Vol. 30, issue 04, article # 9

Yushkov V. P. Remote sensing and mesoscale models in the study of the urban boundary layer. // Optika Atmosfery i Okeana. 2017. V. 30. No. 04. P. 315–328. DOI: 10.15372/AOO20170409 [in Russian].
Copy the reference to clipboard
Abstract:

It is shown how ground-based remote sensing can help us to improve the knowledge of atmospheric boundary layer and how mesoscale synoptic models can be used as a hindcasting tool. A technique is suggested for evaluation of the quality of boundary layer representation in the models using remote sensing data.

Keywords:

remote sensing, mesoscale models, boundary layer, megalopolis, urban anomaly, hindcasting

References:

  1. Murphy A.H. Skill scores based on the mean square error and their relationships to the correlation coefficient // Mon. Weather Rev. 1988. V. 116, N 12. P. 2417–2424.
  2. Stauffer D.R., Seaman N.L. Use of four-dimensional data assimilation in a limited-area mesoscale model. Part I: Experiments with synoptic-scale data // Mon. Weather Rev. 1990. V. 118, N 6. P. 1250–1277.
  3. Oke T.R. Boundary layer climates. Routledge, 2002. 460 р.
  4. Chen F., Kusaka H., Tewari M., Bao J.W., Hirakuchi H. Utilizing the coupled WRF/LSM/Urban modeling system with detailed urban classification to simulate the urban heat island phenomena over the Greater Houston area // Fifth Sympos. Urban Environ. 2004. P. 9–11.
  5. Chen Y., Jiang W.M., Zhang N., He X.F., Zhou R.W. Numerical simulation of the anthropogenic heat effect on urban boundary layer structure // Theor. Appl. Climatol. 2009. V. 97, N 1–2. P. 123–134.
  6. Lee S.H., Kim S.W., Angevine W.M., Bianco L., McKeen S.A., Senff C.J., Trainer M., Tucker S.C., Zamora R.J. Evaluation of urban surface parameterizations in the WRF model using measurements during the Texas Air Quality Study 2006 field campaign // Atmos. Chem. Phys. 2011. V. 11, N 5. P. 2127–2143.
  7. Trusilova K., Schubert S., Wouters H., Früh B., Grossman-Clarke S., Demuzere M., Becker P. The urban land use in the COSMO-CLM model: A comparison of three parameterizations for Berlin // Meteorol. Z. 2016. V. 25, N 2. P. 231–244.
  8. Tao W., Liu J., Ban-Weiss G.A., Hauglustaine D.A., Zhang L., Zhang Q., Tao S. Effects of urban land expansion on the regional meteorology and air quality of eastern China // Atmos. Chem. Phys. 2015. V. 15. P. 8597–8614.
  9. Kadygrov E.N., Kuznecova I.N., Golicyn G.S. Ostrov tepla v pogranichnom sloe atmosfery nad bol'shim gorodom: novye rezul'taty na osnove distancionnyh dannyh // Dokl. AN. 2002. V. 385, N 4. P. 541–548.
  10. НПО АТТЕХ [Jelektronnyj resurs]. URL: http://attex.net
  11. Kuznecov R.D. Akusticheskij lokator LATAN-3 dlja issledovanij atmosfernogo pogranichnogo sloja // Optika atmosf. i okeana. 2007. V. 20, N 8. P. 749–753.
  12. Kallistratova M.A., Petenko I.V., Shurygin E.A. Sodarnye issledovanija polja skorosti vetra v nizhnej troposfere // Izv. AN SSSR. Fiz. atmosf. i okeana. 1987. V. 23, N 5. P. 451–461.
  13. Kuznecova I.N., Kadygrov E.N., Miller E.A., Nahaev M.I. Harakteristiki temperatury v nizhnem 600-metrovom sloe po dannym distancionnyh izmerenij priborami MTP-5 // Optika atmosf. i okeana. 2012. V. 25, N 10. P. 877–883.
  14. Byzova N.L., Ivanov V.N., Mackevich M.K. Izmerenie komponent zavihrennosti v nizhnem 300-metrovom sloe atmosfery // Izv. RAN. Fiz. atmosf. i okeana. 1996. V. 32, N 3. P. 323–328.
  15. Palmer T.N. Predicting uncertainty in forecasts of weather and climate // Rep. Prog. Phys. 2000. V. 63, N 2. P. 71–116.
  16. Jushkov V.P. Verojatnostnoe opisanie turbulentnyh processov v atmosfere // Vestn. MGU. Fizika. Astronomija. 2013. № 4. C. 65–72.
  17. Kallistratova M.A., Kouznetsov R.D. Low-level jets in the Moscow region in summer and winter observed with a sodar network // Bound.-Lay. Meteorol. 2012. V. 143, N 1. P. 159–175.
  18. Jushkov V.P., Kuznecov R.D., Kallistratova M.A. Srednie profili skorosti vetra v vozdushnom bassejne g. Moskva // Meteorol. i gidrol. 2008. № 10. С. 24–33.
  19. Jushkov V.P. Sinopticheskie fluktuacii skorosti vetra v pogranichnom sloe atmosfery // Meteorol. i gidrol. 2012. N 4. P. 17–28.
  20. Jushkov V.P. Ocenka prostranstvennyh neodnorodnostej temperaturnoj stratifikacii v pogranichnom sloe Moskovskogo megapolisa po dannym distancionnyh izmerenij // Optika atmosf. i okeana. 2015. V. 28, N 11. P. 1012–1022; Yushkov V.P. Estimation of spatial inhomogeneities of thermal stratification in the boundary layer of the Moscow megalopolis from remote sensing // Atmos. Ocean. Opt. 2016. V. 29, N 1. P. 56–66.
  21. Jushkov V.P. Chto mozhet izmerjat' temperaturnyj profilemer? // Meteorol. i gidrol. 2014. N 12. P. 76–88.
  22. Jushkov V.P., Kallistratova M.A., Kuznecov R.D., Kurbatov G.A., Kramar V.F. Opyt ispol'zovanija doplerovskogo akusticheskogo lokatora dlja izmerenija profilja skorosti vetra v gorodskih uslovijah // Izv. RAN. Fiz. atmosf. i okeana. 2007. V. 43, N 2. P. 193–205.
  23. Gorchakov G.I., Kadygrov E.N., Kunicyn V.E., Zaharov V.I., Semutnikova E.G., Karpov A.V., Kurbatov G.A., Sitanskij S.I. Moskovskij ostrov tepla v blokirujushhem anticiklone letom 2010 year. // Докл. РАН. 2014. V. 456, N 5. P. 591–595.
  24. Troickij A.V. Distancionnoe opredelenie temperatury atmosfery iz spektral'nyh radiometricheskih izmerenij v linii 5 mm // Izv. vuzov. Radiofiz. 1986. V. 29, N 8. P. 878–888.
  25. Vjazankin A.S., Kadygrov E.N., Mazurin N.F., Troickij A.V., Shur G.N. Sravnenie dannyh mikrovolnovogo radiometra i vysotnoj meteorologicheskoj machty pri izmerenijah profilja temperatury i struktury ee neodnorodnostej // Meteorol. i gidrol. 2001. N 3. P. 34–44.
  26. Crewell S., Löhnert U. Accuracy of boundary layer temperature profiles // IEEE Trans. Geosci. Remote Sens. 2007. V. 45, N 7. P. 2195–2201.
  27. Tsyrulnikov M.D. Stochastic modelling of model errors: А simulation study // Quart. J. Roy. Meteorol. Soc. 2005. V. 131, N 613. P. 3345–3371.