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This table presents the definition of six management steps (site status) which characterise the management status of contaminated sites.
This table presents explanations of terms used to understand the management of contaminated sites.
The figure shows the spatial variation in nitrogen (N) surplus (left map) and phosporus (P) surplus (right map) for all agricultural land in the EU-27 in 2010 (excluding the United Kingdom and Croatia). The surplus for N is calculated as the sum of N inputs to land (fertiliser, manure and biosolids, atmospheric N deposition, biological fixation and net mineralisation) minus crop removal (offtake). The surplus for P is calculdated as the sum of P inputs to land (fertiliser, manure and biosolids, atmospheric P deposition) minus crop removal (offtake). In the two maps, regions with higher N and P surpluses are coloured in shades of orange and red (with red colours representing N surpluses over 150 kg/ha/yr and P surpluses of 12 kg/ha/yr, respectively). Regions with lower N and P surpluses are shown in shades of green. N surpluses occur in nearly all regions, and are highest in areas with high livestock densities such as the Netherlands, Belgium, Brittany in France and the Po valley region in Italy. Because P is adsorbed by the soil, P surpluses can be negative in areas where crop uptake exceeds P input and P inputs are completely eliminated (so-called P mining), such as in parts of France, Germany, Czechia, Slovakia and Hungary. The maps and the supporting information are adapted from De Vries, W., Romkens, P., Kros, H., Voogd, J.C.H., Schulte-Uebbing, L., 2022, Impacts of nutrients and heavy metals in European agriculture. Current and critical inputs in relation to air, soil and water quality, ETC-DI Report 2022/01, European Environment Agency.
Cadmium (Cd) in agricultural top soils (upper 20 cm)
The figure presents the trend in the number of remediated sites reported by countries for three different time periods.
This is the result of the 2016 questionnaire commissioned by the Eionet Thematic Group Soil, EEA and the European Commission Joint Research Centre, for the revision of the Indicator "Progress in the management of contaminated site in Europe". The 2016 results have been quality-controlled and corrected in 2022, serving as the basis for this indicator update. The Eionet Thematic Group Soil (formerly National Reference Centres Soil) consists of experts from EU Member States as well as EFTA countries, and EU candidate and potential candidate countries (EEA-38).
This data set contains current nitrogen (N) and critical phosphorus (P) concentrations and their exceedances of the current and required Nitrogen Use Efficiencies (NUE) in Europe. This data set has been compiled by the European Topic Centre on Urban, Land and Soil Systems (ETC/ULS) in the context of a study on metal and nutrient dynamics where the fate and dynamics of the most abundant heavy metals and nutrients in agricultural soils were investigated. The purpose of this study was to investigate the impacts of agricultural intensification in Europe, and to understand its environmental impact.
This interactive data viewer provides accounts of imperviousness, i.e. land surface sealing status in Europe (EEA39 and EU27+UK) for the year 2018. Sealing is measured by the high resolution (10m) dataset "Imperviousness "of the Copernicus Land Monitoring Service. The viewer facilitates the understanding and assessment of soil sealing, which can be queried by administrative region or the degree of urbanisation as well as by ecological units such as floodplains and coastal zones or protected areas. All disaggregated assessment level allows the query of countries and land cover classes as well.
The maps show the long-term average soil moisture contents (left) and the trends in soil moisture values (right), aggregated by NUTS3 regions. Soil moisture is equal to 0 when the soil is severely dry (wilting point) and equal to 1 when the soil moisture is above the field capacity. Low long-term average soil moisture values indicate areas where during the 2000-2019 period the soil moisture deficit was the biggest problem. Trends are expressed in standard deviation from the long term average. Negative trends indicate that soil moisture values show a decreasing tendency during the 2000-2019 period. Areas with lower soil moisture content together with decreasing tendency in the soil moisture are in risk of loosing their land functions of supplying ecosystem services. See also: https://www.eea.europa.eu/data-and-maps/data/data-viewers/soil-moisture and Original dataset: https://edo.jrc.ec.europa.eu/documents/factsheets/factsheet_soilmoisture.pdf
For references, please go to https://www.eea.europa.eu/themes/soil/dm or scan the QR code.
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