Europe

Airborne LIDAR measurements principally lead to the highly accurate 3D reconstruction of the landscape and its features. By mounting LIDAR measurement units on an aircraft large areas can be measured relatively quickly and cost effectively. Airborne LIDAR measurements can then be used to reconstruct a bare earth landscape as well as featured landscape which includes vegetation, buildings and other. These landscape reconstructions can then be used for a number of applications such as archeology, water and coastline management, farming, forestry, geology and conservation.

The proposed analysis was relevant to mitigation of droughts and floods. The other aim was to preserve the biodiversity of habitats that are strongly related to water resources, including habitats and species of a great natural value. Measures categorised as small retention aims to cause a slowdown of surface water runoff, rainwater outflow, and subsurface flow. While planning for undertaking such measures, measures aiming at retention of water within the catchment by increasing soil retention, use of aquatic ecosystems, old meanders and ponds should be prioritised.

Pregolya and the Neman rivers are heavily affected by anthropogenic pressures in all four countries. The lack of basin wide information on pressures and current ecological and chemical status of water bodies is an important issue for the sustainable management in the region. Due to the political situation in the region the sustainable transboundary management of river basins was limited. So far the planning of water resources was usually based only on national data.

The World Meteorological Organization (WMO) and Global Water Partnership (GWP) have launched a joint Integrated Drought Management Programme (IDMP) in March 2013, to improve monitoring and prevention of one of the world’s greatest natural hazards. GWP is responding to the climate change challenge through a portfolio of programmes and projects aimed at building climate resilience through better water management (Kindler and Thalmeinerova 2012).

The project was set up following the flooding of 2010, when Hungary experienced a record rainfall in May and June and consequently a nation-wide flood came about on smaller and larger rivers. The most affected areas and settlements were in the Sajó valley. An approximately 100 year return period flood wave arrived to the Hungarian border in June 2010 that increased to a once-in-200 year flood on the lower parts of the river.

On October 4, 2010 the embankment of the red mud reservoir failed and released a mixture of 600-700 thousand cubic meters of red mud and water. The mud, a byproduct of refining aluminium from bauxite ore, was dangerously alkaline, extremely salty and contained potentially toxic metals like chromium and vanadium. Lower parts of the settlements of Kolontár, Devecser and Somlóvásárhely villages were flooded. Ten people died, and another 120 people were injured. The red mud flooded 800 hectares of surrounding areas.

The current study investigates the change of water supply in the Azov Basin, in particular in the Tsimlyansk reservoir under different land use and climate change scenarios by 2050.