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Showing 1–6 of 6 results

Advanced filters: Author: David Mohrig Clear advanced filters

Formation of Precambrian sediment ripples

Douglas J. Jerolmack
David Mohrig
Research20 Jul 2005
Nature

Volume: 436, P: E1
Tributary channel networks formed by depositional processes

Drainage divides between coastal plain channel networks can be constructed through depositional, rather than erosional, processes according to a lidar-based topographic analysis of the Gulf of Mexico coastal plain.

John M. Swartz
Benjamin T. Cardenas
Paola Passalacqua
Research28 Feb 2022
Nature Geoscience

Volume: 15, P: 216-221
Rules of river avulsion change downstream

A novel theoretical framework reveals how topography surrounding rivers causes dramatic changes in their courses, with implications for natural hazard prediction, particularly in the Global South.

James H. Gearon
Harrison K. Martin
Douglas A. Edmonds
Research18 Sept 2024
Nature

Volume: 634, P: 91-95
Growth laws for channel networks incised by groundwater flow

Groundwater seepage is expected to affect channel features, but its role remains controversial. Two linear response relationships that describe channel evolution from groundwater flux are sufficient to characterize seepage-driven channel networks, linking the dynamics of channel growth to channel morphology.

Daniel M. Abrams
Alexander E. Lobkovsky
Daniel H. Rothman
Research01 Feb 2009
Nature Geoscience

Volume: 2, P: 193-196
Emplacement of massive turbidites linked to extinction of turbulence in turbidity currents

Massive-turbidite deposits are common in deep-water environments. Numerical simulations suggest that when turbulence is extinguished as turbidity currents reach areas of minimal slope, sediment reworking ceases, which allows the deposition of massive units.

Mariano I. Cantero
Alessandro Cantelli
Gary Parker
Research13 Nov 2011
Nature Geoscience

Volume: 5, P: 42-45
Carbon storage in the Mississippi River delta enhanced by environmental engineering

Substantial amounts of organic carbon have been buried in the Wax Lake delta, USA, over the past 20 years, according to sediment analyses. This suggests that river diversions can lead to both coastal accretion and carbon sequestration.

Michael R. Shields
Thomas S. Bianchi
Jason H. Curtis
Research09 Oct 2017
Nature Geoscience

Volume: 10, P: 846-851