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Climate of the Past An interactive open-access journal of the European Geosciences Union
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Volume 7, issue 4 | Copyright
Clim. Past, 7, 1327-1335, 2011
https://doi.org/10.5194/cp-7-1327-2011
© Author(s) 2011. This work is distributed under
the Creative Commons Attribution 3.0 License.

Research article 02 Dec 2011

Research article | 02 Dec 2011

Past surface temperatures at the NorthGRIP drill site from the difference in firn diffusion of water isotopes

S. B. Simonsen1,2, S. J. Johnsen1, T. J. Popp1,3, B. M. Vinther1, V. Gkinis1, and H. C. Steen-Larsen1 S. B. Simonsen et al.
  • 1Centre for Ice and Climate, Niels Bohr Institute, University of Copenhagen, Denmark
  • 2Danish Climate Centre, Danish Meteorological Institute, Denmark
  • 3Institute of Arctic and Alpine Research, Geological Sciences and Environmental Studies, University of Colorado, USA

Abstract. A new ice core paleothermometer is introduced based on the temperature dependent diffusion of the stable water isotopes in the firn. A new parameter called differential diffusion length is defined as the difference between the diffusion length of the two stable water isotopologues 2H1H16O and 1H218O. A model treatment of the diffusion process of the firn and the ice is presented along with a method of retrieving the diffusion signal from the ice core record of water isotopes using spectral methods. The model shows how the diffusion process is highly dependent on the inter-annual variations in the surface temperatures. It results in a diffusion length longer than if the firn was isothermal. The longer diffusion length can be explained by the strong nonlinearly behaviour of the saturation pressure over ice in the range of the surface temperature fluctuations.

The method has been tested on δ18O and δD measurements, spanning the transition from the last glacial to the holocene, from the NorthGRIP ice core. The surface temperature reconstruction based on the differential diffusion resembles other temperature reconstructions for the NorthGRIP ice core. However, the Allerød warming is seen to be significantly warmer than observed in other ice core based temperature reconstructions. The mechanisms behind this behaviour are not fully understood.

The method shows the need of an expansion of high resolution stable water isotope datasets from ice cores. However, the new ice core paleothermometer presented here will give valuable insight into past climate, through the physical process of isotope diffusion in the firn column of ice sheets.

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