1.129821699471368info:srw/schema/1/example-v1.1xml:ISO19139:Fde.dwd.mosmix.78344engutf8datasetKai-Thorsten WirtDeutscher WetterdienstRTH FOCAL POINT+49 (0) 69 8062-2546Frankfurter Straße 135Offenbach63067Germanygisc@dwd.dehttp://www.dwd.depointOfContact2018-04-25T00:00:00ZWMO Core Metadata Profile of ISO 19115 (WMO Core), 2003/Cor.1:2006 (ISO 19115), 2007 (ISO/TS 19139)1.3WGS 84World Geodetic Systemhttp://www.wmo.int/pages/prog/wis/2012/metadata/version_1-3/WMO Core Profile version 1.3Model Output Statistics for CIENFUEGOS (78344)2018-04-25creation2018-04-25publication2018-04-25revisionde.dwd.mosmix.78344http://wis.wmo.intKai-Thorsten WirtDeutscher WetterdienstRTH FOCAL POINT+49 (0) 69 8062-2546Frankfurter Straße 135Offenbach63067Germanygisc@dwd.dehttp://www.dwd.dedistributordocumentDigitalThe dot notation recommended by WMO-CBS IPET-MDRD is used to build the code identifierDWD’s fully automatic MOSMIX product optimizes and interprets the forecast calculations of the NWP models ICON (DWD) and IFS (ECMWF), combines these and calculates statistically optimized weather forecasts in terms of point forecasts (PFCs). Thus, statistically corrected, updated forecasts for the next ten days are calculated for about 5400 locations around the world. Most forecasting locations are spread over Germany and Europe. MOSMIX forecasts (PFCs) include nearly all common meteorological parameters measured by weather stations.
For further information please refer to:
[in German: https://www.dwd.de/DE/leistungen/met_verfahren_mosmix/met_verfahren_mosmix.html ]
[in English: https://www.dwd.de/EN/ourservices/met_application_mosmix/met_application_mosmix.html ]NC/DCPCKai-Thorsten WirtDeutscher WetterdienstFocal PointT+49 69 8062 2546Frankfurter Straße 135OFFENBACH63067Germanygisc@dwd.deoriginatorcontinualdatasetThe details of the update frequence are described in the temporalElement03091521temporalDewpointForecastMOSMaximum TemperatureMinimum TemperatureModel Output StatisticsPast weatherPrecipitationPresent weatherTemperatureTotal cloud coverVisibilityWindWind gustthememeteorologythemeWMO_CategoryCode2012-06-27revisionCodelists for description of metadata datasets compliant with the WMO Core
Metadata Profile version 1.3 [http://wis.wmo.int/2013/codelists/WMOCodeLists.xml]2012-06-27revisionWMO_CategoryCodeWMO Secretariatpublisher78344CIENFUEGOSCubaplaceMeteorological geographical featuresGEMET - INSPIRE themes, version
1.02008-06-01publicationDewpointForecastMaximum TemperatureMinimum TemperaturePast weatherPrecipitationPresent weatherTemperatureVisibilityWindWind gustcloud coverdataParamWMOEssentialotherRestrictionsotherRestrictionsWMOEssentialengutf8climatologyMeteorologyAtmosphereThe product/data covers the following region/bounding box: south=22.085, north=22.175, west=-80.495, east=-80.405-80.495-80.40522.08522.1752018-04-25Z: Model Output Statistics for CIENFUEGOS (78344)thematicClassificationkmzhttp://www.wmo.int/pages/prog/www/WMOCodes.htmlhttps://gisc.dwd.de/angular-frontend/xmlProductDetails;pid=de.dwd.mosmix.78344httpGISC Offenbach, Deutscher WetterdienstWMO Information System, download products/data through GISC Offenbach, Deutscher WetterdienstdatasetINSPIRE Data Specification on Meteorological geographical features2010-12-08publicationSee the referenced specificationtrueHigh data quality controlled according to the procedures of the WISThis metadata record was created automatically as a representation of the bulletin
declaration found in WMO # 9 Volume C1. Other references were used in the process, including WMO
References such as WMO # 9 Volume A, WMO # 386 Manual on the GTS and WMO # 306 Manual on Codes. Other
elements of information were also collected or created for the purpose of the GTS Metadata Generation.
