A comparison of grain-size analysis methods for sand-dominated fluvial sediments

Cheetham, Michael D.; Keene, Annabelle F.; Bush, Richard T.; Sullivan, Leigh A.; Erskine, Wayne D.

Title: A comparison of grain-size analysis methods for sand-dominated fluvial sediments
Creator: Cheetham, Michael D.; Keene, Annabelle F.; Bush, Richard T.; Sullivan, Leigh A.; Erskine, Wayne D.
Relation: Sedimentology Vol. 55, Issue 6, p. 1905-1913
Publisher Link: http://dx.doi.org/10.1111/j.1365-3091.2008.00972.x
Publisher: Wiley-Blackwell Publishing
Resource Type: journal article
Date: 2008
Description: Grain-size distribution is a fundamental tool for interpreting sedimentary units within depositional systems. The techniques assessed in this study are commonly used to determine grain-size distributions for sand-dominated sediments. However, the degree of consistency and differences in interpretation when using a combination of grain-size methods have not yet been assessed systematically for sand-dominated fluvial sediments. Results obtained from laser diffraction, X-ray attenuation and scanning electron microscopy grain-size analysis techniques were compared with those obtained from the traditional sieve/hydrometer method. Scanning electron microscopy was shown to provide an inaccurate quantitative analysis of grain-size distributions because of difficulties in obtaining representative samples for examination. The X-ray attenuation method is unsuitable for sand-dominated sediments because of its upper size range of only 300 μm. The consistently strong correlation between the laser diffraction results and the sieve/hydrometer results shows that these methods are comparable for sand-dominated fluvial sediments. Provided that sample preparation is consistent, the latter two methods can be used together within a study of such sediments while maintaining a high degree of accuracy. These results indicate that data for sand-dominated fluvial sediments gained from the long-established sieve/hydrometer method can be compared with confidence to those obtained by modern studies using laser diffraction techniques.
Subject: hydrometer; laser diffraction; scanning electron microscopy; sieve; X-ray attenuation
Identifier: uon:5278
Identifier: http://hdl.handle.net/1959.13/43151
Identifier: ISSN:0037-0746
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