2012
DOI: 10.2136/sssaj2012.0034
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Estimation of Soil Clay Content from Hygroscopic Water Content Measurements

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Cited by 66 publications
(75 citation statements)
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“…The ability of these minerals to bind hygroscopic water is similar to their ability to include caesium in their lattice structure. This is in accordance with the results of Wudivira et al (25) who used hygroscopic water measurements at 50 % atmospheric relative humidity to estimate site-specifi c clay mineral content. All this suggests that hygroscopic moisture is an important and useful soil parameter that deserves further investigation, but it cannot serve as a fundamental soil characteristic unless multiple environmental factors are eliminated by standardised measurement (23,25).…”
Section: Effects Of Soil Properties On 137 Cs Depth Distributionsupporting
confidence: 92%
“…The ability of these minerals to bind hygroscopic water is similar to their ability to include caesium in their lattice structure. This is in accordance with the results of Wudivira et al (25) who used hygroscopic water measurements at 50 % atmospheric relative humidity to estimate site-specifi c clay mineral content. All this suggests that hygroscopic moisture is an important and useful soil parameter that deserves further investigation, but it cannot serve as a fundamental soil characteristic unless multiple environmental factors are eliminated by standardised measurement (23,25).…”
Section: Effects Of Soil Properties On 137 Cs Depth Distributionsupporting
confidence: 92%
“…The ECa correlates with various soil properties such as salinity (Rhoades et al, 1999), clay content (Triantafilis &Lesch, 2005 andWuddivira et al, 2012), water content (Haimelin, 2008) and carbon content (Martinez et al, 2009). The ECa can be used as an indirect indicator for identifying some important soil properties including soil salinity, clay content, cation exchange capacity, soil moisture content, and temperature (McNeill, 1992 andRhoades et al, 1999).…”
Section: Introductionmentioning
confidence: 99%
“…Electromagnetic induction (EMI) sensors noninvasively measure the spatial variations of soil apparent electric conductivity (Atwell et al, 2013;Bréchet et al, 2012Rossi et al, 2013and Wuddivira et al, 2012. Electromagnetic induction methods are much less labor, cost and time intensive as the volume of measurement is larger than traditional point soil sampling (Rhoades et al, 1999).…”
Section: Introductionmentioning
confidence: 99%
“…Electromagnetic induction (EMI) sensors such as DUALEM-1S EC meter employ geophysical imaging techniques to rapidly, non-invasively measure spatial variations of soil ECa (Atwell et al, 2013;Bréchet et al, 2012;Rossi et al, 2013;Wuddivira et al, 2012). Apparent soil electrical conductivity correlates with va rious physicochemical soil properties such as salinity (Rhoades et al, 1999), clay content (Triantafilis and Lesch, 2005;Wuddivira et al, 2012), water content (Haimelin, 2008) and carbon content (Martinez et al, 2009).…”
Section: Introductionmentioning
confidence: 99%
“…Apparent soil electrical conductivity correlates with va rious physicochemical soil properties such as salinity (Rhoades et al, 1999), clay content (Triantafilis and Lesch, 2005;Wuddivira et al, 2012), water content (Haimelin, 2008) and carbon content (Martinez et al, 2009). Recently, Atwell et al (2013) and Bréchet et al (2012) showed that under humid tropical conditions, variation in ECa was influenced by temporal changes in soil moisture content, spatial variation of claysilt mineral content, soil solution electrical conductivity (ECe) and soil water repellency.…”
Section: Introductionmentioning
confidence: 99%