DWD
History
The DWD was formed on 11 November 1952 when the weather services of the western occupation zones were merged. In 1954, the Federal Republic of Germany joined the World Meteorological Organization (WMO). In 1990, following the reunification, the weather services of the German Democratic Republic were incorporated in the DWD.
Since the 1990s, the DWD has continuously reduced the number of staffed weather stations, which entailed substantial staff cutbacks. The DWD does not expect a reduction in forecast quality, given techniques like weather radar or satellites, which have significantly improved weather data collection.
Numerical weather prediction
This article needs to be updated.(August 2022) |
The German Meteorological Service runs a global hydrostatic model of its own, the GME (superseded by ICON in 2015), using a hexagonal icosahedral grid since 2002. They developed the High Resolution Regional Model (HRM) in 1999, which is widely run within the operational and research meteorological communities and run with hydrostatic assumptions. The German non-hydrostatic Lokal-Modell for Europe (LME) has been run since 2002, and an increase in areal domain became operational on 28 September 2005. Since March 2009, the DWD operates a NEC SX-9 with a peak performance of 109 teraFLOPS to help in the weather forecasting process.
The DWD also operates two other NWP services, COSMO-EU (Europe region) and COSMO-DE (Germany and surrounding region), with higher resolution than the ICON. The COSMO algorithm is maintained by the COSMO consortium, a cooperation of many European countries. It uses ICON data as input in DWD's setup.
Public services
Since 2005, the DWD has been publishing regional warnings against heat with the aim to reduce heat related fatalities. This decision was made because of the hot summer in 2003, when estimated 7000 people died from direct or indirect effects of the heat. Additionally, it sends out sea weather reports as radioteletype and faxes. Since 2006, the pollen warnings can be subscribed to for free on the DWD web site. Within its duty of primary meteorological information, the DWD offers a free daily weather report for Germany, which can be subscribed to by email on their official website. DWD offers free access to its climate data.
Structure
The Deutscher Wetterdienst is attached to the Federal Ministry for Digital and Transport and thus closely linked to the German federal, regional and local governments, to the business community, and to the industrial world in terms of cooperation and consulting. Its work is based on the German Meteorological Office Act (Gesetz über den Deutschen Wetterdienst). As of 2022, the DWD has roughly 2360 staff. Besides the DWD central in Offenbach, there are regional centres in Hamburg, Potsdam, Leipzig, Essen, Stuttgart, Freiburg and Munich. Additionally, it runs Germany's densest network of meteorological measurement points with 183 full-time meteorological stations (60 of them staffed), as well as about 1784 extraordinal weather stations run by volunteering amateurs (2014).
DWD hosts several international climate data centres, among them for example:
- The Global Precipitation Climatology Centre
- The Satellite Application Facility on Climate Monitoring
- The Monitoring Centre (GSNMC) of the GCOS Surface Network (Global Climate Observing System)
References
- ^ "Deutscher Wetterdienst". European Meteorological Society. Retrieved 2022-07-23.
- ^ Kaspar, F.; Müller-Westermeier, G.; Penda, E.; Mächel, H.; Zimmermann, K.; Kaiser-Weiss, A.; Deutschländer, T. (2013). "Monitoring of climate change in Germany – data, products and services of Germany's National Climate Data Centre" (PDF). Adv. Sci. Res. 10 (1): 99–106. Bibcode:2013AdSR...10...99K. doi:10.5194/asr-10-99-2013. Retrieved 2017-03-23.
- ^ "Offenbach Am Main, Germany. 10th Nov, 2022. A high-performance computer is located at the headquarters of the German Weather Service (DWD). The DWD was founded on November 11, 1952. Credit: Sebastian Gollnow/Dpa/Alamy Live News Stock Photo - Alamy". Alamy. Retrieved 27 December 2022.
- ^ Eikenberg, S.; K. Frohlich; A. Seifert; S. Crewell & M. Mech (2011-02-25). "Evaluation of ice and snow content in the global numerical weather prediction model GME with CloudSat" (PDF). Geoscientific Model Development. 4 (3): 422. Bibcode:2011GMD.....4..579R. doi:10.5194/gmdd-4-419-2011. Retrieved 2011-03-15.
- ^ "HRM – Atmospheric Model". Brazilian Navy Hydrographic Center. 2009-09-29. Archived from the original on 2012-04-03. Retrieved 2011-03-15.
- ^ Schultz, J.-P. (2006). "The New Lokal-Modell LME of the German Weather Service" (PDF). Consortium for Small-scale Modeling (6). Retrieved 2011-03-15.
- ^ "Neuer Computer sagt Wetter genauer voraus". Berliner Morgenpost (in German). March 18, 2009.
- ^ "Numerical weather prediction models – COSMO-DE". Wetter und Klima – Deutscher Wetterdienst.
- ^ Deutscher Wetterdienst: Climate Data Center OpenData-Server
- ^ Kaspar, Frank; Kratzenstein, Frank; Kaiser-Weiss, Andrea K. (2019). "Interactive open access to climate observations from Germany". Advances in Science and Research. 16: 75–83. Bibcode:2019AdSR...16...75K. doi:10.5194/asr-16-75-2019. S2CID 192651368.
- ^ Kaspar, Frank; Andersson, Axel; Ziese, Markus; Hollmann, Rainer (2022). "Contributions to the Improvement of Climate Data Availability and Quality for Sub-Saharan Africa". Frontiers in Climate. 3. doi:10.3389/fclim.2021.815043.
See also
Related article
- NinJo workstation used by DWD