201405 - Rainfall + flood - South-eastern Europe

 Status:Ongoing analysis Material from: Linus Mohamed, Florian, Ivan

Discussed in the following Daily reports:

http://intra.ecmwf.int/daily/d/dreport/2014/05/08/sc/

http://intra.ecmwf.int/daily/d/dreport/2014/05/09/sc/

http://intra.ecmwf.int/daily/d/dreport/2014/05/12/sc/

http://intra.ecmwf.int/daily/d/dreport/2014/05/13/sc/

http://intra.ecmwf.int/daily/d/dreport/2014/05/14/sc/

http://intra.ecmwf.int/daily/d/dreport/2014/05/15/sc/

http://intra.ecmwf.int/daily/d/dreport/2014/05/16/sc/

http://intra.ecmwf.int/daily/d/dreport/2014/05/19/sc/

1. Impact

The rainfall was caused by a cut-off low over south-eastern Europe. The period running up to the event had been wet and the soil was already saturated before the rain event, where the worst areas got more than 200 mm over 3 days.

On 16 May, the Bosnia - Herzegovina and Serbia requested assistance through the EU Civil Protection Mechanism. Serbia declared a state of emergency on Thur 15 May.

This is a list of new items on the event:

http://www.reuters.com/article/2014/05/15/us-balkans-flood-idUSBREA4E0PA20140515

http://www.bloomberg.com/news/2014-05-15/flood-hit-serbia-seeks-aid-from-russia-eu-in-record-rain.html

http://www.bbc.co.uk/news/world-europe-27459184

The figures above show warnings on Meteoalarm for the 14 and 15 May. Red warnings where issued for rainfall in Serbia, Bosnia - Herzegovina, Austria and Slovakia.

2. Description of the event

The severe event started on 13th May with rain along a cold front and strong westerlies. From 13th throughout 14th May an upper-level low formed together with a deep surface low tracking through Bulgaria. Then the heaviest rain fell in parts of Serbia and Bosnia. At the same time severe thunderstorms developed over Bulgaria and Romania bringing hail and strong winds. A tornado or tornado-like phenomena were reported in western and northern Bulgaria damaging severely some houses. The following day the deep surface low was slowly moving to the NW bringing further heavy rain over Serbia. The upper-level cyclone also moved slightly to the NE. On 16th the the low pressure system staying over the Balkans started dissipating. In its northern fringes heavy rain was reported in Slovakia and Austria. On the 18th May in the northern fringes rainfall continued over Austria, Poland and Slovakia with heavy showers as previous days over the rest of the area within the cyclonic circulation.

The figures below show the analyses of t850 and z500 (00UTC). The rainfall was caused by a cut-off low situated over south-east Europe, bringing moist winds from east, hitting the mountains on Balkan.

The month before the event had been wet and the ground was already saturated in the area, as seen in the figures below.

Above is the radar sequence from the Romanian Met Service for a part of 14 May, showing the persistent rainfall over Serbia and parts of Romania.

The figures above show the observed precipitation for the 14,15, 16 and 17 May (06-06) and the HRES forecast (day 2-3). The forecast underestimated the precipitation in the worst affected areas.

The figure below shows the 5-day accumulation (13-18 May 00UTC). For the climatology of 5-day accumulations  (bottom, left) unfortunately no station appears over Serbia but I found some stations in Austria, Slovakia, Poland and Romania where 5-day totals exceeded 99th percentiles of the 15-year observed climate. On the plot below you can see two examples.

The table below shows the observed precipitation for Loznica (13262, 44.3N, 19.1N), Beograd (13274, 44.9N, 20.3E), Valjevo (13269, 44.2N, 19.5E) and Tuzla (14557, 44.5N, 18.7E). The precipitation is the 24-hour observed at 06UTC. The total for the 5-day period (12 May - 17 May 00UTC) was for Loznica 219 mm, Beograd 190 mm, Valjevo 199 mm and Tuzla 249 mm.

The connection to the cyclone, high wind gusts where measured, especially in the Slovakian mountains with wind gusts of more than 40 m/s. The plot below shows the maximum observed wind gusts for the 15 May.

3. Predictability

3.1 Data assimilation

3.2 HRES

The plots below show z500 and t850 forecasts from HRES, all valid at 00UTC on 15 May. The first plot is the analysis. The large-scale cut-off low was very well predicted.

The nest plots show the same forecasts but for MSLP and precipitation.

As seen above, the precipitation in the worst affected areas seems to have been underestimated.

The figures above show the precipitation verification for 14 May 06UTC - 15 May 06UTC for forecast from 12, 13 and 14 may 00UTC. Only the very last forecast captured the observed rainfall amounts.

