zolotorev N. N., Perfilieva K. G., Usanina A. S. New methods for studying the evaporation rate of liquid-drop aerosols. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210609 [in Russian].
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10. Golovko V. V., Zueva G. A., Kiseleva T. I. Pollen grains of anemophilic plants entering the atmosphere. Cluster composition. P.
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Golovko V. V., Zueva G. A., Kiseleva T. I. Pollen grains of anemophilic plants entering the atmosphere. Cluster composition. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210610 [in Russian].
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Golovko V.V., Zueva G.A. and Kiseleva T.I. Anemophilous Plant Pollen Grains Entering the Atmosphere: Cluster Composition // Atmospheric and Oceanic Optics, 2021, V. 34. No. 05. pp. 483–490.
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11. Gladkikh V. A., Mamyshev V. P., Nevzorova I. V., Odintsov S. L. Dependence of friction velocity on the wind velocity in the surface air layer. P.
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Gladkikh V. A., Mamyshev V. P., Nevzorova I. V., Odintsov S. L. Dependence of friction velocity on the wind velocity in the surface air layer. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210611 [in Russian].
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Gladkikh V.A., Mamyshev V.P., Nevzorova I.V. and Odintsov S.L. Dependence of the Friction Speed on the Wind Speed in the Surface Air Layer // Atmospheric and Oceanic Optics, 2021, V. 34. No. 05. pp. 507–512.
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12. Khutorova O. G., Khutorov V. E. Parameters of wave processes from GNSS data. P.
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Khutorova O. G., Khutorov V. E. Parameters of wave processes from GNSS data. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210612 [in Russian].
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13. Cheremiskina A. A., Naumova O. V., Durymanov A. G., Generalov V. M., Safatov A. S., Buryak G. A. Rapid indication of the influenza virus using a biosensor based on a silicon nanowire field-effect transistor. P.
Bibliographic reference:
Cheremiskina A. A., Naumova O. V., Durymanov A. G., Generalov V. M., Safatov A. S., Buryak G. A. Rapid indication of the influenza virus using a biosensor based on a silicon nanowire field-effect transistor. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210613 [in Russian].
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14. Alexeeva M. N., Yashchenko I. G. Risk of environmental impact when flaring associated petroleum gas. P.
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Alexeeva M. N., Yashchenko I. G. Risk of environmental impact when flaring associated petroleum gas. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210614 [in Russian].
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Alekseeva M.N. and Yashchenko I.G. The Risk of an Environmental Impact from Flaring Associated Petroleum Gas // Atmospheric and Oceanic Optics, 2021, V. 34. No. 05. pp. 428–432.
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15. Peremitina T. O., Yashchenko I. G. Use of vegetation indices for diagnostics of the natural ecosystem state at oil and gas facilities. P.
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Peremitina T. O., Yashchenko I. G. Use of vegetation indices for diagnostics of the natural ecosystem state at oil and gas facilities. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210615 [in Russian].
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16. Golovko V. V., Hlebus K. A., Zueva G. A., Kiseleva T. I. Sedimentation rates of pollen clusters and single pollen grains of anemophilic plants growing in CSBG SB RAS. P.
Bibliographic reference:
Golovko V. V., Hlebus K. A., Zueva G. A., Kiseleva T. I. Sedimentation rates of pollen clusters and single pollen grains of anemophilic plants growing in CSBG SB RAS. // Optika Atmosfery i Okeana. 2021. V. 34. No. 06. P. . DOI: 10.15372/AOO20210616 [in Russian].
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