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Please use this identifier to cite or link to this item: http://apo.ansto.gov.au/dspace/handle/10238/3932

Title: Revealing sediment sources, mixing and transport during erosional crater evolution in the hyperarid Negev Desert, Israel
Authors: Fruchter, N
Matmon, A
Avni, Y
Fink, D
Keywords: Sediments
Craters
Israel
Isotopes
Geomorphology
Deserts
Issue Date: 15-Nov-2011
Publisher: ELSEVIER
Citation: Fruchter, N., Matmon, A., Avni, Y., Fink, D. (2011). Revealing sediment sources, mixing, and transport during erosional crater evolution in the hyperarid Negev Desert, Israel. GEOMORPHOLOGY, 134(3-4), 363-377.
Abstract: To better understand the sedimentary history of the erosional crater of Makhtesh Hazera in the hyper-arid Negev Desert of southern Israel we have measured concentrations of in situ (10)Be in alluvial sediments from the active drainage system and from abandoned alluvial terraces and dated them using optically stimulated luminescence (OSL). These sedimentary sequences suggest changes in the drainage system behavior over time and show a periodic pattern in which periods of sediment aggradation alternate with periods of degradation through incision and erosion. In alluvial terrace sediments, (10)Be concentrations were combined with OSL ages to gain insight of the temporal framework of sediment deposition and shed light on the process of sediment storage. OSL and simple I Be exposure ages of terrace sediments give deposition ages between similar to 340 ka to similar to 50 ka, at which time the youngest alluvial terrace was incised. Deposition was interrupted twice, at similar to 300 ka and similar to 160 ka, when periods of rapid incision caused the abandonment of the active fluvial surface and the stabilization of a younger and lower fluvial surface. In the active drainage system, (10)Beconcentrations suggest several possible quartz sources, of which the Lower Cretaceous sandstone bedrock exposed at the base of the cliff enclosing the Makhtesh is the most dominant. The results suggest that sediment eroding form these cliffs are conveyed through the active alluvial channels without significant sediment contribution from alluvial terraces or from eroded bedrock exposed within the Makhtesh. In contrast to our measurements in the active drainage system, (10)Be concentrations in alluvial terrace sediments record significant storage within the Makhtesh. We suggest that the geometry of the Makhtesh, mainly the disproportion between the size of the Makhtesh and its narrow outlet, leads to significant accumulation of sediment within the Makhtesh. Episodic breaching of the barrier is followed by rapid and short-lived incision into the stored sediment. The long residence time of sediment within the Makhtesh results in high measured (10)Be concentrations. At the end of each of these short incision episodes, when channels are already carved into the alluvial sediment and terraces are formed, the channels only convey sediment directly eroded from the bounding cliff of the Makhtesh; a situation presently observed. (C) 2011 Elsevier B.V. All rights reserved.
URI: http://dx.doi.org/10.1016/j.geomorph.2011.07.011
http://apo.ansto.gov.au/dspace/handle/10238/3932
ISSN: 0169-555X
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