Corine Land Cover 1990 (CLC1990) is one of the Corine Land Cover (CLC) datasets produced within the frame the Copernicus Land Monitoring Service referring to land cover / land use status of year 1990. CLC service has a long-time heritage (formerly known as "CORINE Land Cover Programme"), coordinated by the European Environment Agency (EEA). It provides consistent and thematically detailed information on land cover and land cover changes across Europe. CLC datasets are based on the classification of satellite images produced by the national teams of the participating countries - the EEA members and cooperating countries (EEA39). National CLC inventories are then further integrated into a seamless land cover map of Europe. The resulting European database relies on standard methodology and nomenclature with following base parameters: 44 classes in the hierarchical 3-level CLC nomenclature; minimum mapping unit (MMU) for status layers is 25 hectares; minimum width of linear elements is 100 metres. Change layers have higher resolution, i.e. minimum mapping unit (MMU) is 5 hectares for Land Cover Changes (LCC), and the minimum width of linear elements is 100 metres. The CLC service delivers important data sets supporting the implementation of key priority areas of the Environment Action Programmes of the European Union as e.g. protecting ecosystems, halting the loss of biological diversity, tracking the impacts of climate change, monitoring urban land take, assessing developments in agriculture or dealing with water resources directives. CLC belongs to the Pan-European component of the Copernicus Land Monitoring Service (https://land.copernicus.eu/), part of the European Copernicus Programme coordinated by the European Environment Agency, providing environmental information from a combination of air- and space-based observation systems and in-situ monitoring. Additional information about CLC product description including mapping guides can be found at https://land.copernicus.eu/user-corner/technical-library/. CLC class descriptions can be found at https://land.copernicus.eu/user-corner/technical-library/corine-land-cover-nomenclature-guidelines/html/.
Corine Land Cover Change 1990-2000 (CHA9000) is one of the Corine Land Cover (CLC) datasets produced within the frame the Copernicus Land Monitoring Service referring to changes in land cover / land use status between the years 1990 and 2000. CHA is derived from satellite imagery by direct mapping of changes taken place between two consecutive inventories, based on image-to-image comparison. CLC service has a long-time heritage (formerly known as "CORINE Land Cover Programme"), coordinated by the European Environment Agency (EEA). It provides consistent and thematically detailed information on land cover and land cover changes across Europe. CLC datasets are based on the classification of satellite images produced by the national teams of the participating countries - the EEA members and cooperating countries (EEA39). National CLC inventories are then further integrated into a seamless land cover map of Europe. The resulting European database relies on standard methodology and nomenclature with following base parameters: 44 classes in the hierarchical 3-level CLC nomenclature; minimum mapping unit (MMU) for status layers is 25 hectares; minimum width of linear elements is 100 metres. Change layers have higher resolution, i.e. minimum mapping unit (MMU) is 5 hectares for Land Cover Changes (CHA), and the minimum width of linear elements is 100 metres. The CLC service delivers important data sets supporting the implementation of key priority areas of the Environment Action Programmes of the European Union as e.g. protecting ecosystems, halting the loss of biological diversity, tracking the impacts of climate change, monitoring urban land take, assessing developments in agriculture or dealing with water resources directives. CLC belongs to the Pan-European component of the Copernicus Land Monitoring Service (https://land.copernicus.eu/), part of the European Copernicus Programme coordinated by the European Environment Agency, providing environmental information from a combination of air- and space-based observation systems and in-situ monitoring. Additional information about CLC product description including mapping guides can be found at https://land.copernicus.eu/user-corner/technical-library/. CLC class descriptions can be found at https://land.copernicus.eu/user-corner/technical-library/corine-land-cover-nomenclature-guidelines/html/.
Corine Land Cover 1990 (CLC1990) is one of the Corine Land Cover (CLC) datasets produced within the frame the Copernicus Land Monitoring Service referring to land cover / land use status of year 1990. CLC service has a long-time heritage (formerly known as "CORINE Land Cover Programme"), coordinated by the European Environment Agency (EEA). It provides consistent and thematically detailed information on land cover and land cover changes across Europe. CLC datasets are based on the classification of satellite images produced by the national teams of the participating countries - the EEA members and cooperating countries (EEA39). National CLC inventories are then further integrated into a seamless land cover map of Europe. The resulting European database relies on standard methodology and nomenclature with following base parameters: 44 classes in the hierarchical 3-level CLC nomenclature; minimum mapping unit (MMU) for status layers is 25 hectares; minimum width of linear elements is 100 metres. Change layers have higher resolution, i.e. minimum mapping unit (MMU) is 5 hectares for Land Cover Changes (LCC), and the minimum width of linear elements is 100 metres. The CLC service delivers important data sets supporting the implementation of key priority areas of the Environment Action Programmes of the European Union as e.g. protecting ecosystems, halting the loss of biological diversity, tracking the impacts of climate change, monitoring urban land take, assessing developments in agriculture or dealing with water resources directives. CLC belongs to the Pan-European component of the Copernicus Land Monitoring Service (https://land.copernicus.eu/), part of the European Copernicus Programme coordinated by the European Environment Agency, providing environmental information from a combination of air- and space-based observation systems and in-situ monitoring. Additional information about CLC product description including mapping guides can be found at https://land.copernicus.eu/user-corner/technical-library/. CLC class descriptions can be found at https://land.copernicus.eu/user-corner/technical-library/corine-land-cover-nomenclature-guidelines/html/.
