| Summary: | Accurate projections of future climate rely on knowledge of natural climate variability on different time scales. Climate proxies, such as stable water isotope records recovered from ice cores, provide insights into the climate variability of the past. A prerequisite for an accurate proxy-interpretation, however, is an in-depth understanding of the signal formation process capturing the climate signal in the isotopic composition of surface snow, which is buried and archived in the ice. This thesis improves the understanding of how the climate imprints a signal on the snow isotopic composition. Specifically, the surface humidity flux, and the associated exchange of water isotopes between atmospheric water vapor and snow pack, is investigated as a potential process composing the isotope signal in the snow after deposition. First, in Paper I, we explore the vapor-snow exchange of stable water isotopes through in-situ isotope flux measurements taken in the interior of the Greenland Ice Sheet. For this, we developed a method that permits direct observations of the isotopic composition of the humidity flux. We find that the isotopic composition of the humidity flux is dependent on the snow and vapor isotopic composition during sublimation and deposition times, respectively. Additionally, we document isotopic fractionation during snow sublimation - a process that has been a subject of debate in the past and which is currently not implemented in isotope-enabled climate models. Secondly, Paper II investigates the effect of sublimation on the isotopic composition of the snow. Based on laboratory experiments, we show that sublimation leads to an isotopic enrichment and an accompanying decrease in the d-excess value in the snow. The same is observed in field experiments, albeit less extreme, due to weaker sublimation fluxes. The study demonstrates that the snow surface isotopic composition is modulated on sub-daily timescales, documented through several high-temporal-resolution (3h) in-situ snow sampling experiments. Paper ...
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