Letter abstract
Nature Geoscience 1, 365 - 369 (2008)
Published online: 11 May 2008 | doi:10.1038/ngeo201
Subject Categories: Geomorphology | Cryospheric science
Fjord insertion into continental margins driven by topographic steering of ice
Mark A. Kessler1, Robert S. Anderson1,2 & Jason P. Briner3
Fjords commonly punctuate continental edges formerly occupied by Quaternary ice sheets, reaching kilometre depths and extending many tens of kilometres inland1, 2. These features must have been created by late Cenozoic ice sheets, because rivers cannot erode bedrock much below sea level. Ice sheets drain primarily through fjords3, 4; therefore, widespread fjord insertion may have altered ice-sheet size, shape and dynamics. Here, we use a two-dimensional ice-sheet model to simulate the incision of fjords through a coastal mountain range. We show that topographic steering of ice and erosion proportional to ice discharge are sufficient to form fjords. Within one million years, kilometre-deep fjords punched through the mountain range owing to a robust positive feedback initiated by ice being steered towards mountain passes. Enhanced erosion beneath thicker, faster ice deepens these passes, amplifying the topographic steering. Simulated fjords are deepest through the highest topography and drain a large fraction of the interior ice. Ice sheets simulated on landscapes with existing fjords are generally smaller and exhibit longer response times and larger responses to climate changes, suggesting that modern ice sheets are more sensitive to climate fluctuations than Early Quaternary ice sheets.
- Institute of Arctic and Alpine Research, University of Colorado, Boulder, Colorado 80309, USA
- Department of Geological Sciences, University of Colorado, Boulder, Colorado 80309, USA
- Department of Geology, University at Buffalo, Buffalo, New York 14260, USA
Correspondence to: Mark A. Kessler1 e-mail: mark.kessler@colorado.edu
MORE ARTICLES LIKE THIS
These links to content published by NPG are automatically generated.
NEWS AND VIEWS
Geomorphology Where glaciers cut deepNature Geoscience News and Views (01 Jun 2008)
Geomorphology Where glaciers cut deepNature Geoscience News and Views
See all 9 matches for News And ViewsRESEARCH
Fjords line mountainous continental margins where icesheets and glaciers once stood. A two-dimensional model simulation suggests that fjords can be eroded within one million years, primarily in response to topographic ice steering and erosion from ice discharge. Subsequent glaciers that form on these landscapes are smaller and exhibit greater responses to climate change. Fjords line mountainous continental margins where icesheets and glaciers once stood. A two-dimensional model simulation suggests that fjords can be eroded within one million years, primarily in response to topographic ice steering and erosion from ice discharge. Subsequent glaciers that form on these landscapes are smaller and exhibit greater responses to climate change.Nature Geoscience Letter
Geomorphic limits to climate-induced increases in topographic reliefNature Article (02 Sep 1999)
See all 52 matches for Research