Special features of the annual behavior of aerosol microstructure parameters are considered. The aerosol parameters are retrieved by solving the solar photometry inverse problem. Average hourly measurements of aerosol optical depth in the spectral range 0.37–4 μm in Tomsk are used as the input data for the inversion. The experimental spectra are processed using the algorithm based on the integral distribution method. The volume concentration, total geometric cross-section, and mean particle radius are calculated using the retrieved integral size distribution function. In particular, it is established that the volume concentration is minimal in November and maximal in April. Statistical relationships between the aerosol optical depth and retrieved microstructure parameters were also studied.
aerosol microstructure, aerosol optical depth, inverse problem
1. Shifrin K.S., Perel'man A.Ja. Opredelenie spektra chastic dispersnoj sistemy po dannym o ee prozrachnosti // Optika i spektroskopija. 1963. V. 15, issue 4–6. P. 533–542.
2. Yamamoto G., Tanaka M. Determination of aerosol size distribution from spectral attenuation measurements // App. Opt. 1969. V. 8, N 2. P. 447–453.
3. Naac I.Je. Teorija mnogochastotnogo lazernogo zondirovanija atmosfery. Novosibirsk: Nauka, 1980. 158 p.
4. Dubovik O., King M.D. A flexible inversion algorithm for retrieval of aerosol optical properties from Sun and sky radiance measurements // J. Geophys. Res. D. 2000. V. 105, N 16. P. 20,673–20,696.
5. Veretennikov V.V., Men'shhikova S.S. Osobennosti vosstanovlenija mikrostrukturnyh parametrov ajerozolja iz izmerenij ajerozol'noj opticheskoj tolshhiny. I. Metodika reshenija obratnoj zadachi // Optika atmosf. i okeana. 2013. V. 26, N 4. P. 306–312.
6. Veretennikov V.V., Jausheva E.P. O primenenii integralov Stilt'esa v obratnyh zadachah ajerozol'nogo svetorassejanija // Optika atmosf. i okeana. 1992. V. 5, N 3. P. 273–284.
7. Veretennikov V.V., Men'shhikova S.S. Osobennosti vosstanovlenija mikrostrukturnyh parametrov ajerozolja iz izmerenij ajerozol'noj opticheskoj tolshhiny. II. Rezul'taty obrashhenija // Optika atmosf. i okeana. 2013. V. 26, N 4. P. 313–324.
8. Holben B.N., Eck T.F., Slutsker I., Tanre D., Buis J.P., Setzer A., Vermote E., Reagan J.A., Kaufman Y.J., Nakadjima T., Lavenu F., Jankowiak I., Smirnov A. AERONET – A federated instrument network and data archive for aerosol characterization // Remote Sens. Environ. 1998. V. 66, N 1. P. 1–16.
9. Sakerin S.M., Kabanov D.M., Panchenko M.V., Pol'kin V.V., Holben B.N., Smirnov A.V., Beresnev S.A., Gorda S.Ju., Kornienko G.I., Nikolashkin S.V., Poddubnyj V.A., Tashhilin M.A. Rezul'taty monitoringa atmosfernogo ajerozolja v aziatskoj chasti Rossii po programme AEROSIBNET v 2004 year. // Optika atmosf. i okeana. 2005. V. 18, N 11. P. 968–975.
10. Sakerin S.M., Beresnev S.A., Gorda S.Ju., Kabanov D.M., Kornienko G.I., Markelov Ju.I., Mihalev A.V., Nikolashkin S.V., Panchenko M.V., Poddubnyj V.A., Pol'kin V.V., Smirnov A.V., Tashhilin M.A., Turchinovich S.A., Turchinovich Ju.S., Holben B.N., Eremina T.A. Harakteristiki godovogo hoda spektral'noj ajerozol'noj opticheskoj tolshhi atmosfery v uslovijah Sibiri // Optika atmosf. i okeana. 2009. V. 22, N 6. P. 566–574.
11. Sakerin S.M., Andreev S.Ju., Bedareva T.V., Kabanov D.M., Poddubnyj V.A., Luzheckaja A.P. Prostranstvenno-vremennaja izmenchivost' ajerozol'noj opticheskoj tolshhi atmosfery na territorii Povolzh'ja, Urala i Zapadnoj Sibiri // Optika atmosf. i okeana. 2012. V. 25, N 11. P. 958–962.
12. Sakerin S.M., Afonin S.V., Jengel' M.V., Kabanov D.M., Pol'kin V.V., Turchinovich Ju.S., Bukin O.A., Pavlov A.N. Prostranstvenno-vremennaja izmenchivost' ajerozol'noj opticheskoj tolshhi atmosfery v Primor'e i prilegajushhih morjah in augest 2010 year. // Optika atmosf. i okeana. 2011. V. 24, N 9. P. 731–736.
13. Afonin S.V., Jengel' M.V., Major A.Ju., Pavlov A.N., Stoljarchuk S.Ju., Shmirko K.A., Bukin O.A. Rezul'taty kompleksnogo ajerozol'nogo jeksperimenta v perehodnoj zone «materik–okean» (Primor'e i Japonskoe more). Part 2. Analiz prostranstvennoj i vremennoj izmenchivosti harakteristik ajerozolja po sputnikovym dannym i lidarnym izmerenijam // Optika atmosf. i okeana. 2010. V. 23, N 9. P. 811–819.
14. Panchenko M.V., Pol'kin V.V., Phalagov Ju.A., Shhelkanov N.N. Statisticheskie svjazi opticheskih i mikrofizicheskih harakteristik ajerozolja aridnoj zony // Optika atmosf. i okeana. 1993. V. 6, N 8. P. 905–912.
15. Phalagov Ju.A., Uzhegov V.N., Shhelkanov N.N. Ajerozol'noe oslablenie opticheskogo izluchenija v atmosfere aridnoj zony // Optika atmosf. i okeana. 1994. V. 7, N 10. P. 1318–1329.
16. Phalagov Ju.A., Uzhegov V.N., Shhelkanov N.N. O roli dispersnyh frakcij prizemnoj dymki v oslablenii vidimogo i infrakrasnogo izluchenija // Optika atmosf. i okeana. 1999. V. 12, N 1. P. 19–22.
17. Uzhegov V.N., Phalagov Ju.A., Kabanov D.M., Sakerin S.M. Grubodispersnyj ajerozol' i ego rol' v formirovanii vysoty odnorodnoj ajerozol'noj atmosfery // Optika atmosf. i okeana. 2012. V. 25, N 12. P. 1023–1027.
18. Phalagov Ju.A., Uzhegov V.N., Sakerin S.M., Kabanov D.M., Odincov S.L. Osobennosti dnevnoj dinamiki ajerozol'noj opticheskoj tolshhi atmosfery v infrakrasnom diapazone dlin voln // Optika atmosf. i okeana. 2009. V. 22, N 9. PС. 838–843.
19. Uzhegov V.N., Kabanov D.M., Phalagov Ju.A., Sakerin S.M. Vzaimosvjaz' variacij ajerozol'nogo oslablenija vidimoj i IK-radiacii prizemnogo sloja vozduha i vsej atmosfernoj tolshhi // Optika atmosf. i okeana. 2009. V. 22, N 4. P. 386–391.
20. Panchenko M.V., Sviridenkov M.A., Emilenko A.S., Kozlov V.S., Terpugova S.A., Uzhegov V.N., Dokukina T.A. Sopostavlenie opticheskih i mikrofizicheskih harakteristik ajerozolja v lokal'nom ob#eme i na protjazhennoj trasse // Optika atmosf. i okeana. 2007. V. 20, N 6. P. 491–496.