Ananalytical model for the prediction of nocturnal and dawn surface temperatures under calm, clear sky conditions

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Frost is a climatic risk which can have an important impact on agricultural production. The risk of frost damage can be minimized by means of a reliable minimum temperature prediction. This paper presents an analytical model for the prediction of nocturnal and dawn surface temperatures under calm, c...

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Autor principal: Figuerola, P.I
Otros Autores: Mazzeo, N.A
Formato: Capítulo de libro
Lenguaje:Inglés
Publicado: 1997
Acceso en línea:Registro en Scopus
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100 1 |a Figuerola, P.I. 
245 1 0 |a Ananalytical model for the prediction of nocturnal and dawn surface temperatures under calm, clear sky conditions 
260 |c 1997 
270 1 0 |m Figuerola, P.I.; Department of Atmospheric Sciences, Faculty of Sceinces, University of Buenos Aires, Pabellon 2, Buenos Aires, Argentina 
506 |2 openaire  |e Política editorial 
504 |a Abramowitz, M., Stegun, I., (1965) Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Tables, , National Bureau of Standards, Washington, DC 
504 |a André, J.C., Mahrt, L., The nocturnal surface inversion influence of clear-air radiative cooling (1982) J. Atmos. Sci., 39, pp. 864-878 
504 |a Anfossi, D., Bacci, P., Longhetto, A., Forecasting of vertical temperature profiles in the atmosphere during nocturnal radiation inversions from air temperature trends at screen height (1976) Q. J. R. Meteorol. Soc., 102, pp. 173-180 
504 |a Barker, E.M., Baxter, T.L., A note on the computation of atmospheric surface layer fluxes for use in numerical modeling (1975) J. Appl. Meteorol., 14, pp. 620-622 
504 |a Brünt, D., (1941) Physical and Dynamical Meteorology, 2nd Edn., , Cambridge University Press, New York 
504 |a Carslaw, H.S., Jaeger, J.C., (1959) Conduction of Heat in Solids, 2nd Edn., , Oxford University Press, Oxford 
504 |a Cellier, P., An operational model for prediction minimum temperatures near the soil surface under clear sky conditions (1993) J. Appl. Meteorol., 32, pp. 871-883 
504 |a Cellier, P., Itier, B., Un modèle de prévision de la température minimale nocturne sous abri et a la surface du sol en conditions de gelées radiatives (1984) J. Rech. Atmos., 18, pp. 11-22 
504 |a Clarke, R.H., Dander, A.J., Brook, R.R., Reid, D., Troup, A.J., (1971) The Wangara Experiment: Boundary-layer Data, , Paper No. 19, Div. Meteorol. Phys., CSIRO, Australia 
504 |a Ellison, E.S., A critique on the construction and use of minimum temperature formulas (1928) Mon. Weather Rev., 55, pp. 485-495 
504 |a Figuerola, P.I., (1995) Lowering Nocturnal Temperature, , PhD dissertation, University of Buenos Aires (unpublished; in Spanish) 
504 |a Figuerola, P.I., Mazzeo, N.A., Some methods for predicting the minimum temperature (1989) Geoacta, 16, pp. 121-132. , in Spanish 
504 |a Fox, D., Judging air quality model performance. Summary of AMS workshop on dispersion model performance (1981) Bull. Am. Meteorol. Soc., 62, pp. 599-609 
504 |a Georg, J.G., Techniques of frost prediction (1978) Techniques of Frost Prediction and Methods of Frost and Cold Protection, pp. 2-45. , A. Baagdonas, J.C. Georg and J.F. Gerber (Eds.). WMO No. 487, TN 157, WMO, Geneva 
504 |a Gröen, P., Note on the theory of nocturnal radiational cooling of the earth's surface (1947) J. Meteorol., 4, pp. 63-66 
504 |a Irwin, J., Estimating plume dispersion: A comparison of several sigma schemes (1982) J. Clim. Appl. Meteorol., 22, pp. 92-114 
