Vol. 31, issue 01, article # 3

Zayakhanov A. S., Zhamsueva G. S., Sungrapova I. P., Tsydypov V. V. Features of diurnal variability of ultrafine aerosol in the atmosphere of the coastal zone of Lake Baikal and the arid zone of Mongolia. // Optika Atmosfery i Okeana. 2018. V. 31. No. 01. P. 17–23. DOI: 10.15372/AOO20180103 [in Russian].
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Abstract:

The results of experimental study of ultrafine aerosol characteristics in the Baikal region and Gobi Desert are presented. The comparative analysis of the dispersion composition of atmospheric aerosol in different climate conditions is carried out. It is ascertained that the total content of ultrafine aerosol in the atmosphere of Gobi Desert is significantly lower than in the Baikal atmosphere. In the arid atmosphere, the soil aerosol prevails in the particle size distribution, while in the Lake Baikal region nanometer-size aerosols are additionally represented, which are mainly of anthropogenic and organic origin. Two peaks in the ultrafine aerosol concentration are observed in the daytime and evening hours on the daily curve of the total number concentration. In the morning and daytime hours, the number of nucleation-mode particles increases due to strengthening of breeze circulation, which transports anthropogenic impurities from the lake, and activation of photochemical reactions.

Keywords:

atmosphere, ultrafine aerosol, nucleation mode, Aitken mode

References:

  1.      Kabanov M.V., Panchenko M.V. Rassejanie opticheskih voln dispersnymi sredami. Part III. Atmosfernyj ajerozol'. Tomsk: Izd-vo TF SO AN SSSR, 1984. 189 p.
   2. Kondrat'ev K.Ja. Ot nano- do global'nyh masshtabov: svojstva, processy obrazovanija i posledstvija vozdejstvij atmosfernogo ajerozolja. 5. Ajerozol' i himicheskie processy v atmosfere // Optika atmosf. i okeana. 2005. V. 18, N 3. P. 193–206.
   3. Kondrat'ev K.Ja. Аэрозоль и климат: современное состояние и перспективы разработок. 1. Образование, свойства аэрозоля и их трансформация // Optika atmosf. i okeana. 2006. V. 19, N 1. P. 5–22.
   4. Arshinov M.Ju., Belan B.D. Sutochnyj hod koncentracii mikrodispersnoj frakcii ajerozolja // Optika atmosf. i okeana. 2000. V. 13, N 11. P. 977–1070.
   5. Arshinov M.Ju., Belan B.D., Kovalevskij V.K., Tolmachev G.I. Rezul'taty klimato-jekologicheskogo monitoringa na TOR-stancii. Part 3. Atmosfernyj ajerozol' // Optika atmosf. i okeana. 1995. V. 8, N 8. P. 1185–1190.
   6. Arshinov M.Ju., Belan B.D. Issledovanie dispersnogo sostava ajerozolja v periody vesennej dymki i lesnyh pozharov // Optika atmosf. i okeana. 2011. V. 24, N 6. P. 468–477.
   7. Zajahanov A.S., Zhamsueva G.S., Cydypov V.V., Bal'zhanov T.S. Issledovanie submikronnoj frakcii ajerozolja v atmosfere pustyni Gobi // Vestn. VSGUTU. 2015. N 1. P. 10–12.
   8. Kucenogij P.K. Koncentracija i spektr razmerov atmosfernyh ajerozolej Sibiri // Optika atmosf. i okeana. 1994. V. 7, N 8. P. 1055–1058.
   9. Kucenogij P.K., Bufetov N.S., Kirov E.I., Shujskij S.I. Dinamika sutochnyh i sezonnyh ciklov ajerozoleobrazovanija v atmosfere po izmerenijam v Novosibirskoj oblasti // Optika atmosf. i okeana. 1995. V. 8, N 9. P. 1355–1365.
10. Kozlov A.S., Ankilov A.N., Baklanov A.M., Veselovskij E.D., Vlasenko A.L., Eremenko S.I., Malyshkin S.B., Pashhenko S.Je., Shitov A.V. Issledovanie harakteristik ajerozolja Teleckogo ozera // Optika atmosf. i okeana. 1998. V. 11, N 6. P. 640–644.
11. Zhamsueva G.S., Zajahanov A.S., Starikov A.V., Cydypov V.V., Ajurzhanaev A.A., Hodzher T.V., Golobokova L.P., Filippova U.G. Himicheskij sostav ajerozolej v atmosfere Mongolii // Meteorol. i gidrol. 2012. N 8. P. 59–67.
12. Safatov A.S., Burjak G.A., Ol'kin S.E., Reznikova I.K., Marchenko Ju.V., Desjatkov B.M., Lapteva N.A., Andreeva I.S., Kozlov A.S., Malyshkin S.B., Sutorihin I.A., Bukatyj V.I., Litvinenko S.A., Smoljakov B.S., Shinkorenko M.P. Rezul'taty kompleksnogo jekologicheskogo issledovanija prob vody i vozduha pribrezhnoj territorii gor'ko-solenyh ozer Altajskogo kraja letom 2011 year. // Optika atmosf. i okeana. 2012. V. 25, N 6. P. 550–558.
13. Arshinov M.Ju., Belan B.D. Vertikal'noe raspredelenie nanochastic v troposfere kontinental'nogo rajona // Оптика атмосф. и океана. 2004. V. 7, N 7. P. 547–557.
14. Ankilov A., Baklanov A. Colhoun M., Enderle K.-H., Gras J., Julanov Yu., Kaller D., Lindner A., Lushnikov A.A., Mavliev R., McGovern F., Mirme A., O’Connor T.C., Podzimek J., Preining O., Reischl G.P., Rudolf R., Sem G.J., Szymanski W.W., Tamm E., Vrtala A.E., Wagner P.E., Winklmayr W., Zagaynov V. Intercomparison of number concentration measurements by various aerosol particle counters // Atmos. Res. 2002. V. 62. Р. 177‒207.
15. Azbukin  A.A., Bogushevich A.Ja., Il'icheskij V.S., Korol'kov V.A., Tihomirov A.A., Sheveleva V.D. Avtomatizirovannyj ul'trazvukovoj meteorologicheskij kompleks AMK-03 // Метеорол. и гидрол. 2006. N 11. P. 89–97.
16. Zayakhanov A.S., Zhamsueva G.S., Tsydypov V.V. Hardware-software system for monitoring the content of atmospheric impurities // Meas. Tech. 2015. V. 58, N 3. P. 355–361.
17. Arshinov M.Yu., Belan B.D., Sklyadneva T.K. Study of aerosol nano-particles and their interaction with ozone // Proc. of EUROTRAC Symposium 98. Southampton: WIT Press, 1999. V. 1. P. 495–500.
18. Alyea F.N., Cunnold D.M., Prinn R.G. Meteorological constraints on tropospheric halocarbon and nitrous oxide destructions by siliceous land surfaces // Atmos. Environ. 1978. V. 12, N 5. P. 1009–1011.
19. Toupance G. Mesure et comportement du PAN dans l'atmosphere // Pollut. Atmos. 1991. V. 33. Spec. Iss. P. 142–150.
20. Kamm S., Mohler O., Naumann K.-H. Heterogeneous interaction of ozone, NO2 and N2O5 with soot aerosol // Proc. of EUROTRAC Symposium 98. Southampton: WIT press, 1999. V. 1. P. 649–655.