Meteorologisk Institutt met.no Toulouse 5.9.-9.9.2005 Radar Data Quality – the Challenge of Beam Blockages and Propagation Changes Uta Gjertsen, met.no.

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Presentation transcript:

Meteorologisk Institutt met.no Toulouse Radar Data Quality – the Challenge of Beam Blockages and Propagation Changes Uta Gjertsen, met.no Günther Haase, SMHI With thanks to Joan Bech, meteocat

Meteorologisk Institutt met.no Why radar data quality? Composite of radar-derived precipitation Do we trust the spatial distribution? What about blockages, overshooting, anaprop etc?

Meteorologisk Institutt met.no Suggested NORDRAD quality projects: a) Beam Propagation Project b) VPR Background: Issues concerning the propagation of the radar beam are identified as being of great importance for the quality of radar reflectivity and precipitation products. Objective: The objective of the proposed project is to coordinate the work carried out in the NORDRAD member countries to define common algorithms for addressing these challenges. Deliverables: site maps for each NORDRAD radar in polar coordinates to correct beam blockage implementation of the correction fields in the NORDRAD2 system to improve the accuracy of precipitation estimates in blocked regions

Meteorologisk Institutt met.no BPM output and 1-year accumulation for radar Bømlo Height of lower beam edge 0.5 degree elevation accumulated precipitation for 2004

Meteorologisk Institutt met.no Correction field for precipitation (BB=beam blockage, y=distance center beam - topography, a=radius radar beam cross section) (bcorr=correction factor for precipitation, b=Marshall-Palmer b coefficient) 50% % %2.12

Meteorologisk Institutt met.no Radar Bømlo * = = - Uncorrected precipitationCorrection filedCorrected precipitation Uncorrected precipitation Corrected areas

Meteorologisk Institutt met.no Blockage correction at station 46610, 75 km from radar, daily accumulations 2004 uncorrected RMSf = 3.39 corrected RMSf = 2.65

Meteorologisk Institutt met.no km from radar 14 stations

Meteorologisk Institutt met.no km from radar 24 stations

Meteorologisk Institutt met.no RMSf and mean bias for different distances and blockages % % % % % % Black=uncorrected Blue= corrected RMSf km bb bias(10*log10(radar/gauge)

Meteorologisk Institutt met.no What about anaprop? Radar Bømlo, Western NorwayRadar Hemse, Gotland, Sweden

Meteorologisk Institutt met.no Radar Bømlo and radiosonde Sola 1415 Radiosonde data from closest station is used to identify anaprop cases, the cases are studies to assess the influence of propagation changes on the degree of blockage The importance of using temporally/spatially variable correction fields Time series of IDmax and IDmin for station Sola

Meteorologisk Institutt met.no anaprop case , 00:00 UTC Precipitation intensity product Normal atmosphereRadiosonde data

Meteorologisk Institutt met.no Summary and conlusions Correction fields produced by BPM reduce the gauge/radar bias at radar Bømlo The improvement is dependent on the distance from the radar and the degree of blockage The BPM seems to give realistic output for normal conditions and cases with anaprop The effect of anaprop on the degree of blockage will be investigated to see whether spatially/temporally variable correction fields are necessary The use of radiosondes and NWP data (HIRLAM) as input to the BPM will be investigated It is intended to integrate the blockage correction into the operational NORDRAD system