Decades of scientific research on the European Alps have helped quantify the vast array of processes that shape the Earth's surface. Patterns in rock exhumation, surface erosion and topographic changes can be compared to sediment yields preserved in sedimentary basins or collected from modern rivers. Erosion-driven isostatic uplift explains up to ~50% of the modern geodetic rock uplift rates; the remaining uplift reveals the importance of internal processes (tectonics, deep-seated geodynamics) and external processes (glacial rebound, topographic changes). We highlight recent methodological and conceptual developments that have contributed to our present view of the European Alps, and we provide suggestions on how to fill the gaps in our understanding.

Valla, P., Sternai, P., Fox, M. (2021). How climate, uplift and erosion shaped the alpine topography. ELEMENTS, 17(1), 41-46 [10.2138/GSELEMENTS.17.1.41].

How climate, uplift and erosion shaped the alpine topography

Sternai P.
Secondo
;
2021

Abstract

Decades of scientific research on the European Alps have helped quantify the vast array of processes that shape the Earth's surface. Patterns in rock exhumation, surface erosion and topographic changes can be compared to sediment yields preserved in sedimentary basins or collected from modern rivers. Erosion-driven isostatic uplift explains up to ~50% of the modern geodetic rock uplift rates; the remaining uplift reveals the importance of internal processes (tectonics, deep-seated geodynamics) and external processes (glacial rebound, topographic changes). We highlight recent methodological and conceptual developments that have contributed to our present view of the European Alps, and we provide suggestions on how to fill the gaps in our understanding.
Articolo in rivista - Articolo scientifico
Climate; Erosion; Geodetic uplift; Glaciations; Mountain geodynamics; Topographic evolution;
English
12-apr-2021
2021
17
1
41
46
none
Valla, P., Sternai, P., Fox, M. (2021). How climate, uplift and erosion shaped the alpine topography. ELEMENTS, 17(1), 41-46 [10.2138/GSELEMENTS.17.1.41].
File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/325774
Citazioni
  • Scopus 6
  • ???jsp.display-item.citation.isi??? 5
Social impact