The WMS GK2000 Geologie (INSPIRE) represents the surface geology of Germany and adjacent areas on a scale of 1:2,000,000. According to the Data Specification on Geology (D2.8.II.4_v3.0) the geological map provides INSPIRE-compliant data. The WMS GK2000 Geologie (INSPIRE) contains layers of the geologic units (GE.GeologicUnit), faults (GE.GeologicFault) and marginal position of the ice shield as well as the impact craters Nördlinger Ries and Steinheimer Becken (GE. GeomorphologicFeature) displayed correspondingly to the INSPIRE portrayal rules. The geologic units are represented graphically by stratigraphy (GE.GeologicUnit.AgeOfRocks) and lithology (GE.GeologicUnit.Lithology). For different geochronologic minimum and maximum ages, Upper Devonian - Permian, the portrayal is defined by the colour of the geochronologic minimum age (olderNamedAge). In case of the geologic units the user obtains detailed information via the getFeatureInfo request on the lithology, stratigraphy (age) and genesis (event environment and event process).
The WMS GK2750 Geology (INSPIRE) represents the surface geology of Germany on a scale of 1:2,750,000. According to the Data Specification on Geology (D2.8.II.4_v3.0) the geological map provides INSPIRE-compliant data. The WMS GK2750 Geology (INSPIRE) contains layers of the geologic units (GE.GeologicUnit), faults (GE.GeologicFault) and marginal position of the ice shield and the impact crater Nördlinger Ries (GE. GeomorphologicFeature) displayed correspondingly to the INSPIRE portrayal rules. The geologic units are represented graphically by stratigraphy (GE.GeologicUnit.AgeOfRocks) and lithology (GE.GeologicUnit.Lithology). For different geochronologic minimum and maximum ages, e.g. Upper Devonian - Permian, the portrayal is defined by the colour of the geochronologic minimum age (olderNamedAge). In case of the geologic units the user obtains detailed information via the getFeatureInfo request on the lithology, stratigraphy (age) and genesis (event environment and event process).
The WMS GK1000 (INSPIRE) represents the surface geology of Germany and adjacent areas on a scale of 1:1,000,000. According to the Data Specification on Geology (D2.8.II.4_v3.0) the geological map provides INSPIRE-compliant data. The WMS GK1000 (INSPIRE) contains layers of the geologic units (GE.GeologicUnit), faults (GE.GeologicFault) and marginal position of the ice shield (GE. NaturalGeomorphologicFeature) displayed correspondingly to the INSPIRE portrayal rules. The geologic units are represented graphically by stratigraphy (GE.GeologicUnit.AgeOfRocks) and lithology (GE.GeologicUnit.Lithology). For different geochronologic minimum and maximum ages, e.g. Carboniferous - Permian, the portrayal is defined by the color of the geochronologic minimum age (olderNamedAge). The portrayal of the lithology is defined by the rock or rock group representing the main part of the lithological composition of the geologic unit. In case of the geologic units the user obtains detailed information via the getFeatureInfo request on the lithology, stratigraphy (age) and genesis (event environment and event process).
The GK2000 Geologie (INSPIRE) represents the surface geology of Germany on a scale of 1:2,000,000. According to the Data Specification on Geology (D2.8.II.4_v3.0) the content of the geological map is stored in three INSPIRE-compliant GML files: GK2000_Geology_GeologicUnit.gml contains the geologic units, GK2000_Geology_GeologicStructure.gml comprises the faults and GK2000_Geology_GeomorphologicFeature.gml represents the marginal position of the ice shield as well as the impact craters Nördlinger Ries and Steinheimer Becken. The GML files together with a Readme.txt file are provided in ZIP format (GK2000_Geologie-INSPIRE.zip). The Readme.text file (German/English) contains detailed information on the GML files content. Data transformation was proceeded by using the INSPIRE Solution Pack for FME according to the INSPIRE requirements.
The WMS GÜK250 (INSPIRE) represents the surface geology of Germany on a scale of 1:250,000. In general, the term “surface geology” refers to geologic formations up to a depth of two meters. However, particularly in the south of Germany, considerable deviations of this concept exist and thicknesses of a couple of hundred meters may be displayed. According to the Data Specification on Geology (D2.8.II.4_v3.0) the geological map provides INSPIRE-compliant data. The GÜK250 (INSPIRE) contains a base layer and an overlay layer which usually represents thin Quaternary deposits. The WMS GÜK250 (INSPIRE) contains correspondingly two layers for the geologic units (GE.GeologicUnit.BaseLayer and GE.GeologicUnit.OverlayLayer). Additionally the WMS comprises layers representing the faults (GE.GeologicFault), marginal position of the ice shield (GE. NaturalGeomorphologicFeature) and quartz veins (GE.GeologicUnit.QuartzVein). The layers are mostly displayed according to the INSPIRE portrayal rules. The geologic units are represented graphically by stratigraphy (GE.GeologicUnit.BaseLayer.AgeOfRocks and GE.GeologicUnit.OverlayLayer.AgeOfRocks, stored in group layer GE.AgeOfRocks) and lithology (GE.GeologicUnit.BaseLayer.Lithology and GE.GeologicUnit.OverlayLayer.Lithology, stored in group layer GE.Lithology). Because INSPIRE doesn’t provide portrayal rules for the genesis (event process und event environment), this display mode is not available compared to the original WMS GÜK250. In case of different geochronologic minimum and maximum ages, e.g. Pleistocene - Holocene, the portrayal is defined by the colour of the geochronologic minimum age (olderNamedAge). The portrayal of the lithology is defined by the rock or rock group representing the main part of the petrographic composition of the geologic unit. For the portrayal of different petrographic main components the corresponding colours are superimposed in a dot pattern. Analogous to the original WMS GÜK250 the petrographic content is represented graphically according to the generic terms of the main components, e.g. clastic sedimentary rock, pure carbonate sedimentary rock or metamorphic rock. In case of the geologic units the user obtains detailed information on the stratigraphy, lithology and genesis via the getFeatureInfo request.
