Abstract
Snow accumulation records from central Greenland are explored to improve the understanding of the accumulation signal in Greenland ice core records. Results from a “forest” of 100 bamboo poles and automated accumulation monitors in the vicinity of Summit as well as shallow cores collected in the Summit and Crete areas are presented. Based on these accumulation data, a regression has been calculated to quantify the signal-to-noise variance ratio of ice core accumulation signals on a variety of temporal (1 week to 2 years) and spatial (20 m to 200 km) scales. Results are consistent with data obtained from year-round automated accumulation measurements deployed at Summit which suggest that it is impossible to obtain regional snow accumulation data with seasonal resolution using four accumulation monitors positioned over a length scale of ∼30 km. Given this understanding of the temporal and spatial dependence of noise in the ice core accumulation signal, the accumulation records from 17 shallow cores are revisited. Each core spans the time period from 1964 to 1983. By combining the accumulation records, the regional snow accumulation record has been obtained for this period. The results show that 9 of the 20 years can be identified as having an accumulation different from the 20 year mean with 99% confidence. The signal-to-noise variance ratio for the average accumulation signal sampled at annual intervals is 5.8±0.5. The averaged accumulation time series may be useful to climate modelers attempting to validate their models with accurate regional hydrologic data sets.
Department
Earth Sciences, Earth Systems Research Center
Publication Date
12-1997
Journal Title
Journal of Geophysical Research: Atmospheres
Publisher
Wiley
Digital Object Identifier (DOI)
10.1029/97JD02760
Document Type
Article
Recommended Citation
Kuhns, H., C. Davidson, J. Dibb, C. Stearns, M. Bergin, and J.-L. Jaffrezo (1997), Temporal and spatial variability of snow accumulation in central Greenland, J. Geophys. Res., 102(D25), 30059–30068, doi:10.1029/97JD02760.
Rights
Copyright 1997 by the American Geophysical Union.