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Advanced filters: Author: David Lundbek Egholm Clear advanced filters

Glaciations in response to climate variations preconditioned by evolving topography

Previously glaciated landscapes tend to have large areas concentrated at the same elevation; here it is shown that small climate changes can trigger massive glacial expansions for these landscapes, explaining long-term patterns of erosion in the Quaternary period.

Vivi Kathrine Pedersen
David Lundbek Egholm
Research09 Jan 2013
Nature

Volume: 493, P: 206-210
Erosion by cooling

The thermal history of thousands of rock samples convincingly confirms the idea that climate cooling accelerates the rate of erosion at Earth's surface — and implicates glaciers in particular. See Letter p.423

David Lundbek Egholm
News & Views18 Dec 2013
Nature

Volume: 504, P: 380-381
Cosmogenic in situ ¹⁴C-¹⁰Be reveals abrupt Late Holocene soil loss in the Andean Altiplano

The assessment of soil sustainability in prehistoric times requires comparing millennium-scale erosion rates with geological background rates. Here, the authors apply in situ cosmogenic ¹⁴C, ¹⁰Be, and ²⁶Al to reveal rapid soil erosion on the Andean Altiplano in response to Late Holocene climate change and the onset of agropastoralism.

Kristina Hippe
John D. Jansen
David Lundbek Egholm
ResearchOpen Access05 May 2021
Nature Communications

Volume: 12, P: 1-9

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