Pascal Bohleber
Heidelberg University
57 Papers
115 Citations
Pascal Bohleber is an academic researcher from Heidelberg University. The author has contributed to research in topics: Ice core & Glacier. The author has an hindex of 12, co-authored 36 publications. Previous affiliations of Pascal Bohleber include Austrian Academy of Sciences & Ca' Foscari University of Venice.
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Papers
Cold, alpine ice bodies revisited: what may we learn from their impurity and isotope content?
TL;DR: In the European Alps, ice core studies have been mainly performed in view of the recent man-made influence on the atmospheric load of aerosol-related species, while respective investigations on the...
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Temperature and mineral dust variability recorded in two low-accumulation Alpine ice cores over the last millennium
Pascal Bohleber,Pascal Bohleber,Pascal Bohleber,Tobias Erhardt,Tobias Erhardt,Nicole E. Spaulding,Helene Hoffmann,Hubertus Fischer,Hubertus Fischer,Paul Andrew Mayewski +9 more
TL;DR: In this paper, the authors explore the time series of stable water isotopes and the mineral dust proxies Ca 2+ and insoluble particles at the Colle Gnifetti glacier in the European Alps.
Determining the age distribution of Colle Gnifetti, Monte Rosa, Swiss Alps, by combining ice cores, ground-penetrating radar and a simple flow model
TL;DR: In this paper, the authors explore the three-dimensional internal age distribution of the small cold glaciers (Colle Gnifetti, Monte Rosa, Italy/Switzerland) to compare the age/depth relations from four local deep ice cores.
Permittivity of Ice at Radio Frequencies: Part II. Artificial and Natural Polycrystalline Ice
TL;DR: In this paper, the authors used a coaxial transmission line cell to measure the dielectric permittivity of artificial and natural ice samples obtained by means of frequency-dependent measurements from 10-MHz to 1.5-GHz.
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A full Stokes ice-flow model to assist the interpretation of millennial-scale ice cores at the high-Alpine drilling site Colle Gnifetti, Swiss/Italian Alps
TL;DR: In this paper, a 3D full Stokes ice-flow model is presented, which includes firn rheology, firn densification and enthalpy transport, and is implemented using the finite element software Elmer/Ice.