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Waldbrandeinsatzkarte des Landes Brandenburg (WMS)

Die Waldbrandeinsatzkarte zeigt waldbrandrelevante Informationen des Landes Brandenburg im Layout der durch das BMI und BMEL festgelegten und im Bundesanzeiger veröffentlichten bundeseinheitlichen Standards. Die Daten stammen aus verschiedenen Quellen und werden in der Waldbrandeinsatzkarte graphisch zusammengeführt (Quellenangabe hinter Inhaltsauflistung). Die Karte beinhaltet: Löschwasserentnahmestellen (voll funktionsfähig), Wegenetz für Lösch- und Rettungsfahrzeuge, Brücken, Wendestellen, Brandschutzschneisen, Wundstreifen, Forstliches Abteilungsnetz, (Quelle: Landesbetrieb Forst Brandenburg), KWF-Rettungspunkte (Quelle: Kuratorium für Waldarbeit und Forsttechnik V2.19, Datenurheber , www.rettungspunkte-forst.de), Geotechnische Sperrbereiche der LMBV (Quelle: Lausitzer- und Mitteldeutsche Bergbauverwaltungsgesellschaft (LMBV), https://geodatenportal-lmbv.hub.arcgis.com/maps/ac61f78090c04e799d6c7ffd1b4272f0/about, https://geodatenportal-lmbv.hub.arcgis.com/documents/565f85a0f02d4f788dbd19035b5299a0/explore), Militärische Sicherheitsbereiche der Bundeswehr (Quelle: Das Bundesamt für Infrastruktur, Umweltschutz und Dienstleistungen der Bundeswehr , Abt. Infra), Windkraftanlagen (Quelle: Landesamt für Umwelt, dl-de/by-2-0, https://metaver.de/search/dls/?serviceId=B312CAA7-5766-4725-B8D3-03CDC7F0B273&datasetId=45C506E5-3E9D-4DE2-9073-C3DB636CE7CF) Die in den bundeseinheitlichen Standards festgelegte Darstellung der Sensorstandorte, der Kampfmittelverdachtsflächen und des Eisenbahnstreckennetzes einschl. Kilometrierung fehlt aus rechtlichen Gründen.

Glacier mass balance of Hallstäter Glacier, Austria, 2006/07 et seq in shapefile format

Annual and winter glacier mass balance maps (fixed date system) for Hallstätter Glacier in the Dachstein Massif, Austria, is provided in shapefile format. The shapes contain contour lines delineating areas of equal mass balance as well as elevation zones. Spatially integrated mass balance is derived from point measurements at snow pits and ablation stakes by interpolating between measurement points and extrapolating to unmeasured regions of the glacier. Detailed Information is given in Helfricht (2009) and Bertolotti et al. (in prep.) and in the associated readme files. New data will be added each year. This is complementary information to the data provided by Fischer et al., 2016.

Hydrochemistry at time series station Helgoland Roads, North Sea, in 2013

In 2013, the hydrochemistry of surface water was monitored at Helgoland Roads station on every workday, typically before 9 a.m. Temperature was measured on board immediately after sampling. Visibility was measured on board using a Secchi Disk. Salinity, dissolved inorganic nutrients, pH and oxygen were measured from a bucket sample in the laboratory.

Hydrochemistry at time series station Helgoland Roads, North Sea, in 2012

In 2012, the hydrochemistry of surface water was monitored at Helgoland Roads station on every workday, typically before 9 a.m. Temperature was measured on board immediately after sampling. Visibility was measured on board using a Secchi Disk. Salinity, dissolved inorganic nutrients, pH and oxygen were measured from a bucket sample in the laboratory.

Hydrochemistry at time series station Helgoland Roads, North Sea, in 2011

In 2011, the hydrochemistry of surface water was monitored at Helgoland Roads station on every workday, typically before 9 a.m. Temperature was measured on board immediately after sampling. Visibility was measured on board using a Secchi Disk. Salinity, dissolved inorganic nutrients, pH and oxygen were measured from a bucket sample in the laboratory.

Hydrochemistry at time series station Helgoland Roads, North Sea, in 2009

In 2009, the hydrochemistry of surface water was monitored at Helgoland Roads station on every workday, typically before 9 a.m. Temperature was measured on board immediately after sampling. Visibility was measured on board using a Secchi Disk. Salinity and dissolved inorganic nutrients were measured from a bucket sample in the laboratory.

Hydrochemistry at time series station Helgoland Roads, North Sea, in 2010

In 2010, the hydrochemistry of surface water was monitored at Helgoland Roads station on every workday, typically before 9 a.m. Temperature was measured on board immediately after sampling. Visibility was measured on board using a Secchi Disk. Salinity and dissolved inorganic nutrients were measured from a bucket sample in the laboratory.

Hydrochemistry at time series station Helgoland Roads, North Sea, in 2008

In 2008, the hydrochemistry of surface water was monitored at Helgoland Roads station on every workday, typically before 9 a.m. Temperature was measured on board immediately after sampling. Visibility was measured on board using a Secchi Disk. Salinity and dissolved inorganic nutrients were measured from a bucket sample in the laboratory.

Hydrochemistry at time series station Helgoland Roads, North Sea, in 2007

In 2007, the hydrochemistry of surface water was monitored at Helgoland Roads station on every workday, typically before 9 a.m. Temperature was measured on board immediately after sampling. Visibility was measured on board using a Secchi Disk. Salinity and dissolved inorganic nutrients were measured from a bucket sample in the laboratory.

Hydrochemistry at time series station Helgoland Roads, North Sea, in 2005

In 2005, the hydrochemistry of surface water was monitored at Helgoland Roads station on every workday, typically before 9 a.m. Temperature was measured on board immediately after sampling. Visibility was measured on board using a Secchi Disk. Salinity and dissolved inorganic nutrients were measured from a bucket sample in the laboratory.

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