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Elbe - 850 cm level Dresden, potentially flooded areas (model 2017)
technical derivation of the perimeter areas as well as the technical homogenization from the grid data for all 0.5m and HQ(T) steps -
Elbe - 650 cm level Dresden (< HQ5), potentially flooded areas (model 2017)
technical derivation of the perimeter areas as well as the technical homogenization from the grid data for all 0.5m and HQ(T) steps -
Elbe - 500 cm level Dresden, potentially flooded areas (model 2017)
technical derivation of the perimeter areas as well as the technical homogenization from the grid data for all 0.5m and HQ(T) steps -
4.13.1 Flood 2002 (W=9.40 m) - Areas actually flooded - TSP
The map shows the risk of flooding in individual urban areas and makes it possible to prepare measures for flood prevention and defense as well as the self-precaution required... -
Elbe - 811 cm level Dresden (HQ20), potentially flooded areas (model 2017)
technical derivation of the perimeter areas as well as the technical homogenization from the grid data for all 0.5m and HQ(T) steps -
INSPIRE SN protected areas
The data set contains information on protected areas in the Free State of Saxony. Nature protection areas, nature parks, national parks, landscape protection areas, biosphere... -
Elbe - 965 cm level Dresden (HQ200), potentially flooded areas (model 2017)
technical derivation of the perimeter areas as well as the technical homogenization from the grid data for all 0.5m and HQ(T) steps -
Elbe - 700 cm level Dresden (> HQ5), potentially flooded areas (model 2017)
technical derivation of the perimeter areas as well as the technical homogenization from the grid data for all 0.5m and HQ(T) steps -
4.13.2 Area actually flooded by the Elbe flood of April 4th, 2006 - TSP
This data set can be used in accordance with the terms of use of the data license Germany - attribution - version 2.0 (http://www.govdata.de/dl-de/by-2-0). No liability is... -
Elbe - 1000 cm level Dresden, potentially flooded areas (model 2017)
technical derivation of the perimeter areas as well as the technical homogenization from the grid data for all 0.5m and HQ(T) steps
