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Under-ice fauna biomass, carbon demand, and secondary production under Arctic...
We investigated the biomass, carbon demand, and secondary production of under-ice fauna (here metazoans >300 μm) at eight stations in the Arctic Ocean, north of Svalbard.... -
Sea-ice meiofauna biomass, carbon demand, and secondary production in Arctic ...
We investigated the biomass, carbon demand, and secondary production of sea-ice meiofauna (here heterotrophs >10μm) at eight ice stations on Arctic pack ice north of... -
Soil data at station Bayelva (2023, level 1)
Understanding permafrost processes and changes requires long-term observational datasets. This dataset is a continuation of the dataset available from the Bayelva Site at... -
Meteorological observations at Bayelva Station in 2023 (level 1)
Understanding permafrost processes and changes requires long-term observational datasets. This dataset is a continuation of the dataset available from the Bayelva Site at... -
Meteorological observations at Bayelva Station in 2022 (level 1)
Understanding permafrost processes and changes requires long-term observational datasets. This dataset is a continuation of the dataset available from the Bayelva Site at... -
Nitrogen and carbon in Laminaria solidungula and Saccharina latissima from Ko...
This dataset has no description
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Continuous measurements in soil and air at the permafrost long-term observato...
Understanding permafrost processes and changes requires long-term observational datasets of ground and climate variables. Despite the fact that the Arctic climate changes more... -
Soil data at station Bayelva (2022, level 1)
Understanding permafrost processes and changes requires long-term observational datasets. This dataset is a continuation of the dataset available from the Bayelva Site at... -
Soil data at station Bayelva (2021, level 1)
Understanding permafrost processes and changes requires long-term observational datasets. This dataset is a continuation of the dataset available from the Bayelva Site at... -
Meteorological observations at Bayelva Station in 2021 (level 1)
Understanding permafrost processes and changes requires long-term observational datasets. This dataset is a continuation of the dataset available from the Bayelva Site at... -
Measurements of wind, temperature, pressure and humidity during the ascending...
Altitude (geopotential) is calculated from measured atmospheric static pressure, where the offset in the original data due to the reference pressure at departure was corrected... -
Measurements of wind, temperature, pressure and humidity during the ascending...
Altitude (geopotential) is calculated from measured atmospheric static pressure, where the offset in the original data due to the reference pressure at departure was corrected... -
Measurements of wind, temperature, pressure and humidity during the descendin...
Altitude (geopotential) is calculated from measured atmospheric static pressure, where the offset in the original data due to the reference pressure at departure was corrected... -
Measurements of wind, temperature, pressure and humidity during the ascending...
Altitude (geopotential) is calculated from measured atmospheric static pressure, where the offset in the original data due to the reference pressure at departure was corrected... -
Measurements of wind, temperature, pressure and humidity during the descendin...
Altitude (geopotential) is calculated from measured atmospheric static pressure, where the offset in the original data due to the reference pressure at departure was corrected... -
Measurements of wind, temperature, pressure and humidity during the ascending...
Altitude (geopotential) is calculated from measured atmospheric static pressure, where the offset in the original data due to the reference pressure at departure was corrected... -
Measurements of wind, temperature, pressure and humidity during the descendin...
Altitude (geopotential) is calculated from measured atmospheric static pressure, where the offset in the original data due to the reference pressure at departure was corrected... -
Measurements of wind, temperature, pressure and humidity during the ascending...
Altitude (geopotential) is calculated from measured atmospheric static pressure, where the offset in the original data due to the reference pressure at departure was corrected... -
Measurements of wind, temperature, pressure and humidity during the ascending...
Altitude (geopotential) is calculated from measured atmospheric static pressure, where the offset in the original data due to the reference pressure at departure was corrected... -
Measurements of wind, temperature, pressure and humidity during the descendin...
Altitude (geopotential) is calculated from measured atmospheric static pressure, where the offset in the original data due to the reference pressure at departure was corrected...