The GK1000 (INSPIRE) represents the surface geology of Germany and adjacent areas on a scale of 1:1,000,000. According to the Data Specification on Geology (D2.8.II.4_v3.0) the content of the geological map is stored in three INSPIRE-compliant GML files: GK1000_GeologicUnit.gml contains the geologic units, GK1000_GeologicStructure.gml comprises the faults and GK1000_NaturalGeomorphologicFeature.gml represents the marginal position of the ice shield. The GML files together with a Readme.txt file are provided in ZIP format (GK1000-INSPIRE.zip). The Readme.text file (German/English) contains detailed information on the GML files content. Data transformation was proceeded by using the INSPIRE Solution Pack for FME according to the INSPIRE requirements.
The GÜK250 (INSPIRE) represents the surface geology of Germany on a scale of 1:250,000. According to the Data Specification on Geology (D2.8.II.4_v3.0) the content of the geological map is stored in five INSPIRE-compliant GML files: GUEK250_GeologicUnit_BaseLayer.gml and GUEK250_GeologicUnit_OverlayLayer.gml contain the geologic units, GUEK250_GeologicStructure.gml comprises the faults, GUEK250_NaturalGeomorphologicFeature.gml represents the marginal position of the ice shield and GUEK250_GeologicUnit_QuartzVein.gml includes the quartz veins. The GML files together with a Readme.txt file are provided in ZIP format (GUEK250-INSPIRE.zip). The Readme.text file (German/English) contains detailed information on the GML files content. Data transformation was proceeded by using the INSPIRE Solution Pack for FME according to the INSPIRE requirements.
The GK2750 Geology (INSPIRE) represents the surface geology of Germany and adjacent areas on a scale of 1:2,750,000. According to the Data Specification on Geology (D2.8.II.4_v3.0) the content of the geological map is stored in three INSPIRE-compliant GML files: GK2750_GeologicUnit.gml contains the geologic units, GK2750_GeologicStructure.gml comprises the faults and GK2750_NaturalGeomorphologicFeature.gml represents the marginal position of the ice shield and the impact crater Nördlinger Ries. The GML files together with a Readme.txt file are provided in ZIP format (GK2750-INSPIRE.zip). The Readme.text file (German/English) contains detailed information on the GML files content. Data transformation was proceeded by using the INSPIRE Solution Pack for FME according to the INSPIRE requirements.
The European Marine Observation and Data Network (EMODnet) consists of more than 100 organisations assembling marine data, products and metadata to make these fragmented data resources more available to public and private users relying on quality-assured, standardised and harmonised marine data which are interoperable and free of restrictions on use. EMODnet is currently in its fourth phase. BGR participates in the EMODnet Geology theme and is coordinating the “seafloor geology” work package from the beginning. In cooperation with the project partners BGR compiles and harmonises GIS data layers on the topics geomorphology, pre-Quaternary and Quaternary geology and provides those, based on INSPIRE principles, via the EMODnet Geology portal https://www. emodnet-geology.eu/map-viewer/. These map layers present the pre-Quaternary and Quaternary sea-floor geology and Geomorphology of the European Seas, semantically harmonized based on the INSPIRE data specifications including the terms for lithology, age, event environment, event process and geomorphology. The data are compiled from the project partners, the national geological survey organizations of the participating countries. The data set represents the most detailed available data compilation of the European Seas using a multiresolution approach. Data completeness depending on the availability of data and actual mapping campaigns. This open and freely accessible product was made available by the EMODnet Geology project (https://www.emodnet-geology.eu/), implemented by EMODnet Geology Phase IV partners, and funded by the European Commission Directorate General for Maritime Affairs and Fisheries. These data were compiled by BGR from the EMODnet IV Geology partners. All ownership rights of the original data remain with the data originators, who are acknowledged within the attribute values of each map feature.
The European Marine Observation and Data Network (EMODnet) consists of more than 100 organisations assembling marine data, products and metadata to make these fragmented data resources more available to public and private users relying on quality-assured, standardised and harmonised marine data which are interoperable and free of restrictions on use. EMODnet is currently in its fourth phase. BGR participates in the EMODnet Geology theme and is coordinating the “seafloor geology” work package from the beginning. In cooperation with the project partners BGR compiles and harmonises GIS data layers on the topics geomorphology, pre-Quaternary and Quaternary geology and provides those, based on INSPIRE principles, via the EMODnet Geology portal https://www.emodnet-geology.eu/map-viewer/. These map layers present the pre-Quaternary and the Quaternary sea-floor geology and Geomorphology of the European Seas, semantically harmonized based on the INSPIRE data specifications for Geology, including the terms for lithology, age, event environment, event process. The data are compiled from the project partners, the national geological survey organizations of the participating countries. The data set represents the most detailed available data compilation of the European Seas using a multi-resolution approach. Data completeness depending on the availability of data and actual mapping campaigns. This open and freely accessible product was made available by the EMODnet Geology project (https://www.emodnet-geology.eu/), implemented by EMODnet Geology Phase IV partners, and funded by the European Commission Directorate General for Maritime Affairs and Fisheries. These data were compiled by BGR from the EMODnet IV Geology partners. All ownership rights of the original data remain with the data originators, who are acknowledged within the attribute values of each map feature.