Predictability analysis and skillful scale verification of the Lightning Potential Index (LPI) in the COSMO-D2 high resolution ensemble system

Author(s): Michele Salmi, Chiara Marsigli, Manfred Dorninger
Abstract: During the last decade, the constant improvement in computational capacity led to the development of the first limited-Area, kilometer-scale ensemble prediction systems (L-EPS). The COSMO-D2 EPS (now ICON-D2) was the operational L-EPS at the German weather service (DWD) and has a spatial resolution of around 2.2ĝ€¯km. This grid resolution allows large scale, deep convective processes such as thunderstorms or heavy showers to be handled explicitly, without any physical parametrization. Special parameters involving both clouds microphysics and large scale lifting-such as the Lightning Potential Index, or LPI-have also been developed in order to try to bring the forecasting of deep convection and therefore also of lightning activity to a new level of spatial accuracy. With such high resolution forecasts comes however also a higher error potential, at least for gridpoint-verification. The use of this high resolution setup in an ensemble prediction system might however bring huge benefits in terms of skill and predictability. This work is a preliminary attempt to apply innovative verification approaches such as the dispersion Fractions Skill Score (dFSS) and the ensemble-SAL (eSAL) to the LPI in the COSMO-D2 EPS. Aim of this work is to assess the relationship between the ensemble error and the ensemble dispersion at different spatial scales. For the summer months 2019, the COSMO-D2 EPS shows a general tendency to overestimate the predictability (underestimate the ensemble spread) of the lightning events, though the spread-error relationship varies greatly for different forecast lead times. With the help of the dFSS, one can also express this relationship in terms of skillful scales. On average, the system produces a useful forecast during the afternoon hours for horizontal scales of around 200ĝ€¯km. However, the ensemble members show an average horizontal dispersion that amounts to around half of that value, at more or less 100ĝ€¯km.
Organisation(s): Department of Meteorology and Geophysics
External organisation(s): Meteorological Service of Germany, Universität Wien
Journal: Advances in Science and Research
Volume: 19
Pages: 29-38
No. of pages: 10
ISSN: 1992-0628
DOI: https://doi.org/10.5194/asr-19-29-2022
Publication date: 06-2022
Peer reviewed: Yes
Austrian Fields of Science 2012: 105206 Meteorology
ASJC Scopus subject areas: Ecological Modelling, Geophysics, Pollution, Atmospheric Science
Portal url: https://ucris.univie.ac.at/portal/en/publications/predictability-analysis-and-skillful-scale-verification-of-the-lightning-potential-index-lpi-in-the-cosmod2-high-resolution-ensemble-system(8fa27fab-df09-44c2-b196-06e3b949f252).html