This work, as well as the creation of the representation of the WMO references was done by Deutscher
Wetterdienst (DWD) on a "best effort" basis.
]]>
1info:srw/schema/1/example-v1.1xml:ISO19139:Fde.pangaea.dataset778344engdatasetPANGAEAinfo@pangaea.dehttps://www.pangaea.de/informationpointOfContact2024-01-23T15:50:00Zhttps://doi.pangaea.de/10.1594/PANGAEA.778344Meteorological synoptical observations from station Lindenberg (2005-12)2012-03-27T16:30:47publicationhttps://doi.org/10.1594/PANGAEA.778344Behrens, KlausKlaus.Behrens@dwd.deauthorPANGAEAinfo@pangaea.dehttps://www.pangaea.de/informationpublisherMeteorologisches Observatorium PotsdamoriginatortableDigitalcompletedBehrens, KlausKlaus.Behrens@dwd.deprincipalInvestigatorBSRNBaseline Surface Radiation NetworkthemePANGAEA Project List1995-01-01creationPANGAEAinfo@pangaea.dehttps://www.pangaea.de/informationpointOfContactcopyrightcopyrightBSRN-1.0: Baseline Surface Radiation Network License 1.0textTableenggeoscientificInformation14.12214.12252.2152.212005-12-01T00:00:002005-12-31T23:00:00DATE/TIMEthematicClassificationTotal cloud amountphysicalMeasurementVisual observationcodecodeWind directionphysicalMeasurementAnemometerdegdegWind speedphysicalMeasurementAnemometerm/sm/sTemperature, airphysicalMeasurementThermometer°C°CDew/frost pointphysicalMeasurementHygrometer°C°CStation pressurephysicalMeasurementBarometerhPahPaPressure, atmosphericphysicalMeasurementBarometerhPahPaPresent weatherphysicalMeasurementVisual observationcodecodePast weather1physicalMeasurementVisual observationcodecodePast weather2physicalMeasurementVisual observationcodecodeAmount of cloud layer 1physicalMeasurementVisual observationcodecodeCloud layer 1physicalMeasurementVisual observationcodecodeCloud base height code, layer 1physicalMeasurementVisibility sensorcodecodeAmount of cloud layer 2physicalMeasurementVisual observationcodecodeCloud layer 2physicalMeasurementVisual observationcodecodeCloud base height code, layer 2physicalMeasurementVisibility sensorcodecodeAmount of cloud layer 3physicalMeasurementVisual observationcodecodeCloud layer 3physicalMeasurementVisual observationcodecodeCloud base height code, layer 3physicalMeasurementVisibility sensorcodecodeCodethematicClassificationYYGG9 IIiii Nddff 1SnTTT 2SnTdTdTd 3P0P0P0 4PPPP 7wwW1W2 8NhClCmCh 333 8NsChshs 8NsChshs 8NsChshstext/tab-separated-valuesunknownhttps://doi.pangaea.de/10.1594/PANGAEA.778344?format=textfiledownloaddatasetThe data set was checked for completeness, correctness, and consistency of metainformation. Validity of used methods was checked and - if applicable - precision and range of data.EVENT LABEL: LIN (Lindenberg) * LATITUDE: 52.210000 * LONGITUDE: 14.122000 * DATE/TIME: 1994-09-01T00:00:00 * ELEVATION: 125.0 m * LOCATION: Germany * METHOD/DEVICE: Monitoring stationBSRN station no: 12; Surface type: cultivated; Topography type: hilly, rural; Horizon: doi:10.1594/PANGAEA.669521; Station scientist: Stefan Wacker (Stefan.Wacker@dwd.de)1994-09-01T00:00:00
]]>
