Title

Rapid entrenchment of stream profiles in the salt caves of Mount Sedom, Israel

Files

Link to Full Text

Download Full Text

Publication Date

March 1995

Abstract

Rock salt is approximately 1000 times more soluble than limestone and thus displays high rates of geomorphic evolution. Cave stream channel profiles and downcutting rates were studied in the Mount Sedom salt diapir, Dead Sea rift valley, Israel. Although the area is very arid (mean annual rainfall ≈ 50 mm), the diapir contains extensive karst systems of Holocene age. In the standard cave profile a vertical shaft at the upstream end diverts water from a surface channel in anhydrite or clastic cap rocks into the subsurface route in the salt. Mass balance calculations in a sample cave passage yielded downcutting rates of 0–2 mm s−1 during peak flood conditions, or about eight orders of magnitude higher than reported rates in any limestone cave streams. However, in the arid climate of Mount Sedom floods have a low recurrence interval with the consequence that long‐term mean downcutting rates are lower: an average rate of 8·8 mm a−1 was measured for the period 1986–1991 in the same sample passage. Quite independently, long‐term mean rates of 6·2mm a−1 are deduced from 14C ages of driftwood found in upper levels of 12 cave passages. These are at least three orders of magnitude higher than rates established for limestone caves. Salt cave passages develop in two main stages: (1) an early stage characterized by high downcutting rates into the rock salt bed, and steep passage gradients; (2) a mature stage characterized by lower downcutting rates, with establishment of a subhorizontal stream bed armoured with alluvial detritus. In this mature stage downcutting rates are controlled by the uplift rate of the Mount Sedom diapir and changes of the level of the Dead Sea. Passages may also aggrade. These fast‐developing salt stream channels may serve as full‐scale models for slower developing systems such as limestone canyons.

Notes

Earth Surface Processes and Landform, Vol. 20, no. 2 (1995-03-01).

Keywords

Allogeneic Karst, Salt Caves, Stream Profile Downcutting Rate, Salt Diapir, Dead Sea, Israel, Radiocarbon Dates

Description

1 online resource

Subject: topical

Allogeneic Karst; Salt Caves; Stream Profile Downcutting Rate; Salt Diapir; Dead Sea; Israel; Radiocarbon Dates

Type

Article

Genre

Serial publications

Identifier

SFS0039970_00001

Share

COinS