H

A landslide is the down slope movement of terrain due to a failure of the material composing the landscape. Landslides may be induced by physical processes such as earthquakes or caused by human interference on slope stability. Landslides, mudflows and other mass movement events are both erosional and depositional events (EM).

When river banks are overtopped through rising flood waters, the results can be devastating. In the last decade Europe has experienced a number of unusually long-lasting rainfall events that produced severe floods, For example, in the Netherlands, Belgium, France and Germany (1993, 1995), the Czech Republic, Poland and Germany (1997), in northern Italy (1994, 2000) and in the UK (1998, 2000, 2004). The trend seems to be continuing.

According to the World Meteorological Office review of the year 2001, the 24-months period ending in March 2001 was the wettest in the 236-year time series of precipitation in England and Wales. From October 2000 to March 2001, precipitation was also exceptional in the Bretagne (France), where the normal annual rainfall was exceeded by 20 to 40% in parts of the region. A third consecutive year of severe flooding occurred in Hungary and parts of Eastern Europe in March 2001 where the Tisza river reached its highest level since 1888 while two weeks of heavy rain during in June 2001 produced Poland’s worst flood since 1997. In August 2002 devastating and costly floods in the Elbe and the Danube rivers were observed with further extreme precipitation and flooding in southern France, where almost half of the normal annual rainfall fell in just one day!

Prolonged periods of moderate rainfall can lead to “plain floods” that build up over days and can affect large areas, whereas short-lasting but very intense rainfalls cause “flash floods”, that can develop within a few hours only, are very localised, and because of their sudden development and violence represent a particular problem for civil protection.

According to climate modellers, the probability, frequency, duration, intensity (seriousness) of extreme weather events (extreme temperatures and rainfall) are increasing and will be more common in the future. If these weather features are combined with hilly landscapes, a lack of permanent and dense vegetation cover, inefficient land management practices and soils with unfavourable physical properties, then increased extreme soil moisture situations, be it either waterlogging or drought, may develop. The former will lead to higher surface runoff and flood events while the latter will cause crop failure, reduced drinking water supplies and a breakdown of soil properties. The impact of such events depends greatly on the physical and hydro-physical properties of soils.

The main hydro-physical characteristics of soils include particle-size distribution, saturation percentage, bulk density, aggregate state and stability, porosity, pore-size distribution, water storage capacity, field capacity, wilting percentage, available moisture range, infiltration rate, permeability, saturated and unsaturated hydraulic conductivity. The values of these parameters for a large number of European soils are stored in the HYPRES database (see Page 99).

Floods and landslides are natural hazards intimately related to soil and land management. Floods and mass movements of soil cause erosion, pollution and loss of soil resources with often catastrophic impacts for human activities and lives, damage to buildings and infrastructures and loss of agricultural land. Floods can, in some cases, result from soil not performing its role of controlling the water cycle due to compaction or sealing.

Such events are occurring more frequently in areas with highly erodable soil, steep slopes and intense precipitation, such as the Alpine and the Mediterranean regions. In Italy more than 50% of the territory has been classified as having a high or very high hydro-geological risk, affecting 60% of the population or 34 million inhabitants. More than 15% of the territory and 26% of the population are subjected to a very high risk. The impacts on population and the economic damage are relevant. In Italy over the last 20 years, floods and landslides had an impact on more than 70 000 people and caused economic damage of at least 11 billion euro.

This photograph shows the power of a large flood in the Ossola Valley of northwest Italy. A torrential and prolonged rain storm in 2000 completely destroyed one of the main highways between Italy and Switzerland (RJ).

The main objective of efficient soil moisture control is to

increase the water storage within the soil in a form that is available to plants without any unfavourable environmental consequences. Such measures should:

• reduce evaporation, surface runoff and filtration losses of water (atmospheric precipitation and irrigation);
• increase the available moisture range of the soil (to help infiltration into the soil, increase the water storage capacity, reduce the immobile moisture content);
• improve drainage conditions of the soil profile (reduce over-saturation and waterlogging).

It is important to stress that most of these measures are also important elements of water conservation and environment protection. What is good for the soil is good for the land.