Corine Land Cover Change 1990-2000 (CHA9000) is one of the Corine Land Cover (CLC) datasets produced within the frame the Copernicus Land Monitoring Service referring to changes in land cover / land use status between the years 1990 and 2000. CHA is derived from satellite imagery by direct mapping of changes taken place between two consecutive inventories, based on image-to-image comparison. CLC service has a long-time heritage (formerly known as "CORINE Land Cover Programme"), coordinated by the European Environment Agency (EEA). It provides consistent and thematically detailed information on land cover and land cover changes across Europe. CLC datasets are based on the classification of satellite images produced by the national teams of the participating countries - the EEA members and cooperating countries (EEA39). National CLC inventories are then further integrated into a seamless land cover map of Europe. The resulting European database relies on standard methodology and nomenclature with following base parameters: 44 classes in the hierarchical 3-level CLC nomenclature; minimum mapping unit (MMU) for status layers is 25 hectares; minimum width of linear elements is 100 metres. Change layers have higher resolution, i.e. minimum mapping unit (MMU) is 5 hectares for Land Cover Changes (CHA), and the minimum width of linear elements is 100 metres. The CLC service delivers important data sets supporting the implementation of key priority areas of the Environment Action Programmes of the European Union as e.g. protecting ecosystems, halting the loss of biological diversity, tracking the impacts of climate change, monitoring urban land take, assessing developments in agriculture or dealing with water resources directives. CLC belongs to the Pan-European component of the Copernicus Land Monitoring Service (https://land.copernicus.eu/), part of the European Copernicus Programme coordinated by the European Environment Agency, providing environmental information from a combination of air- and space-based observation systems and in-situ monitoring. Additional information about CLC product description including mapping guides can be found at https://land.copernicus.eu/user-corner/technical-library/. CLC class descriptions can be found at https://land.copernicus.eu/user-corner/technical-library/corine-land-cover-nomenclature-guidelines/html/.
European Digital Elevation Model for European Base Layer within BESTMAP (EU_DEM v1.1; Copernicus Land Monitoring Service 2016).
Das Projekt "H2020-EU.2.1. - Industrial Leadership - Leadership in enabling and industrial technologies - (H2020-EU.2.1. - Führende Rolle der Industrie - Führende Rolle bei grundlegenden und industriellen Technologien), Evolution of Copernicus Land Services based on Sentinel data (ECoLaSS)" wird/wurde gefördert durch: Kommission der Europäischen Gemeinschaften Brüssel. Es wird/wurde ausgeführt durch: GAF AG.The Copernicus programme, coordinated and managed by the European Commission, delivers environmental information (largely based on Earth Observation satellite data) in the form of Copernicus Services, addressing six thematic areas: Land, Marine, Atmosphere, Climate Change, Emergency Management and Security. The new Sentinel satellites, recently extended through the successful launch of Sentinel-3, will deliver an unprecedented volume of EO data in high spatial, radiometric and temporal resolution, providing a huge potential for monitoring applications within the Land Monitoring Service - at continental and global scale. The synergistic use of Sentinel-1/2/3 opens up the possibility for new applications, such as the use of time series in the area of Land Monitoring. The ECoLaSS project (Evolution of Copernicus Land Services based on Sentinel data) aims to develop methods and algorithms for pre-operational prototypes improving and developing future specific Copernicus Land services. These prototypes, representing new or improved Copernicus Land Cover and Land Use products, will be demonstrated by means of test/demonstrations sites distributed over Europe and Africa, representing multiple bio-geographic regions and biomes. Prototypes will be designed with high spatial and thematic accuracy, in a timely manner for a pan-European operational Roll-out with the potential for global applications. ECoLaSS will promote the innovation potential of new land monitoring services and applications and might thus contribute to a growing 'Copernicus Economy' by boosting (new) Copernicus CORE Land Services and value-added applications (Downstream Services). It is expected, that such new services will bring new opportunities with a wide range of dedicated applications to the market from 2020 onwards and thus significantly contribute to a positive evolution of the Copernicus Land services.
