Influence of Parameterization of Some physical processes in Soils on Numerical meteorological Forecasts of Surface Fields

• Authors: Andrzej Mazur , Grzegorz Duniec

Abstracts

EN

physical processes in soil-plant-water system are very complicated. Complex physical processes in soil, in particular interaction between soilplant-water system have signicfiant inuflence on processes in planetary Boundary layer. Changes of soil state can signicfiantly modify processes in the pBl and meteorological efilds . Since numerical models are to determine the forecast of high quality, the physical processes occurring in soil should be properly described and then appropriately introduced into a model. every process in soil occurs on a smaller scale than original model's domain, so it should be described via adequate parameterization. Overall, soil parameterizations implemented in current numerical weather prediction (NWp) model(s) were prepared almost 40 years ago, when NWp models worked with very poor resolution mesh. Since nowadays NWp works over domains of high resolution, these “old” schemes parameterization must be adequately revised. In this paper preliminary results of changes of parameterization of soil processes will be presented.

Keywords

EN

Soil-plant-water system; Hydrodynamics of porous media; parameterization schemes; multilayer soil model; Numerical weather prediction

• Publisher: Wydział Geografii i Studiów Regionalnych Uniwersytetu Warszawskiego
• Journal: Miscellanea Geographica. Regional Studies on Development
• Year: 2016
• Volume: 20
• Issue: 4
• Pages: 48-58

Dates

published

2016

Contributors

author

Andrzej Mazur

• Department For Numerical Weather Forecasts Institute of Meteorology and Water Management - National Research Institute

author

Grzegorz Duniec

• Department For Numerical Weather Forecasts Institute of Meteorology and Water Management - National Research Institute

References

• Chen, F & Dudhia, J 2001, ‘Coupling an advanced land surface hydrology model with the Penn State-NCAR MM5 modeling system. Part I: Model implementation and sensitivity’, Mon. Wea. Rev., vol. 129, pp. 569–585.
• Chen, F, Mitchell, K & Schaake, J 1996, ‘Modeling of land surface evaporation by four schemes and comparison with FIFE observations’, J. Geophys. Res., vol. 101, pp. 7251–7268.
• Dickinson, RE 1984, ‘Modeling evapotranspiration for three dimensional global climate models’ in Climate Processes and Climate Sensitivity, eds JE Hansen & T Takahashi, Geophysical Monograph 29, Maurice Ewing, vol. 5, pp. 58–72.
• Doms, G, Foerstner, J, Heise, E, Herzog, HJ, Mironow, D, Raschendorfer, M & Reinhart, T 2011, ‘A description of the nonhydrostatic regional COSMO model. Part II: Physical parameterization’, Tech. Rep., DWD. Available from: <http://www.cosmo-model.org/content/model/documentation/core/default.htm> [10 September 2011].
• Duniec, G & Mazur, A 2015, ‘Modified description of soil processes vs. quality of numerical weather forecasts – “Bare” soil case’, Ecological Chemistry and Engineering – S, vol. 22, issue 4, pp. 659–673.
• Duniec, G & Mazur, A 2016, ‘Influence of parameterization of soil processes on meteorological forecasts of vertical profiles’, Ecological Chemistry and Engineering – S, vol. 23, issue 3, pp. 493 503.
• EK, MB, Mitchell, KE & Lin, Y 2003, ‘Implementation of Noah land surface model advances in the National Centers for Environmental Prediction operational mesoscale Eta model’, J. Geophys. Res., vol. 108.
• Hillel, D 1998, Environmental soil physics, Academic Press, London.
• IMWM-NRI 2013, Monthly Bulletin of the National Hydrological and Meteorological Service (in Polish). Available from IMWM-NRI [2013].
• Kędziora, A 1995, Podstawy agrometeorologii (Introduction to agrometeorology, in Polish), PWRiL, Poznań.
• Mahfouf, J-F 1991, ‘Analysis of soil moisture from near-surface parameters: a feasibility study’, J. Appl. Meteor., vol. 30, pp. 1534–1547.
• Moene, AF & van Dam, JC 2014, Transport in the atmosphere-vegetation-soil continuum, Cambridge University Press, New York.
• Noilhan, J & Planton, S 1989, ‘A simple parameterization of land-surface processes for meteorological models’, Mon. Wea. Rev., vol. 117, pp. 536–549.
• Santanello, JA & Carlson, TN 2001, ‘Mesoscale simulation of rapid soil drying and its implication for predicting daytime temperature’, J. Hydrometeor., vol. 2, pp. 71–88.
• Sellers, PJ, Mintz, Y, Sud YC & Dalcher, A 1986, ‘A simple biosphere model (SiB) for use within general circulation models’, J. Atmos. Sci., vol. 43, pp. 505–531.
• Stensrud, DJ 2007, Parameterization schemes – keys to understanding numerical weather prediction models, Cambridge University Press, New York.
• Vila-Guerau de Arellano, J, van Heerwaarden, CC, van Stratum, BJH & van den Dries, K 2015, Atmospheric boundary layer, Cambridge University Press, New York.
• Viterbo, P & Beljaars, ACM 1995, ‘An improved land surface parameterization scheme in the ECMWF model and its validation’, J. Climate, vol. 8, pp. 2716–2748.

Identifiers

DOI

10.1515/mgrsd-2016-0023

Biblioteka Nauki

2134727