Slow Rates of Rock Surface Erosion and Sediment Production across the Namib Desert and Escarpment, Southern Africa

doi:10.2475/ajs.301.4-5.326

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Slow Rates of Rock Surface Erosion and Sediment Production across the Namib Desert and Escarpment, Southern Africa

Paul R. Bierman^* and Marc Caffee^**

^* Department of Geology and School of Natural Resources, University of Vermont, Burlington, Vermont 05405-0122
^** Center for Accelerator Mass Spectrometry, Lawrence Livermore Laboratory, Livermore, California 94550

Slow erosion has characterized the Namib Desert, the Namibianescarpment, and the adjacent Namibian highlands over the Pleistocene.Paired analyses (n = 66) of in-situ-produced ¹⁰Be and ²⁶Al inquartz-bearing samples of bedrock primarily from inselbergs,of sediment from dry river and stream channels, and of clastsfrom desert surfaces reveal large inventories of these cosmogenicnuclides indicating significant landscape stability over atleast the past million years.

Bedrock samples (n = 47) collected in three transects from thecoast, across the escarpment, and into the highlands, show nospatial pattern in elevation-normalized nuclide abundance despitea difference in mean annual precipitation (MAP) between samplesites at the coast (MAP <25 mm yr^–1) and those in thehighlands (MAP >400 mm yr^–1). Average model erosionrates inland of the escarpment (3.2 ± 1.5, n = 9) areindistinguishable from average rates seaward of the escarpment(3.6 ± 1.9, n = 38) indicating that rock on the pedimentedcoastal plain is eroding at the same rate as rock in the highlands.Sediment samples (n = 3) from small streams suggest that thelandscape as a whole is eroding more rapidly than the bedrockoutcrops and that a basin in the steep escarpment zone is erodingseveral times faster (16 m my^–1) than either a basin inthe highlands (5 m my^–1) or a basin in the coastal plain(8 m my^–1). Data from large rivers (n = 4) constrain erosionrates, averaged over 10⁵ yrs and 10⁴ to 10⁵ km², between 3 and9 m my^–1. Small quartz clasts (n = 12) collected fromfour desert surfaces record extraordinarily long, variable,and in some cases complex exposure histories. Simple ¹⁰Be modelages are as high as 1.8 my; some minimum total histories, consideringboth ¹⁰Be and ²⁶Al and including both burial and exposure, exceed2.7 my. As a group, the Namibian cosmogenic data do not supportthe model of significant and on-going escarpment retreat.

The similarity of erosion rates calculated from ¹⁰Be analysisof fluvial sediments and longer-term (10⁷ yr), average massremoval rates estimated by others using fission track analysisof rock suggests that Namibian erosion rates have reached asteady state and are changing little over time. At outcrop scales,the concordance of ¹⁰Be and ²⁶Al in most bedrock samples suggeststhat the model of steady, uniform bedrock erosion is valid;there is no indication of intermittent burial, shedding of thickrock slabs, or stripping of previous cover. At an intermediatescale, a transect of bedrock samples north of Gobabeb demonstratesthat the northern boundary of the massive Namib Sand Sea hasbeen steady and unshifting. Similarly low cosmogenically estimatederosion rates across west and central Namibia suggest that thelandscape is in geomorphic steady state, its overall appearancechanging only slowly through time.

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