Das Projekt "H2020-EU.2.1. - Industrial Leadership - Leadership in enabling and industrial technologies - (H2020-EU.2.1. - Führende Rolle der Industrie - Führende Rolle bei grundlegenden und industriellen Technologien), Sentinels Synergy for Agriculture (SENSAGRI)" wird/wurde gefördert durch: Kommission der Europäischen Gemeinschaften Brüssel. Es wird/wurde ausgeführt durch: Universidad Valencia.In the emerging Copernicus Earth monitoring era, Europe provides Earth Observation (EO) data from Sentinel-1 (S1) and Sentinel-2 (S2) on a free and open data policy basis. In response of the EO Work programme 'EO-3-2016: Evaluation of Copernicus Services', Sentinels Synergy for Agriculture (SENSAGRI) aims to exploit the unprecedented capacity of S1 and S2 to develop an innovative portfolio of prototypes agricultural monitoring services. When used alone either optical or radar sensors allow the mapping of crop types. However more robust, accurate, frequently updated and comprehensive crop maps are expected from the seldom exploited synergy of both types of measurements. The same holds when dealing with crop status, health and stresses. Experimental studies have demonstrated that fusion of optical and radar data opens up prospects for enhanced monitoring capabilities. SENSAGRI will exploit the synergy of optical and radar measurements to develop three prototype services capable of near real time operations: (1) surface soil moisture (SSM), (2) green and brown leaf area index (LAI) and (3) crop type mapping. These prototypes shall provide a baseline for advanced services that can boost the competitiveness of the European agro-industrial sector. SENSAGRI proposes four advanced proof-of-concept services: (i) yield/biomass, (ii) tillage change, (iii) irrigation and (iv) advanced crop maps. The algorithms will be developed and validated in four European agricultural test areas in Spain, France, Italy and Poland, which are representative of the European crop diversity, and their usefulness demonstrated in at least two non-European countries. In order to refine the specifications of the products and to iteratively assess the services, actors of the agricultural sector will be involved using a Living Lab approach. The combination of user-centered approach and of state-of-the-art algorithms will establish a sound foundation for deciding of a new Copernicus land service.
CORINE Land Cover is a pan-European land cover inventory with 44 classes. Initiated in 1985 (the 1990 reference year) the inventory is available for the 1990, 2000, 2006, 2012 and 2018 reference years including change layers 1990-2000, 2006-2012 and 2012-2018. CORINE Land Cover is part of the European Union’s Copernicus Land Monitoring Service.
For the provision of land monitoring services within COPERNICUS, a consistent, stable, sufficiently detailed boundary layer is required at EEA, which provides a “land mask” for the area that needs to be monitored. This metadata refers to the National Boundary layer both in vector formats (GDB, SHP) and in raster format (TIFF) at 10, 20 and 100m resolution, of each of the EEA member and cooperating countries as well as the United Kingdom (former EEA39). This is a product derived from the EEA 39 Border Expert product, generalised to a scale of about 1:1 000 000 by applying a buffer of 250m and selecting the outline. Each country boundary has been projected to its respective national system(s), which are specified together with the EEA. The Border Expert product is based on the EU-Hydro Coastline Version 3 from EEA, the EEA coastline for analysis Version 2, the EBM GISCO Hybrid Layer from EEA, the EuroGeographics EuroBoundary Map Version 12, the “Water and Wetness High Resolution Layer 2015” from EEA and the JRC-Global Surface Water Occurrence layer. The production of this Border Product was coordinated by the European Environment Agency in the frame of the EU Copernicus programme.
Das Projekt "Unterstützung der nationalen Copernicus Fachkoordinatoren für den Landdienst und Verankerung von Copernicus im Umweltbundesamt (COPUBA)" wird/wurde gefördert durch: Bundesministerium für Digitales und Verkehr. Es wird/wurde ausgeführt durch: Umweltbundesamt.Ziel des Vorhabens ist die Unterstützung der Aktivitäten des nationalen Copernicus Fachkoordinators für den Landdienst (einschl. der In Situ Komponente) z. B. durch die Verbesserung des Informationsflusses zwischen Nutzern und Dienstleistern, sowie europäischer und nationaler Ebene; Sicherstellung und Einbeziehung von deutschen Nutzeranforderungen auf der europäischen und nationalen Ebene; Szenarienentwicklung zu neuen nationalen Diensten; Organisation und Durchführung von Workshops, Informations- und Schulungsveranstaltungen und Öffentlichkeitsarbeit. Ferner soll durch eigene Pilotvorhaben eine Verankerung von Copernicus im Umweltbundesamt (UBA) erreicht werden. Es soll eine Einbindung der Copernicus Daten und Dienste in die UBA-eigene IT-Infrastruktur bzw. in die Geschäftsprozesse erreicht werden. Bereits laufende oder geplante Projekte wie Corine Land Cover, Satellitenfernerkundung (SFE) in der Antarktis oder die Ermittlung von Indikatoren der deutschen Anpassungsstrategie an den Klimawandel mit Hilfe der SFE sollen unterstützt und begleitet werden. Die Unterstützung des nationalen Fachkoordinators für den Copernicus Landdienst erfolgt z. B. durch Teilnahme an den Sitzungen der nationalen Fachkoordinatoren, Mitarbeit bei der Öffentlichkeitsarbeit, der Informationsvermittlung von der europäischen bis zur kommunalen Ebene sowie der Vorbereitung und Durchführung von Workshops zum Thema Landdienst. Die Verankerung von Copernicus Daten und Diensten im Umweltbundesamt erfolgt durch interne Informations- und Schulungsveranstaltungen und die fachliche Unterstützung bei Forschungsvorhaben mit SFE-Hintergrund und durch die Initiierung und Begleitung eigener Pilotprojekte.
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