publication . Conference object . 2012

Stable Boundary Layer Issues

Steeneveld, G.J.;
Open Access English
  • Published: 01 Jan 2012
  • Country: Netherlands
Understanding and prediction of the stable atmospheric boundary layer is a challenging task. Many physical processes are relevant in the stable boundary layer, i.e. turbulence, radiation, land surface coupling, orographic turbulent and gravity wave drag, and land surface heterogeneity. The development of robust stable boundary layer parameterizations for use in NWP and climate models is hampered by the multiplicity of processes and their unknown interactions. As a result, these models suffer from typical biases in key variables, such as 2m temperature, boundary layer depth, boundary layer wind speed. This paper summarizes the physical processes active in the sta...
free text keywords: Meteorologie en Luchtkwaliteit, WIMEK, Meteorology and Air Quality
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NWO| Lifting the fog
  • Funder: Netherlands Organisation for Scientific Research (NWO) (NWO)
  • Project Code: 2300161084
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Conference object . 2012
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40 references, page 1 of 3

Baas P., F.C. Bosveld, G. Lenderink, E. van Meijgaard, A.A.M. Holtslag, 2010: How to design single column model experiments for comparison with observed nocturnal low-level jets, Q. J. R. Meteorol. Soc.136, 671-684.

Bechtold, P., M. Köhler, T. Jung. F. Doblas-Reys, M. Letbecher, M.J. Rodwell, R. Vitart, and G. Balsamo, 2008: Advances in simulating atmospheric variability with the ECMWF model: From synoptic to decadal time-scales. Quart. J. Roy. Meteor. Soc., 134, 1337-1351.

Beljaars, A.C.M., A.R. Brown, and N. Wood, 2004: A new parameterization of turbulent orographic form drag, Quart. J. Roy. Meteor. Soc., 130, 1327-1347.

Belušić, D., and I. Güttler, 2010: Can mesoscale model reproduce meandering motions?, Quart J. Roy Meteor. Soc., 136, 553-565. [OpenAIRE]

Bony, S. and co-authors, 2006: How well do we understand and evaluate climate change feedback processes? J. Climate, 19, 3445-3482.

Brown, A.R., M. Athanassiadou, and N. Wood, 2003: Topographically induced waves within the stable boundary layer, Quart. J. Roy. Meteor. Soc., 129, 3357-3370. [OpenAIRE]

Chimonas, G. and C.J. Nappo, 1989: Wave drag in the planetary boundary layer over complex terrain, Bound.-Layer Meteor., 47, 217-232.

Cuxart, J. and M.A. Jiménez, 2011: Deep Radiation Fog in a Wide Closed valley: Study by Numerical Modeling and Remote Sensing, Pure Appl. Geophys., in press, doi: 10.1007/s00024-011-0365- 4.

Dethloff, K., C. Abegg, A. Rinke, I. Hebestadt, and V.F. Romanov, 2001: Sensitivity of Arctic climate simulations to different boundary-layer parameterizations in a regional climate model. Tellus, 53A, 1-26.

Dutra, E., G. Balsamo, P. Viterbo, P.M.A. Miranda, A. Beljaars, C. Schär, K. Elder, 2010: An improved snow scheme for the ECMWF land surface model: description and offline validation. J. Hydrometeor, 11, 899-916.

Edwards, J.M., J.R. McGregor, M.R. Bush, F.J.A. Bornemann, 2011: Assessment of numerical weather forecasts against observations from Cardington: Seasonal diurnal cycles of screen-level and surface temperatures and surface fluxes, Quart. J. Roy. Meteorol. Soc., 137, 656-672.

Estournel, C. and D. Guedalia, 1985: Influence of geostrophic wind on atmospheric nocturnal cooling, J. Atmos. Sci., 42, 2695-2698.

Gerbig, C., S. Körner, and J.C. Lin, 2008: Vertical mixing in atmospheric tracer transport models: error characterization and propagation. Atmos. Chem. Phys., 8, 591-602. [OpenAIRE]

Ha, K.J. and L. Mahrt, 2003: Radiative and turbulent fluxes in the nocturnal boundary layer, Tellus, 55A, 317-327.

Hoch, S.W., P. Calanca, R. Philipona, and A. Ohmura, 2007: Year-Round Observation of Longwave Radiative Flux Divergence in Greenland. J. Appl. Meteor. Clim., 45, 1469-1479. [OpenAIRE]

40 references, page 1 of 3
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