Citation:

PANGAEA.937355

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Abstract:

Water isotope measurements (i.e. δ18O, δD, and d-excess) of snow and atmospheric vapor were made to document evolution of snow surface water isotopes, with implications for ice core analysis and climate models. Laboratory experiments were used to measure changes in the snow surface in a controlled setting influenced only by sublimation, and field experiments were used to measure changes in the snow surface in a natural setting. Laboratory data includes experiments from 2017-2019, completed at the University of Copenhagen and the University of Colorado Boulder. Eight 4-6 day sublimation experiments were completed, in which 4-6 boxes were filled with well-mixed snow and one box was removed and measured each day. Data includes daily mass and water isotope measurements for snow samples at 0.5 cm intervals from 0-4 cm for all experiments. One experiment includes hourly water isotope and humidity measurements for vapor at 28 and 32 cm above the snow surface, and temperature at 4 cm below the snow surface, the snow surface, and 10 cm above the snow surface. All water isotope measurements were made with a Picarro L-2140i. Field data includes four 40-60 hour experiments completed at the East Greenland Ice Core Project (75.623, 35.96) field site during summer 2019. Data includes hourly mass changes in isolated boxes, water isotope measurements of snow samples (0-4.5 cm) from isolated boxes and natural ice sheet conditions, continuous atmospheric vapor water isotope and humidity measurements at 10 cm above the snow surface, and continuous atmospheric temperature measurements. All water isotope measurements were made with a Picarro L-2140i.

Supplement to:

Hughes, Abigail G; Wahl, Sonja; Jones, Tyler R; Zuhr, Alexandra; Hörhold, Maria; White, James W C; Steen-Larsen, Hans Christian (in prep.): The role of sublimation as a driver of climate signals in the water isotope content of surface snow: laboratory and field experimental results.

Project(s):

Signals from the Surface Snow: Post-Depositional Processes Controlling the Ice Core Isotopic Fingerprint (SNOWISO)

Funding:

European Research Council (ERC), grant/award no. 759526 : Signals from the Surface Snow: Post-Depositional Processes Controlling the Ice Core Isotopic Fingerprint

Coverage:

Latitude: 75.623000 * Longitude: -35.960000

Date/Time Start: 2017-12-13T12:40:00 * Date/Time End: 2019-07-26T20:15:00

License:

Creative Commons Attribution 4.0 International (CC-BY-4.0)