2info:srw/schema/1/example-v1.1xml:ISO19139:Fde.pangaea.dataset678344engdatasetPANGAEAinfo@pangaea.dehttps://www.pangaea.de/informationpointOfContact2024-01-23T15:04:46Zhttps://doi.pangaea.de/10.1594/PANGAEA.678344Ultra-violet measurements from station Payerne (1998-10)2008-01-18T17:31:44publicationhttps://doi.org/10.1594/PANGAEA.678344Heimo, Alainahe@sap.sma.chauthorPANGAEAinfo@pangaea.dehttps://www.pangaea.de/informationpublisherSwiss Meteorological Agency, PayerneoriginatortableDigitalcompletedHeimo, Alainahe@sap.sma.chprincipalInvestigatorBSRNBaseline Surface Radiation NetworkthemePANGAEA Project List1995-01-01creationPANGAEAinfo@pangaea.dehttps://www.pangaea.de/informationpointOfContactcopyrightcopyrightBSRN-1.0: Baseline Surface Radiation Network License 1.0textTableenggeoscientificInformation6.94226.942246.812346.81231998-10-01T00:00:001998-10-31T23:59:002.02.0UV-b values were originally given in mW/m² and then erroneously imported in W/m² using the same numbers. The numbers have been corrected (divided by 1000) on 2017-01-27. UV reflect values might still contain errors.DATE/TIMEthematicClassificationHEIGHT above groundphysicalMeasurementmmUltraviolet-a globalphysicalMeasurementUV-Biometer, Solar Light 501A, SN 3548, WRMC No. 21030W/m**2W/m**2Ultraviolet-a global, standard deviationphysicalMeasurementUV-Biometer, Solar Light 501A, SN 3548, WRMC No. 21030W/m**2W/m**2Ultraviolet-a global, minimumphysicalMeasurementUV-Biometer, Solar Light 501A, SN 3548, WRMC No. 21030W/m**2W/m**2Ultraviolet-a global, maximumphysicalMeasurementUV-Biometer, Solar Light 501A, SN 3548, WRMC No. 21030W/m**2W/m**2Ultraviolet-b globalphysicalMeasurementUV-Biometer, Solar Light 501A, SN 2843, WRMC No. 21032W/m**2W/m**2Ultraviolet-b global, standard deviationphysicalMeasurementUV-Biometer, Solar Light 501A, SN 2843, WRMC No. 21032W/m**2W/m**2Ultraviolet-b global, minimumphysicalMeasurementUV-Biometer, Solar Light 501A, SN 2843, WRMC No. 21032W/m**2W/m**2Ultraviolet-b global, maximumphysicalMeasurementUV-Biometer, Solar Light 501A, SN 2843, WRMC No. 21032W/m**2W/m**2Ultraviolet-b diffusephysicalMeasurementUV-Biometer, Solar Light 501A, SN 2844, WRMC No. 21033W/m**2W/m**2Ultraviolet-b diffuse, standard deviationphysicalMeasurementUV-Biometer, Solar Light 501A, SN 2844, WRMC No. 21033W/m**2W/m**2Ultraviolet-b diffuse, minimumphysicalMeasurementUV-Biometer, Solar Light 501A, SN 2844, WRMC No. 21033W/m**2W/m**2Ultraviolet-b diffuse, maximumphysicalMeasurementUV-Biometer, Solar Light 501A, SN 2844, WRMC No. 21033W/m**2W/m**2UV upward reflectedphysicalMeasurementUV-Biometer, Solar Light 501A, SN 3550, WRMC No. 21034W/m**2W/m**2UV upward reflected, standard deviationphysicalMeasurementUV-Biometer, Solar Light 501A, SN 3550, WRMC No. 21034W/m**2W/m**2UV upward reflected, minimumphysicalMeasurementUV-Biometer, Solar Light 501A, SN 3550, WRMC No. 21034W/m**2W/m**2UV upward reflected, maximumphysicalMeasurementUV-Biometer, Solar Light 501A, SN 3550, WRMC No. 21034W/m**2W/m**2text/tab-separated-valuesunknownhttps://doi.pangaea.de/10.1594/PANGAEA.678344?format=textfiledownloaddatasetThe data set was checked for completeness, correctness, and consistency of metainformation. Validity of used methods was checked and - if applicable - precision and range of data.EVENT LABEL: PAY (Payerne) * LATITUDE: 46.812300 * LONGITUDE: 6.942200 * DATE/TIME: 1992-09-01T00:00:00 * ELEVATION: 491.0 m * LOCATION: Switzerland * METHOD/DEVICE: Monitoring stationBSRN station no: 21; Surface type: cultivated; Topography type: hilly, rural; Horizon: doi:10.1594/PANGAEA.947035; Station scientist: Laurent Vuilleumier (laurent.vuilleumier@meteoswiss.ch)1992-09-01T00:00:00
]]>
