Damian Steffen scite author profile

This study investigates the connection between sediment aggradation, erosion and climate in a desert environment of the Majes valley, southern Peru. Luminescence dating of terraces and fans shows that sediment aggradation correlates with wet time intervals on the Altiplano, suggesting a climatic influence on the aggradation-degradation cycles. Major periods of aggradation occurred between *110-100, *60-50 and 12-8 ka. More precipitation in the Majes catchment resulted in increased erosion and transportation of sediment from the hillslopes into the trunk river. As a result, the sediment loads exceeded the transport capacity of the Majes River and aggradation started in the lower reaches where the river gradient is less. Depletion of the hillslope sediment reservoirs caused a relative increase in the capacity of the trunk river to entrain and transport sediment, resulting in erosion of the previously deposited sediment. Consequently, although climate change may initiate a phase of sediment accumulation, degradation can be triggered by an autocyclic negative feedback and does not have to be driven by climatic change.

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Luminescence dating of historical fluvial deposits from the Danube and Ebro

Fiebig¹,

Preusser²,

Steffen³

et al. 2009

Geoarchaeology

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The validity of optically stimulated luminescence (OSL) has been tested on known-age (historical) fluvial deposits along the rivers Danube (Austria) and Ebro (Spain). As partial bleaching of the OSL signal prior to deposition can interfere with correct age estimates, different approaches to extracting the dose accumulated during burial are compared. Using the finite mixture model gave OSL ages that are internally as well as stratigraphically consistent and in agreement with independent age control. According to these results, fluvial deposition at the Danube River study site can be attributed to different periods ranging from Bronze Age to the 18th century A.D. Fluvial deposits of Roman age and of the late 17th or early 18th century A.D. were found at the Ebro River study site. This is consistent with the morphological subdivision of the valleys and encourages further investigation of the fluvial and archaeological history of the study areas using OSL.

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Timing the Interface Between Mass Wasting and Fluvial Processes with OSL

Schlunegger

Norton

Steffen³

2012

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Damian Steffen

Drainage basin response to climate change in the Pisco valley, Peru

OSL quartz age underestimation due to unstable signal components

Late Pleistocene fans and terraces in the Majes valley, southern Peru, and their relation to climatic variations

Luminescence dating of historical fluvial deposits from the Danube and Ebro

Timing the Interface Between Mass Wasting and Fluvial Processes with OSL

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