Vol. 28, issue 12, article # 8

Vasiliev M. S., Nikolashkin S. V. Temperature effect of smoke aerosol in the summer season over the central part of Yakutia for the period 2004–2014. // Optika Atmosfery i Okeana. 2015. V. 28. No. 12. P. 1106–1111. DOI: 10.15372/AOO20151208 [in Russian].
Copy the reference to clipboard

Abstract:

In the current work, the result of an investigation of temperature effect of smoke aerosol in the summer season over the central part of Yakutia during the period 2004–2014 are presented. The data of ground-based and satellite measurements and also of climate models NCEP/NCAR and ERA-Interim, which are based on regular meteorological observations and aerological and satellite informations are used.
It is first showed that a disturbance of atmosphere by aerosol particles which is caused by heat sources of forest area lead to a decrease of solar radiation flow, and, in the presence of a negative phase of upward longwave radiation, a surface air temperature drop is observed.

Keywords:

surface air temperature, aerosol, radiative budget, climate models, quasi-weekly rythms

References:

  1. Kondrat'ev K.Ja. Ajerozol' kak klimatoobrazujushhij komponent atmosfery. 2. Prjamoe i kosvennoe vozdejstvie na klimat // Optika atmosf. i okeana. 2002. V. 15, N 4. P. 301–320.
  2. Kondrat'ev K.Ja. Ajerozol' i klimat: sovremennoe sostojanie i perspektivy razrabotok. 3. Ajerozol'noe radiacionnoe vozmushhajushhee vozdejstvie // Optika atmosf. i okeana. 2006. V. 19, N 7. P. 565–575.
  3. Chekman I.S., Syrovaja A.O., Andreeva S.V., Makarov V.A. Ajerozoli – dispersnye sistemy: monografija. Xar'kov: Cifrovaja drukarnja N 1, 2013. 100 p.
  4. Haywood J., Boucher O. Estimates of the direct and indirect radiative forcing due to tropospheric aerosol: A review // Rev. Geophys. 2000. V. 38, N 4. P. 513–543.
  5. Twomey S. The influence of pollution on the shortwave albedo of clouds // J. Atmos. Sci. 1977. V. 34, N 7. P. 1149–1152.
  6. Albrecht B. Aerosol, cloud microphysics, and fractional cloudiness // Sci. 1989. V. 245, N 4923. P. 1227–1230.
  7. Johnson B., Shine K., Forster P. The semi-direct aerosol effect: Impact of absorbing aerosols on marine stratocumulus // Quart. J. Roy. Meteorol. Soc. 2004. V. 130, N 599. P. 1407–1422.
  8. Abdullaev S.F. Kompleksnye issledovanija pylevyh i gazovyh primesej v aridnyh zonah i ih vlijanie na regional'nyj klimaticheskij rezhim v jugo-vostochnoj chasti central'noj Azii: dis. … dokt. fiz.-mat. nauk: 25.00.30. Dushanbe, 2014. 315 p.
  9. Holben B.N., Eck T.F., Slutsker I., Tanre D., Buis J.P., Setzer A., Vermote E., Reagan J.A., Kaufman Y.J., Nakajima 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.
  10. Dubovik O., Smirnov A., Holben B.N., King M.D., Kaufman Y.J., Eck T.F., Slutsker I. Accuracy assessments of aerosol optical properties retrieved from Aerosol Robotic Network (AERONET) sun and sky-radiance measurements // J. Geophys. Res. D. 2000. V. 105, N 8. P. 9791–9806.
  11. Issledovanie radiacionnyh harakteristik ajerozolja v aziatskoj chasti Rossii / Pod obshhej red. S.M. Sakerina. Tomsk: Izd-vo IOA SO RAN, 2012. 484 p.
  12. Penner J.E., Xu L., Wang M. Satellite methods underestimate indirect climate forcing by aerosols // Proc. National Academy Sci. 2011. V. 108, iss. 33. P. 13404–13408.
  13. Kistler R., Kalnay E., Collins W., Saha S., White G., Woollen J., Chelliah M., Ebisuzaki W., Kanamitsu M., Kousky V., van den Dool H., Jenne R., Fiorino M. The NCEP-NCAR 50-Year Reanalysis: Monthly Means CD-ROM and Documentation // Bull. Amer. Meteorol. Soc. 2001. V. 82, N 2. P. 247–267.