3info:srw/schema/1/example-v1.1xml:ISO19139:Fde.dwd.mosmix.10113engutf8datasetKai-Thorsten WirtDeutscher WetterdienstRTH FOCAL POINT+49 (0) 69 8062-2546Frankfurter Straße 135Offenbach63067Germanygisc@dwd.dehttp://www.dwd.depointOfContact2018-04-25T00:00:00ZWMO Core Metadata Profile of ISO 19115 (WMO Core), 2003/Cor.1:2006 (ISO 19115), 2007 (ISO/TS 19139)1.3WGS 84World Geodetic Systemhttp://www.wmo.int/pages/prog/wis/2012/metadata/version_1-3/WMO Core Profile version 1.3Model Output Statistics for Norderney (10113)2018-04-25creation2018-04-25publication2018-04-25revisionde.dwd.mosmix.10113http://wis.wmo.intKai-Thorsten WirtDeutscher WetterdienstRTH FOCAL POINT+49 (0) 69 8062-2546Frankfurter Straße 135Offenbach63067Germanygisc@dwd.dehttp://www.dwd.dedistributordocumentDigitalThe dot notation recommended by WMO-CBS IPET-MDRD is used to build the code identifierDWD’s fully automatic MOSMIX product optimizes and interprets the forecast calculations of the NWP models ICON (DWD) and IFS (ECMWF), combines these and calculates statistically optimized weather forecasts in terms of point forecasts (PFCs). Thus, statistically corrected, updated forecasts for the next ten days are calculated for about 5400 locations around the world. Most forecasting locations are spread over Germany and Europe. MOSMIX forecasts (PFCs) include nearly all common meteorological parameters measured by weather stations.
For further information please refer to:
[in German: https://www.dwd.de/DE/leistungen/met_verfahren_mosmix/met_verfahren_mosmix.html ]
[in English: https://www.dwd.de/EN/ourservices/met_application_mosmix/met_application_mosmix.html ]NC/DCPCKai-Thorsten WirtDeutscher WetterdienstFocal PointT+49 69 8062 2546Frankfurter Straße 135OFFENBACH63067Germanygisc@dwd.deoriginatorcontinualdatasetThe details of the update frequence are described in the temporalElement03091521temporalDewpointForecastMOSMaximum TemperatureMinimum TemperatureModel Output StatisticsPast weatherPrecipitationPresent weatherTemperatureTotal cloud coverVisibilityWindWind gustthememeteorologythemeWMO_CategoryCode2012-06-27revisionCodelists for description of metadata datasets compliant with the WMO Core
Metadata Profile version 1.3 [http://wis.wmo.int/2013/codelists/WMOCodeLists.xml]2012-06-27revisionWMO_CategoryCodeWMO Secretariatpublisher10113GermanyNorderneyplaceMeteorological geographical featuresGEMET - INSPIRE themes, version
1.02008-06-01publicationDewpointForecastMaximum TemperatureMinimum TemperaturePast weatherPrecipitationPresent weatherTemperatureVisibilityWindWind gustcloud coverdataParamWMOEssentialotherRestrictionsotherRestrictionsWMOEssentialengutf8climatologyMeteorologyAtmosphereThe product/data covers the following region/bounding box: south=53.665, north=53.755, west=7.105, east=7.1957.1057.19553.66553.7552018-04-25Z: Model Output Statistics for Norderney (10113)thematicClassificationkmzhttp://www.wmo.int/pages/prog/www/WMOCodes.htmlhttps://gisc.dwd.de/angular-frontend/xmlProductDetails;pid=de.dwd.mosmix.10113httpGISC Offenbach, Deutscher WetterdienstWMO Information System, download products/data through GISC Offenbach, Deutscher WetterdienstdatasetINSPIRE Data Specification on Meteorological geographical features2010-12-08publicationSee the referenced specificationtrueHigh data quality controlled according to the procedures of the WISThis metadata record was created automatically as a representation of the bulletin
declaration found in WMO # 9 Volume C1. Other references were used in the process, including WMO
References such as WMO # 9 Volume A, WMO # 386 Manual on the GTS and WMO # 306 Manual on Codes. Other
elements of information were also collected or created for the purpose of the GTS Metadata Generation.
This work, as well as the creation of the representation of the WMO references was done by Deutscher
Wetterdienst (DWD) on a "best effort" basis.
