首页|Sublimation Origin of Negative Deuterium Excess Observed in Snow and Ice Samples From McMurdo Dry Valleys and Allan Hills Blue Ice Areas, East Antarctica
Sublimation Origin of Negative Deuterium Excess Observed in Snow and Ice Samples From McMurdo Dry Valleys and Allan Hills Blue Ice Areas, East Antarctica
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NSTL
Amer Geophysical Union
The oxygen and hydrogen isotopic composition in snow and ice have long been utilized to reconstruct past temperatures of polar regions, under the assumption that post-depositional processes such as sublimation do not fractionate snow. In low-accumulation (<0.01 m yr ?1) areas near the McMurdo Dry Valleys in Antarctica, surface snow and ice samples have exceptionally low deuterium excess values (d-excess ≡ δD – 8*δ~(18)O)-sometimes as negative as ?5‰-an uncommon phenomenon that is not fully understood. Here we use both an isotope-enabled general circulation model and an ice physics model and establish that such exceptionally low d-excess values can only arise from precipitation if the majority of the moisture is sourced from the Southern Ocean (south of 55°S). However, the model results show that moisture sourced from oceans north of 55°S contributes significantly (>50%) to precipitation in Antarctica today. We thus propose that sublimation must have occurred to yield the low d-excess values in snow observed in and near the Dry Valleys, and that solid-phase-diffusion in ice grains is sufficiently fast to allow Rayleigh-like isotopic fractionation in similar environments. We calculate that under present-day conditions at the Allan Hills outside the Dry Valleys, 3%–24% of the surface snow is lost due to sublimation. Because the magnitude of sublimation may be nonstationary (i.e., it could vary in time) during past cold periods, we suggest that sublimation-induced fractionation can alter the relationship between the snow isotopic composition and polar temperatures.
Sublimation Origin of Negative DeuteriumIce SamplesBlue Ice Areas
Jun Hu、Yuzhen Yan、Laurence Y. Yeung、Sylvia G. Dee
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Department of Earth, Environmental & Planetary Sciences, Rice University, Houston, TX, USA
NSTL
Amer Geophysical Union
