Add to ORKGAbstract The quantitative estimation of paleoaltitude has become an increasing focus of Earth scientists because surface elevation provides constraints on the geodynamic mechanisms operating in mountain belts, as well as the influence of mountain belt growth on regional and global climate. The general observation of decreasing δ 18 O and δ 2 H values in rainfall as elevation increases has been used in both empirical and theoretical approaches to estimate paleoelevation. These studies rely on the preservation of ancient surface water compositions in authigenic minerals to reconstruct the elevation at the time the minerals were forming. In this review we provide a theory behind the application of stable isotope-based approaches to paleoaltime...
The timing and rate of surface elevations of the Himalayas and the Tibetan Plateau remain controvers...
https://meetingorganizer.copernicus.org/EGU21/EGU21-15983.htmlInternational audiencePaleoaltimetry i...
ABSTRACT. A compilation of 68 studies from throughout many of the world’s mountain belts reveals an ...
The measure of surface uplift can provide an important constraint on the behavior of continental lit...
Palaeoelevation reconstructions of mountain belts have become a focus of modern science since surfac...
International audiencePalaeoelevation reconstructions of mountain belts have become a focus of moder...
Paleoaltimetry - the reconstruction of the elevation of mountain ranges in the geological past - is ...
Many stable isotope paleoaltimetry studies have focused on paleoelevation reconstructions of orogeni...
Stable isotope paleoaltimetry is widely used to infer past elevations of orogens due to the robust s...
The Neogene elevation history of the Mount Everest region is key for understanding the tectonic hist...
Determining how the elevation of the Northern Andes has evolved over time is of paramount importance...
Paleoelevation reconstruction using stable isotopes, although a relatively new science, is making a...
The timing and rate of surface elevations of the Himalayas and the Tibetan Plateau remain controvers...
https://meetingorganizer.copernicus.org/EGU21/EGU21-15983.htmlInternational audiencePaleoaltimetry i...
ABSTRACT. A compilation of 68 studies from throughout many of the world’s mountain belts reveals an ...
The measure of surface uplift can provide an important constraint on the behavior of continental lit...
Palaeoelevation reconstructions of mountain belts have become a focus of modern science since surfac...
International audiencePalaeoelevation reconstructions of mountain belts have become a focus of moder...
Paleoaltimetry - the reconstruction of the elevation of mountain ranges in the geological past - is ...
Many stable isotope paleoaltimetry studies have focused on paleoelevation reconstructions of orogeni...
Stable isotope paleoaltimetry is widely used to infer past elevations of orogens due to the robust s...
The Neogene elevation history of the Mount Everest region is key for understanding the tectonic hist...
Determining how the elevation of the Northern Andes has evolved over time is of paramount importance...
Paleoelevation reconstruction using stable isotopes, although a relatively new science, is making a...
The timing and rate of surface elevations of the Himalayas and the Tibetan Plateau remain controvers...
https://meetingorganizer.copernicus.org/EGU21/EGU21-15983.htmlInternational audiencePaleoaltimetry i...
ABSTRACT. A compilation of 68 studies from throughout many of the world’s mountain belts reveals an ...