]]>
4info:srw/schema/1/example-v1.1xml:ISO19139:Fde.dwd.mosmix.10122engutf8datasetKai-Thorsten WirtDeutscher WetterdienstRTH FOCAL POINT+49 (0) 69 8062-2546Frankfurter Straße 135Offenbach63067Germanygisc@dwd.dehttp://www.dwd.depointOfContact2018-04-25T00:00:00ZWMO Core Metadata Profile of ISO 19115 (WMO Core), 2003/Cor.1:2006 (ISO 19115), 2007 (ISO/TS 19139)1.3WGS 84World Geodetic Systemhttp://www.wmo.int/pages/prog/wis/2012/metadata/version_1-3/WMO Core Profile version 1.3Model Output Statistics for Jever (10122)2018-04-25creation2018-04-25publication2018-04-25revisionde.dwd.mosmix.10122http://wis.wmo.intKai-Thorsten WirtDeutscher WetterdienstRTH FOCAL POINT+49 (0) 69 8062-2546Frankfurter Straße 135Offenbach63067Germanygisc@dwd.dehttp://www.dwd.dedistributordocumentDigitalThe dot notation recommended by WMO-CBS IPET-MDRD is used to build the code identifierDWD’s fully automatic MOSMIX product optimizes and interprets the forecast calculations of the NWP models ICON (DWD) and IFS (ECMWF), combines these and calculates statistically optimized weather forecasts in terms of point forecasts (PFCs). Thus, statistically corrected, updated forecasts for the next ten days are calculated for about 5400 locations around the world. Most forecasting locations are spread over Germany and Europe. MOSMIX forecasts (PFCs) include nearly all common meteorological parameters measured by weather stations.
For further information please refer to:
[in German: https://www.dwd.de/DE/leistungen/met_verfahren_mosmix/met_verfahren_mosmix.html ]
[in English: https://www.dwd.de/EN/ourservices/met_application_mosmix/met_application_mosmix.html ]NC/DCPCKai-Thorsten WirtDeutscher WetterdienstFocal PointT+49 69 8062 2546Frankfurter Straße 135OFFENBACH63067Germanygisc@dwd.deoriginatorcontinualdatasetThe details of the update frequence are described in the temporalElement03091521temporalDewpointForecastMOSMaximum TemperatureMinimum TemperatureModel Output StatisticsPast weatherPrecipitationPresent weatherTemperatureTotal cloud coverVisibilityWindWind gustthememeteorologythemeWMO_CategoryCode2012-06-27revisionCodelists for description of metadata datasets compliant with the WMO Core
Metadata Profile version 1.3 [http://wis.wmo.int/2013/codelists/WMOCodeLists.xml]2012-06-27revisionWMO_CategoryCodeWMO Secretariatpublisher10122GermanyJeverplaceMeteorological geographical featuresGEMET - INSPIRE themes, version
1.02008-06-01publicationDewpointForecastMaximum TemperatureMinimum TemperaturePast weatherPrecipitationPresent weatherTemperatureVisibilityWindWind gustcloud coverdataParamWMOEssentialotherRestrictionsotherRestrictionsWMOEssentialengutf8climatologyMeteorologyAtmosphereThe product/data covers the following region/bounding box: south=53.485, north=53.575, west=7.835, east=7.9257.8357.92553.48553.5752018-04-25Z: Model Output Statistics for Jever (10122)thematicClassificationkmzhttp://www.wmo.int/pages/prog/www/WMOCodes.htmlhttps://gisc.dwd.de/angular-frontend/xmlProductDetails;pid=de.dwd.mosmix.10122httpGISC Offenbach, Deutscher WetterdienstWMO Information System, download products/data through GISC Offenbach, Deutscher WetterdienstdatasetINSPIRE Data Specification on Meteorological geographical features2010-12-08publicationSee the referenced specificationtrueHigh data quality controlled according to the procedures of the WISThis metadata record was created automatically as a representation of the bulletin
declaration found in WMO # 9 Volume C1. Other references were used in the process, including WMO
References such as WMO # 9 Volume A, WMO # 386 Manual on the GTS and WMO # 306 Manual on Codes. Other
elements of information were also collected or created for the purpose of the GTS Metadata Generation.
This work, as well as the creation of the representation of the WMO references was done by Deutscher
Wetterdienst (DWD) on a "best effort" basis.
]]>
561.1de.dwd.mosmix.7834415xmlhttps://sru.dwd.de/SRU2JDBC/