504 |a Klöppel, M., Stilke, G., Wamser, C., Experimental investigations into variations of ground-based inversions and comparisons with results of simple boundary-layer models (1978) Boundary Layer Meteorol., 15, pp. 135-141 
504 |a Jaeger, J.C., Note on the effect of wind on nocturnal temperatures (1945) Q. J. R. Meteorol. Soc., 71, pp. 388-390 
504 |a Lettau, H., Davidson, B., (1957) Exploring the Atmosphere's First Mile, 2. , Geophysics Research Directorate, Symp. Publ. Division 
504 |a List, R.J., (1974) Smithsonian Meteorological Tables, , Smithsonian Institution, Washington, DC 
504 |a Luikov, A.V., (1968) Analytical Heat Diffusion Theory, , Academic Press, New York 
504 |a Panofsky, H., Dutton, J., (1984) Atmospheric Turbulence: Models and Methods for Engineering Applications, , Wiley, New York 
504 |a Paulson, C.A., The mathematical representation of wind and temperature profiles in the unstable atmospheric surface layer (1970) J. Appl. Meteorol., 9, pp. 857-861 
504 |a Reuter, H., Forecasting minimum temperatures (1951) Tellus, 3, pp. 141-147 
504 |a Stull, R.B., (1989) An Introduction to Boundary Layer Meteorology, 2nd Edn., , Atmospheric Sci. Lib., USA 
504 |a Sutherland, R.A., A short-range objective nocturnal temperature forecasting model (1980) J. Appl. Meteorol., 19, pp. 247-255 
504 |a Sutton, O.G., (1977) Micrometeorology, , McGraw-Hill, New York 
504 |a Topping, J., (1972) Errors of Observation and Their Treatment, 4th Edn., , Wiley, New York 
504 |a Willmott, C.J., On the validation of models (1981) Phys. Geog., 2, pp. 184-194 
504 |a Willmott, C.J., Some comments on the evaluation of model performance (1982) Bull. Am. Meteorol. Soc., 66, pp. 1309-1313 
504 |a Yagüe, C., Cano, J.L., Eddy transfer processes in the atmospheric boundary layer (1994) Atmos. Environ., 28, pp. 1275-1289 
504 |a Young, F.D., Forecasting minimum temperatures in Oregon and California (1920) Mon. Weather Rev., 16 (SUPPL.), pp. 53-60 
520 3 |a Frost is a climatic risk which can have an important impact on agricultural production. The risk of frost damage can be minimized by means of a reliable minimum temperature prediction. This paper presents an analytical model for the prediction of nocturnal and dawn surface temperatures under calm, clear sky conditions. The model is an analytical solution of the heat transfer equations for the soil and the atmosphere, with proper boundary conditions, and includes a power law form for the eddy diffusivity for turbulent heat transfer. The results compare favorably with observational data obtained from the Wangara and Great Plains experiments. Several statistical 'measures' indicate that the model is able to provide satisfactory estimates of surface temperature. A sensitivity analysis of the model to variations in the input parameters is also performed.  |l eng 
593 |a Department of Atmospheric Sciences, University of Buenos Aires, Ciudad Universitaria, Buenos Aires, Argentina 
690 1 0 |a DAWN SURFACE TEMPERATURES 
690 1 0 |a FROST DAMAGE 
690 1 0 |a MINIMUM TEMPERATURE PREDICTION 
690 1 0 |a NOCTURNAL SURFACE TEMPERATURES 
690 1 0 |a CLEAR SKY 
690 1 0 |a FROST 
690 1 0 |a MODEL 
690 1 0 |a SURFACE TEMPERATURE 
690 1 0 |a TEMPERATURE PREDICTION 
700 1 |a Mazzeo, N.A. 
773 0 |d 1997  |g v. 85  |h pp. 229-237  |k n. 3-4  |p AGRIC. FOR. METEROL.  |x 01681923  |w (AR-BaUEN)CENRE-70  |t Agricultural and Forest Meteorology 
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856 4 0 |u https://doi.org/10.1016/S0168-1923(96)02398-2  |y DOI 
856 4 0 |u https://hdl.handle.net/20.500.12110/paper_01681923_v85_n3-4_p229_Figuerola  |y Handle 
856 4 0 |u https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_01681923_v85_n3-4_p229_Figuerola  |y Registro en la Biblioteca Digital 
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