Meteorological data of time series station Spiekeroog for 2018

The Time Series Station Spiekeroog (TSS) was set up in 2002 in the tidal inlet between the East Frisian islands of Langeoog and Spiekeroog in the southern German Bight at position 53°45′01.0″ N, 007°40′16.3″ E. Goal was to measure physical, biological, chemical and meteorological parameters continuo...

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Bibliographic Details
Main Authors: Badewien, Thomas H, Lübben, Andrea, Lehners, Carola, Braun, Axel, Zielinski, Oliver, Brumsack, Hans-Jürgen, Beck, Melanie, Schnetger, Bernhard
Format: Dataset
Language:English
Published: PANGAEA
Subjects:
Biogeochemistry of Tidal Flats
Carbon Storage in German Coastal Seas - Stability
Vulnerability and Perspectives for Manageability
Carbostore
Climate data
Coastal Observing System for Northern and Arctic Seas
COSYNA
DATE/TIME
ELEVATION
extreme events
German Bight
North Sea
Humidity
relative
hydrography
Longterm measurements
meteorology
Monitoring station
MONS
nutrients
Otzumer Balje
Pressure
atmospheric
Research platform
Spiekeroog
Spiekeroog_TSS
Temperature
air
Time Series Station
Wadden Sea
WATT
Wind direction
Wind speed
Arctic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.963882
Description
Summary:The Time Series Station Spiekeroog (TSS) was set up in 2002 in the tidal inlet between the East Frisian islands of Langeoog and Spiekeroog in the southern German Bight at position 53°45′01.0″ N, 007°40′16.3″ E. Goal was to measure physical, biological, chemical and meteorological parameters continuously even in harsh weather situations like storms, ice conditions and storm surges. The TSS was established in the framework of the Deutsche Forschungsgemeinschaft (DFG) research group BioGeoChemistry of Tidal Flats. Here, water temperature, salinity, water pressure, air temperature, air pressure, relative humidity, wind direction, wind speed, nitrite, nitrate, silicate and phosphate were measured in 2018. All raw data were corrected for steps as range, outliers and stationarity checks. Water pressure data obtained in 11.5 m water depth were furthermore converted to sea level data. Water temperature and salinity were measured in five different depths (4m, 5.5m, 7.5 m, 9.5 m, 11.5 m below MSL/NN). Due to fouling at the sensors and accompanying drift of measured data water temperature and salinity were corrected via linear regression by reference values which were obtained by CTD measurements regularly. As the water column in this region is well mixed, data of all five depths were averaged. Smoothing of data and a final manual check was performed for water temperature and salinity in order to exclude inexplicable data, mostly nonlinear drifting caused by growth of marine organisms. As salinity is quite sensitive to fouling a quality flag is given for the correction of this parameter. Wind direction data were corrected for small offsets of several degrees due to technical issues. All meteorological sensors were installed in a height of 12 m above the sea surface. Nutrients were measured in a depth of 4 m with continuous flow analyzers after filtration by photometric method. Data are manually checked afterwards and provided with a quality flag. For validation reference samples were collected during every maintenance ...

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