Short title:
SHARK (“Svenskt HavsARKiv” / “Swedish Ocean Archive”) – contains marine environmental monitoring data from the seas surrounding Sweden. Biological, physical and chemistry data is made available for science, society and policy makers.
- SHARKweb is the main web application where it is possible to search and download data from SHARK.
- SHARKdata is another way to access the same sets of data, but the target audience is other systems who wants to harvest data and use it, or publish the data in other systems, portals, etc.
Öppna data (Open Data) – contains marine physical data from e.g. fixed platforms, tidal gauges, buoys and ferry box systems and is made available for science, society and policy makers..
Short title2:
Link to website:
SHARKweb: http://www.smhi.se/klimatdata/oceanografi/havsmiljodata/marina-miljoovervakningsdata
(The present homepage for data access is in Swedish but much of the metadata and data is available in English)
SHARKdata: http://www.sharkdata.se/
(in English)
Öppna Data (Open Data) : http://opendata-catalog.smhi.se/explore/
(in Swedish)
Description:
SHARK Marine environmental monitoring data is available in delayed mode.
The data can be accessed through SHARKweb via downloading or directly via the web service SHARKdata .
All data are available for download.
Öppna data (Open data) contains marine physical data from e.g. fixed platforms, tidal gauges, buoys, ferry box systems and meteorological stations. Near Real Time mode.
All data are available for download.
Institute:
SHARK: Swedish Meteorological and Hydrological Institute (SMHI): shark@smhi.se
Öppna data (Open data): Swedish Meteorological and Hydrological Institute (SMHI): no email available contact via homepage: (http://opendata-catalog.smhi.se/explore/)
Contact name: Johanna Linders
Contact email: Please login or register to view contact information.
Location: Swedish Coast
Tags:
archives of physical, biogeochemical and biological data, physical data from e.g. fixed platforms, tidal gauges, buoys, ferry box systems and meteorological stations in n=Near Real Time mode.