Dating stratigraphic variations of ions and oxygen isotopes in a high-altitude snowpack by comparison with daily variations of precipitation chemistry at a low-altitude site

Daily precipitation at Tustervatn (65°83′N, 13°92′E, 439 m above sea level) was analysed for ions and oxygen isotopes. Seven-day air mass trajectories provided information about the precipitation source and history. The highest Na+ loads were associated with air masses which had crossed the Norwegia...

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Bibliographic Details
Published in:Hydrology Research
Main Author: Theakstone, Wilfred H.
Format: Article in Journal/Newspaper
Language:English
Published: 2008
Subjects:
Air mass trajectories
Ionic concentrations
Norway
Oxygen isotopes
Precipitation chemistry
Snowpack stratigraphy
/dk/atira/pure/subjectarea/asjc/2300/2312
Water Science and Technology
Arctic
austre Okstindbreen
Norwegian Sea
Okstindbreen
Arctic Basin
glacier
Online Access:https://www.research.manchester.ac.uk/portal/en/publications/dating-stratigraphic-variations-of-ions-and-oxygen-isotopes-in-a-highaltitude-snowpack-by-comparison-with-daily-variations-of-precipitation-chemistry-at-a-lowaltitude-site(3c448588-7cc6-4838-b01c-ca2046aa67ab).html
https://doi.org/10.2166/nh.2008.039
Description
Summary:Daily precipitation at Tustervatn (65°83′N, 13°92′E, 439 m above sea level) was analysed for ions and oxygen isotopes. Seven-day air mass trajectories provided information about the precipitation source and history. The highest Na+ loads were associated with air masses which had crossed the Norwegian Sea and the highest non-sea-salt SO42- loads with trajectories crossing Scandinavia or the United Kingdom; high SO42- loads in late April reflected decreasing snow cover. Trajectories from the Arctic basin resulted in the lowest δ 18O values. During the winter, 4.8 m of snow accumulated at 1470 m above sea level on the glacier Austre Okstindbreen, 25 km north-east of Tustervatn. Mean ionic concentrations were lower than at Tustervatn, but loads were higher, as the total precipitation was three times greater. At both sites, ionic loads were closely related to ionic concentrations but not to sample water-equivalent values/precipitation amounts. Dates could be assigned to much of the snowpack on the basis of similarities between its chemical stratigraphy and temporal variations of precipitation chemistry at Tustervatn. Examination of the influence of individual storms on δ 18O variations and the relationship between those variations and atmospheric circulation patterns has potential importance in relation to understanding past, present and possible future climatic conditions. © IWA Publishing 2008.

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