  14. ECMWF Newsletter No. 110 – Winter 2006/07 / Ed. by B. Riddaway. Reading: European Center for Medium-Range Weather Forecast, 2007. P. 53.
  15. Vasil'ev M.S., Nikolashkin S.V., Karimov R.R. Sravnenie prizemnoj temperatury vozduha v Jakutii po dannym reanaliza i nazemnyh nabljudenij // Vestn. SVFU. 2014. V. 11, N 5. P. 82–88.
  16. Vasil'ev M.S., Nikolashkin S.V., Karimov R.R. Vremennaja izmenchivost' prizemnoj temperatury vozduha v Jakutii vo vremja krupnyh Forbush-ponizhenij // Vestn. SVFU. 2014. V. 11, N 6. P. 19–29.
  17. Chahine M., Barnet C., Olsen E.T., Chen L., Maddy E. On the determination of atmospheric minor gases by the method of vanishing partial derivatives with application to CO2 // Geophys. Res. Lett. 2005. V. 32. L22803. DOI: 10.1029/2005GL024165.
  18. Kuharskij A.V., Uspenskij A.B. Opredelenie srednej koncentracii atmosfernogo dioksida ugleroda v troposfere po dannym sputnikovogo IK-zondirovshhika vysokogo spektral'nogo razreshenija // Meteorol. i gidrol. 2009. N 4. P. 15–28.
  19. Vasil'ev M.S., Nikolashkin S.V., Reshetnikov A.A., Titov S.V. Vzaimosvjaz' variacij temperatury vozduha i soderzhanija ajerozolja v central'noj Jakutii v letnee vremja // Ajerozoli Sibiri. XXI Rabochaja gruppa: Tezisy dokl. Tomsk: IOA SO RAN, 2014. P. 57.
  20. Vasil'ev M.S., Nikolashkin S.V. Vlijanie ajerozolja na temperaturu vozduha v letnij sezon nad central'noj chast'ju Jakutii // Optika atmosf. i okeana. Fizika atmosfery: Tezisy dokl. XXI Mezhdunar. simp. Tomsk: IOA SO RAN, 2015. P. 115.
  21. Vasil'ev M.S., Nikolashkin S.V. Vlijanie ajerozolja na temperaturu vozduha v letnij sezon nad central'noj chast'ju Jakutii // Optika atmosf. i okeana. Fizika atmosfery: materialy XXI Mezhdunar. simp. [Jelektronnyj resurs]. Tomsk: IOA SO RAN, 2015. 1 CD ROM. C. D101–D104.
  22. Matjushhenko Ju.Ja., Pavlov V.E. Malouglovye ajerozol'nye i oblachnye obrazovanija na fone preobladajushhe bezoblachnoj atmosfery // Mezhregional'nyj jekologicheskij forum: Sb. mat. foruma. Barnaul, 2004. P. 138–141.
  23. Pavlov V.E., Zacepin P.M., Matjushhenko Ju.Ja. Otbor bezoblachnyh situacij po dannym AERONET // Ajerozoli Sibiri. XI Rabochaja gruppa. Tomsk: IOA SO RAN, 2004. P. 17.
  24. Vasil'ev M.S., Karimov R.R. Issledovanie vozmozhnyh prichin vozniknovenija lesnyh pozharov v Jakutii po dannym distancionnyh nabljudenij // V mire nauchnyh otkrytij. Krasnojarsk: Nauchno-innovacionnyj centr, 2014. N 4(52). P. 161–171.
  25. Draxler R.R., Rolph G.D. HYSPLIT (Hybrid Single-Particle Lagrangian Integrated Trajectory) / Model access via NOAA ARL READY. NOAA Air Resources Laboratory, College Park, MD. 1997. URL: http://www.  arl. noaa.gov/HYSPLIT.php
  26. Sovetsko-amerikanskij jeksperiment po izucheniju aridnogo ajerozolja / Pod red. G.S. Golicyna. SPb.: NPO «Tajfun», 1992. 208 p.
  27. Oke T.P. Klimaty pogranichnogo sloja. L.: Gidrometeoizdat, 1982. 359 p.
  28. Bach W., Crane A.J. Carbon dioxide: Current views and developments in energy // Climate Res. 2nd Course of the International School of Climatology, Ettore Majorana Centre for Scientific Culture, Erice, Italy, July 16–26. 1982. P. 16.
  29. Sidorenko N.S. Atmosfernye processy i vrashhenie Zemli. SPb.: Gidrometeoizdat, 2002. 366 p.
  30. Sidorenko N.S. Lunno-solnechnye prilivy i atmosfernye processy // Priroda. 2008. N 2. P. 23–31.
  31. Mul'tanovskij B.P. Osnovnye polozhenija sinopticheskogo metoda dolgosrochnyh prognozov pogody. M.: CUEGMS, 1933. 139 p.