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1

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Testing a detailed biophysical parameterization for land-air exchange in a high-resolution boundary-layer model (1992)

Wetzel, P. J. ; Argentini, S. ; Karyampudi, V. M.

In: Other Sources

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Publication Date: 2011-08-24

Description: This study modifies the 1D PBL model of Zhang and Anthes (1982) to account more explicitly for the effects of a vegetation layer. New equations for the latent, sensible, and ground heat fluxes, reformulated in terms of vegetation parameters are substituted into the model. The model produces good agreement with observations over a wide range of conditions: for wet, high-vegetation conditions, and for dry, low-vegetation conditions in both the winter and the summer.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Journal of Applied Meteorology (ISSN 0894-8763); 31; 142-156

Format: text

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2

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Inference of precipitation through thermal infrared measurements of soil moisture (1981)

Atlas, D. ; Wetzel, P. J.

In: Other Sources

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Publication Date: 2011-08-18

Description: The physics of microwave radiative transfer is well understood so that causal models can be assembled which relate the observed brightness temperatures to assumed distributions of hydrometeors (both liquid and ice), non-precipitating clouds, water vapor oxygen, and surface conditions. Present models assume a Marshall Palmer size distribution of liquid hydrometers from the surface to the freezing level (near the 0 C isotherm) and a variable thickness of frozen hydrometeors above that with various reasonable distribution of the other relevant constituents. The validity of such models is discussed. All uncertainties in the rain rate retrieval algorithms can be expressed in terms of specific model uncertainties which can be addressed through appropriate measurements. Those factors which must be known to achieve umambiguous results can be identified so that rainfall measuring algorithms can be developed and improved. The emissivity of the underlying surface significantly affects the contrast that may be measured between areas covered by rain and those which are dry. Sensing strategies for measuring rain over the ocean and rain over land are reviewed.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Precipitation Meas. from Space:; 6 p

Format: text

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3

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An evaluation of the synoptic- and mesoscale predictability of the Mesoscale Atmospheric Simulation System (MASS 2.0) model (1983)

Skillman, W. C. ; Brill, K. F. ; Kocin, P. J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: A report is presented regarding the synoptic- and mesoscale predictive capabilities of a regional-scale numerical weather prediction model known as the Mesoscale Atmospheric Simulation System (MASS, Version 2.0). The development of this model has been discussed by Kaplan et al. (1982). An evaluation of the performance of MASS 2.0 is based on the study of a sample of approximately thirty 12 h and 24 h forecasts of atmospheric flow patterns over the U.S. during spring and early summer of 1982. A description of model systems is provided, and synoptic-scale evaluation methods are considered along with aspects of mesoscale evaluation methodology, examples of coherent mesoscale information provided by MASS 2.0, the results of a diagnostic study of mesoscale convective systems (MCS), and the results of a limited real-time forecast experiment.

Keywords: METEOROLOGY AND CLIMATOLOGY

Format: text

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4

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Toward parameterization of the stable boundary layer (1982)

Wetzel, P. J.

In: Other Sources

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Publication Date: 2011-08-18

Description: Wangara data is used to examine the depth of the nocturnal boundary layer (NBL) and the height to which surface-linked turbulence extends. It is noted that a linearity of virtual temperature profiles has been found to extend up to a significant portion of the NBL, and then diverge where the wind shear rides over the surface-induced turbulence. A series of Richardson numbers are examined for varying degrees of turbulence and the significant cooling region is observed to have greater depth than the depth of the linear relationship layer. A three-layer parameterization of the thermodynamic structure of the NBL is developed so that a system of five equations must be solved when the wind velocity profile and the temperature at the surface are known. A correlation between the bulk Richardson number and the depth of the linear layer was found to be 0.89.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Journal of Applied Meteorology; 21; Jan. 198

Format: text

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5

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Synoptic scale forecast skill and systematic errors in the MASS 2.0 model (1985)

Skillman, W. C. ; Kocin, P. J. ; Brill, K. F. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: The synoptic scale performance characteristics of MASS 2.0 are determined by comparing filtered 12-24 hr model forecasts to same-case forecasts made by the National Meteorological Center's synoptic-scale Limited-area Fine Mesh model. Characteristics of the two systems are contrasted, and the analysis methodology used to determine statistical skill scores and systematic errors is described. The overall relative performance of the two models in the sample is documented, and important systematic errors uncovered are presented.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Monthly Weather Review (ISSN 0027-0644); 113; 1714-173

Format: text

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6

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Determining soil moisture from geosynchronous satellite infrared data - A feasibility study (1984)

Woodward, R. H. ; Wetzel, P. J. ; Atlas, D.

In: Other Sources

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Publication Date: 2011-08-18

Description: Numerical modelling results are reported from a pilot study investigating the feasibility of developing a technique for daily soil moisture measurement throughout the world, based on GOES infrared data. A detailed one-dimensional boundary layer-surface-soil model was used in order to determine which physical parameters observable from GOES are most sensitive to soil moisture, and which are most effected by seasonal changes, atmospheric effects and vegetation cover. The results of the sensitivity test show that the mid-morning differential of surface temperature with respect to absorbed solar radiation is optimally sensitive to soil moisture. A case study comparing model results with GOES infrared data confirms the sensitivity of this parameter to soil moisture and also confirms the applicability of the model to predicting area-averaged surface temperature changes. Model measurements of soil moisture are expected to be most accurate for dry or marginal agricultural areas where drought is common. Sources of error, including the advection of clouds, are examined and methods of minimizing error are discussed.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: Journal of Climate and Applied Meteorology (ISSN 0733-3021); 23; 375-391

Format: text

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7

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Rain estimation from satellites - An examination of the Griffith-Woodley Technique (1984)

Wetzel, P. J. ; Negri, A. J. ; Adler, R. F.

