Laboratory simulation of the salt weathering of schist: II. Fragmentation of fine schist particles

Wells, Peter; Willgoose, Garry; Binning, Philip

Title: Laboratory simulation of the salt weathering of schist: II. Fragmentation of fine schist particles
Creator: Wells, Peter; Willgoose, Garry; Binning, Philip
Relation: Earth Surface Processes and Landforms Vol. 32, Issue 5, p. 687-697
Publisher Link: http://dx.doi.org/10.1002/esp.1450
Publisher: John Wiley
Resource Type: journal article
Date: 2007
Description: Recent developments in long term landform evolution modelling have created a new demand for quantitative salt weathering data, and in particular data describing the size distribution of the weathered rock fragments. To enable future development of rock breakdown models for use in landscape evolution and soil production models, laboratory work was undertaken to extend existing schist/salt weathering fragmentation studies to include an examination of the breakdown of sub-millimetre quartz chlorite schist particles in a seasonally wet tropical climate. Laser particle sizing was used to assess the impact of different experimental procedures on the resulting particle size distribution. The results reveal that salt weathering under a range of realistic simulated tropical wet season conditions produces a significant degree of schist particle breakdown. The fragmentation of the schist is characterized by splitting of the larger fragments into mid-sized product with finer material produced, possibly from the breakdown of mid-sized fragments when weathering is more advanced. Salinity, the salt addition method and temperature were all found to affect weathering rates. Subtle differences in mineralogy also produce variations in weathering patterns and rates. It is also shown that an increase in drying temperature leads to accelerated weathering rates, however, the geometry of the fracture process is not significantly affected.
Subject: salt weathering; particle size distribution; quartz chlorite schist; tropical; concentration effect; temperature effect
Identifier: http://hdl.handle.net/1959.13/33957
Identifier: uon:3414
Identifier: ISSN:0197-9337
Language: eng
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