Physical oceanography based on ship CTD during RV POLARSTERN cruise PS131 to the Arctic Ocean, July – August 2022

During RV Polarstern expedition PS131 to the Arctic Ocean, a number of hydrographic profiles were obtained using a ship-based Seabird SBE911plus CTD rosette system. The expedition, also referred to as "ATWAICE": ATlantic WAter pathways to the ICE, took place between 28 June and 17 August 2...

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Bibliographic Details
Main Authors: Hoppmann, Mario, Tippenhauer, Sandra, Fer, Ilker, Hofmann, Zerlina, Mathieu, Laura, McPherson, Rebecca, Reifenberg, Simon F, von Appen, Wilken-Jon, Kanzow, Torsten
Format: Dataset
Language:English
Published: PANGAEA
Subjects:
Arctic Ocean
Attenuation
optical beam transmission
ATWAICE
AWI_PhyOce
Bio-optical in-situ data
Calculated
Chlorophyll a
Conductivity
CTD
Sea-Bird
SBE 911plus
measured with Temperature sensor
SBE3plus
measured with Conductivity sensor
SBE 4
measured with Dissolved oxygen sensor
SBE 43
measured with Fluorometer
WET Labs
ECO FLCD
ECO FLRTD
measured with PAR sensor
measured with Transmissometer
Arctic
Svalbard
Greenland
Scoresby
Berichte zur Polar- und Meeresforschung
East Greenland
Fram Strait
glacier
Reports on Polar and Marine Research
Scoresby Sound
Sea ice
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.966267
Description
Summary:During RV Polarstern expedition PS131 to the Arctic Ocean, a number of hydrographic profiles were obtained using a ship-based Seabird SBE911plus CTD rosette system. The expedition, also referred to as "ATWAICE": ATlantic WAter pathways to the ICE, took place between 28 June and 17 August 2022 and investigated sea ice and ocean properties in the Arctic Ocean, with a focus on sea ice melt processes. The main work areas included Fram Strait, the marginal ice zone northwest of Svalbard, and the East Greenland coast close to the 79°N glacier. A few stations were also done at the Aurora vent field and in Scoresby Sound, Greenland. This dataset comprises the processed data of all 64 CTD stations performed during this expedition, bin-averaged to 1dbar values. The AWI standard software ManageCTD was used for pre-processing, also incorporating selected standard SeaBird processing routines. Station metadata was aligned to the ship's action log. Outliers were identified and interpolated. The list of parameters includes measurement pressure/depth, seawater temperature, conductivity, salinity, dissolved oxygen, optical beam transmission, Chl-a and CDOM fluorescence, photosynthetically active radiation (PAR), along with selected derived variables. Temperature, conductivity/salinity and oxygen were chosen from two independent sensors sets. Temperature offset was corrected using post-cruise calibration results. Salinity was calibrated against in-situ samples measured by an Optimare Precision Salinometer. Dissolved oxygen was calibrated against in-situ samples analyzed by means of Winkler titration. Temporal and pressure drift of these parameters were identified, and corrected accordingly. The optical measurements were converted according to the manufacturer calibration of the respective instrument, but not calibrated against any other measurements. An overview of the sensor configuration and a detailed description of all individual steps is available in the attached processing report, which also includes all relevant calibration ...

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