In: Other Sources

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Publication Date: 2011-08-18

Description: The Griffith-Woodley Technique (GWT) is an approach to estimating precipitation using infrared observations of clouds from geosynchronous satellites. It is examined in three ways: an analysis of the terms in the GWT equations; a case study of infrared imagery portraying convective development over Florida; and the comparison of a simplified equation set and resultant rain map to results using the GWT. The objective is to determine the dominant factors in the calculation of GWT rain estimates. Analysis of a single day's convection over Florida produced a number of significant insights into various terms in the GWT rainfall equations. Due to the definition of clouds by a threshold isotherm the majority of clouds on this day did not go through an idealized life cycle before losing their identity through merger, splitting, etc. As a result, 85 percent of the clouds had a defined life of 0.5 or 1 h. For these clouds, the terms in the GWT which are dependent on cloud life history become essentially constant. The empirically derived ratio of radar echo area to cloud area is given a singular value (0.02) for 43 percent of the sample, while the rainrate term is 20.7 mmh-1 for 61 percent of the sample. For 55 percent of the sampled clouds, the temperature weighting term is identically 1.0. Cloud area itself is highly correlated (r = 0.88) with GWT computed rain volume. An important, discriminating parameter in the GWT is the temperature defining the coldest 10 percent cloud area. The analysis further shows that the two dominant parameters in rainfall estimation are the existence of cold cloud and the duration of cloud over a point. Previously announced in STAR as N84-13735

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Journal of Climate and Applied Meteorology (ISSN 0733-3021); 23; 102-116

Format: text

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8

Unknown

Rain estimation from satellites: An examination of the Griffith-Woodley technique (1983)

Wetzel, P. J. ; Negri, A. J. ; Adler, R. F.

In: CASI

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Publication Date: 2019-06-28

Description: The Griffith-Woodley Technique (GWT) is an approach to estimating precipitation using infrared observations of clouds from geosynchronous satellites. It is examined in three ways: an analysis of the terms in the GWT equations; a case study of infrared imagery portraying convective development over Florida; and the comparison of a simplified equation set and resultant rain map to results using the GWT. The objective is to determine the dominant factors in the calculation of GWT rain estimates. Analysis of a single day's convection over Florida produced a number of significant insights into various terms in the GWT rainfall equations. Due to the definition of clouds by a threshold isotherm the majority of clouds on this day did not go through an idealized life cycle before losing their identity through merger, splitting, etc. As a result, 85% of the clouds had a defined life of 0.5 or 1 h. For these clouds the terms in the GWT which are dependent on cloud life history become essentially constant. The empirically derived ratio of radar echo area to cloud area is given a singular value (0.02) for 43% of the sample, while the rainrate term is 20.7 mmh-1 for 61% of the sample. For 55% of the sampled clouds the temperature weighting term is identically 1.0. Cloud area itself is highly correlated (r=0.88) with GWT computed rain volume. An important, discriminating parameter in the GWT is the temperature defining the coldest 10% cloud area. The analysis further shows that the two dominant parameters in rainfall estimation are the existence of cold cloud and the duration of cloud over a point.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: NASA-TM-84969 , NAS 1.15:84969

Format: application/pdf

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9

Unknown

Evaluation of the synoptic and mesoscale predictive capabilities of a mesoscale atmospheric simulation system (1983)

Brill, K. ; Wetzel, P. J. ; Skillman, W. C. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The overall performance characteristics of a limited area, hydrostatic, fine (52 km) mesh, primitive equation, numerical weather prediction model are determined in anticipation of satellite data assimilations with the model. The synoptic and mesoscale predictive capabilities of version 2.0 of this model, the Mesoscale Atmospheric Simulation System (MASS 2.0), were evaluated. The two part study is based on a sample of approximately thirty 12h and 24h forecasts of atmospheric flow patterns during spring and early summer. The synoptic scale evaluation results benchmark the performance of MASS 2.0 against that of an operational, synoptic scale weather prediction model, the Limited area Fine Mesh (LFM). The large sample allows for the calculation of statistically significant measures of forecast accuracy and the determination of systematic model errors. The synoptic scale benchmark is required before unsmoothed mesoscale forecast fields can be seriously considered.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: NASA-TM-84995

Format: application/pdf

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Overview

10

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A long-lived mesoscale convective complex. II - Evolution and structure of the mature complex (1983)

Cotton, W. R. ; Mcanelly, R. L. ; Wetzel, P. J.

In: Other Sources

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Publication Date: 2019-06-28

Description: The present investigation is concerned with an eight-day episode, during which a series of mesoscale convective complexes (MCC) developed and moved across the country, producing heavy rain and some flooding over an extensive region. An overview of the considered period from August 3 to August 10, 1977 is presented, and the evolution of the August 4 storm is examined. The structure of the mature MCC is discussed, taking into account the August 4-5 storm, a comparative case involving the August 3-4 storm, and an evaluation of the observed phenomena. It is concluded that MCCs are basically tropical in nature and that their dynamics are dominated by buoyant accelerations. It was found that the MCCs developed a warm-core, divergent anticyclonic flow pattern in the upper troposphere which was not present prior to the development of convection. A similar structure is observed in tropical cloud clusters.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Monthly Weather Review (ISSN 0027-0644); 111; 1919-193

Format: text

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