The figures above show the precipitation verification for 15 May 06UTC - 16 May 06UTC for forecast from 13, 14 and 15 may 00UTC. Here the extreme precipitation over the orography in Austria and Slovakia was underestimated.

The plots below show the accumulated precipitation 12 May 06UTC to 17 May 06UTC for forecast with different resolutions (T1279, T639 and T319)  initialised 12 May 00UTC. For this forecast it is a clear difference between the resolutions.

The figure above shows the 3-day accumulated precipitation in the box 44N-45N, 18E-20E from different initial dates (from different resolutions). In the deterministic forecasts a hint of the extreme rainfall started to appear on 6 May. The T319 forecast was very consistent from 6 May 12UTC (probably with a large portion of change).

3.3 ENS

On 14th May in Serbia and Bosnia heavy rain between 40 and 130 mm just in 24h was recorded. From the few stations in Serbia displayed on the plot below we can see that 24-hour accumulations exceeded the 99th percentile of the observed 15-year climate. The most extreme precipitation was observed in Loznica, a station in western Serbia at the border with Bosnia where 129 mm were recorded on 14th May whilst the climate maximum is just 68.4 mm. Comparing the forecast with observations we can notice that 7-days in advance the tail of the forecast consistently predicted extreme values of the rainfall but the forecast was uncertain and therefore EFI values were positive but not high whilst SOT was positive indicating a possibility of an extreme event. Approaching the day of interest forecast CDFs became more extreme ending up with really extreme CDF in the most recent forecast on the day of the extreme rainfall. We can also notice that the forecast underestimated the rainfall totals even for the most extreme members but at the same time such an extreme rain as observed in Loznica seem locakized. All the other stations around measured rainfall amounts between 40 mm and just above 100 mm which is close to the rainfall in the most extreme ensemble members.

The plots above show the EFI for a 5-day period (12-17 May for all but the last plot where the period is shifted 1 day). The signal is present already from the longest forecast presented here (from 8 May) and gets stronger as the event approaches.

The plots above show the EFI for 14 May (the day with the heaviest precipitation in Serbia) from different initial times.

The figure above show the CDF for Beograd, valid the 14 may. The observed precipitation for that day (0-0 UTC) was 112.6 mm (station 13274). The last forecast was more extreme than the earlier, but still underestimated the rain.

3.4 Monthly forecasts

Coming soon.

3.5 Comparison with other centres

The plots below show the accumulated precipitation 12 May 06UTC to 17 May 06UTC for forecast (control) from different centre (ECMWF, UKMO, NCEP and CMC) initialised 12 May 00UTC. Most rain was produced by UKMO and CMC.

The figure above shows the 3-day accumulated precipitation in the box 44N-45N, 18E-20E from different initial dates (for control forecasts from different centres). In general UKMO seems to be able to produce most rain for the region.

The plots below show CDF for 5-day precipitation 12 May 06UTC to 17 May 06UTC for Beograd (point for 44.9N, 20.3E), for different centres obtained from the TIGGE archive. The observed value for the period was 190 mm.

The plots below show CDF for 3-day precipitation 13 May 06UTC to 16 May 06UTC for Beograd, for different centres. The observed value for the period was 174 mm. Here the results are quite mixed

The plots below show CDF for 3-day precipitation 13 May 06UTC to 16 May 06UTC for Loznica (point for 44.3N, 19.1E), for different centres. The observed value for the period was 213 mm. Here UKMO outperformed all other centres.

The plot below shows the CDF for 14 May 06UTC to 15 May 06UTC for Beograd (left 108 mm observed) and Loznica (right, 110 mm observed). On this short lead time only NCEP got high precipitation amounts for Beograd, while UKMO had a bad forecast. For Loznica CMC had the worst performance.

To conclude, the results are quite mixed comparing different centres. The outstanding results are the high precipitation for 3-days from UKMO for Loznica.

The plots below show the accumulated precipitation 14 May 06UTC to 15 May 06UTC for forecast (control) from different centre (ECMWF, UKMO, NCEP and CMC) initialised 14 May 00UTC.For being short forecasts, the results are quite different from the 4 centres.

3.6 EFAS

The figures above show the sites where the alert levels are reached in the EFAS forecasts. The colour of the circles corresponds to different return periods (purple>20 years).

The figures above show the modelled flow for river Sava, close to Beograd.

4. Experience from general performance/other cases

• The flooding in central Europe 2013. Technical Memorandum soon finished about the case.

5. Good and bad aspects of the forecasts for the event

• Good early detection of the large scale cut-off low and extreme precipitation (in EFI)
• Early response in the EFAS system
• Precipitation amounts clearly underestimated for Beograd. ECMWF worse than other centres.
• Only the very last forecast captured the amount over Beograd.

6. Additional material

Information sheet from JRC/EFAS 16 May

Analysis of the event by NOAA.