Comparing capillary rise contact angles of soil aggregates and homogenized soil

authored by
Juan C. Ramírez-Flores, Susanne K. Woche, Jörg Bachmann, Marc O. Goebel, Paul D. Hallett
Abstract

Soil wettability affects physical properties such as aggregate stability, infiltration rate, or erodibility. To describe the wetting properties of soil, the soil-air-water contact angle (CA) is often used. At present, a direct measurement of the CA determined on intact soil aggregates and a direct comparison with corresponding homogenized aggregates is still lacking, mainly because standard methods have not been defined to measure the wettability of soil aggregates. In this study, the Capillary Rise Method (CRM) was used to assess contact angles of single intact 1-2 mm soil aggregates, packings of intact aggregates and packings of crushed (homogenized) aggregates of 9 topsoils and 3 humus subsoils from 5 sites in Germany. In general, CAs of the homogenized aggregates were quite similar for all soils (65° ± 10°), while CAs for aggregate packings and single aggregates generally were larger for grassland and forest soils (60° to 80°) than for arable soils (0° to 20°). It was concluded that all soils contain potentially hydrophobic pore surfaces, but the effectiveness of these surfaces to create water repellency depends on the small-scale architecture of the pore space and the distribution/position of hydrophobic components inside the matrix. These findings suggest that it is misleading, particularly for agricultural soils, to quantify wetting properties by only analyzing homogenized soil. We propose that CRM-CA measurements should be extended to investigations of intact aggregates and the wetting coefficient k = cosθ should also be displayed to distinguish more clearly between completely wettable soils and soils with low subcritical repellency. Finally, it should be noted that the methods proposed are only applicable to non-hydrophobic soil exhibiting subcritical water repellency (CA > 0°,..., CA ≤ 90°).

Organisation(s)
Institute of Soil Science
Section Soil Physics
External Organisation(s)
The James Hutton Institute
Type
Article
Journal
GEODERMA
Volume
146
Pages
336-343
No. of pages
8
ISSN
0016-7061
Publication date
31.07.2008
Publication status
Published
Peer reviewed
Yes
ASJC Scopus subject areas
Soil Science
Sustainable Development Goals
SDG 15 - Life on Land
Electronic version(s)
https://doi.org/10.1016/j.geoderma.2008.05.032 (Access: Unknown)