How to cite: I. Marinică, M. Bocioacă, Simona Rusu (2021) Meteorological situations that generated exceptional discharges along the Danube River. (Case study- the situation of April 2006). Risks and Catastrophes Journal, 29(2), P.73-90. DOI: 10.24193/RCJ2021_15
METEOROLOGICAL SITUATIONS THAT GENERATED EXCEPTIONAL DISCHARGES ALONG THE DANUBE RIVER
(CASE STUDY- THE SITUATION OF APRIL 2006)ION MARINICĂ, MIHAI BOCIOACĂ, SIMONA RUSU
Abstract. Meteorological situations that generated exceptional discharges along the Danube River. (Case study- the situation of April 2006). For Europe, the undisputed importance of the Danube can be rendered by some general data: Its hydrographic basin surface exceeds 817000 km2, i.e. about 10% of that of the continent, its length is 2857 km and its mean multiannual discharge is about 6500 m3/s, thus ranking second to Volga river. Romania is the country with the largest surface situated within Danube’s basin (97.4%), representing 29% of Danube’s hydrographic basin. The water resources of the Danube in Bazias section amount to 173 billion m3, 30 billion m3 of which are technically usable resources.Our analysis aimed at determining those complex meteorological situations at the European continent level that triggered exceptional discharges along the Danube river, resulting in severe flooding, causing in turn heavy damages, fatalities, population evacuations and considerable rehabilitation costs. A complex analysis was performed, of statistical-synoptic type and those complex meteorological situations were identified that determined the occurrence of such disasters. Discharges and levels of the Danube were used along the whole measuring period, data from the archive of the National Meteorological Administration, and data, map and image archives from Wetterzentrale (Kartenarchiv, NCEP, NCAR, AVN etc.). The complex meteorological situations at the level of the European continent that triggered exceptional discharges along the Danube correlate with intense cyclonic activity, of both the Icelandic and the Mediterranean cyclones, with the negative phase of the North-Atlantic Oscillation and with decreasing or minimum solar activity (according to data from NOAA's Space Environment Center). The most disastrous floods occurred in the spring of 2006. The paper is important for meteorologists, in their weather forecasting activity, for hydrologists, in their hydrological forecasting and for the institutions involvedin flood management.
Key-words: precipitation excess, rainy periods, floods, maximum discharges along the Danube river.
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