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Research article2017Peer reviewed

Post-tillage evolution of structural pore space and saturated and near-saturated hydraulic conductivity in a clay loam soil

Sandin, Maria; Koestel, Johannes; Jarvis, Nicholas; Larsbo, Mats

Abstract

Soil structure varies considerably with time in agricultural soils, as a result of complex interactions between soil management (i.e. tillage and traffic) and site-specific environmental factors. The resulting temporal variations in soil hydraulic properties significantly affect the soil water balance (e.g. partitioning between infiltration and runoff), but are still poorly understood. Thus, post-tillage decreases in saturated and near-saturated hydraulic conductivities have been frequently observed, although the underlying changes in the properties of the structural pore-space have not been studied. We used X-ray tomography to quantify the temporal changes in the volume, size distribution and connectivity of structural pores in the harrowed layer of a conventionally-tilled agricultural field over one growing season. We also determined the extent to which these properties could explain temporal variations in saturated hydraulic conductivity measured on the same samples and near-saturated hydraulic conductivities measured in the field with tension disc infiltrometers. Early-season rainfall events caused significant decreases in the imaged porosity in the uppermost 5 mm of soil within one month of harrowing and also at 2.5-5 cm depth but only for pores >0.5 mm in diameter. Measurements of critical pore diameter showed that the sample-scale connectivity of these pores was very limited at all times. Temporal changes in the pore network characteristics were reflected in the field measurements of near saturated hydraulic conductivity, but not in saturated hydraulic conductivity measured in the laboratory. Saturated hydraulic conductivity was, however, correlated (Spearman rho = 0.50) with the connectivity probability which is a measure of global pore space connectivity. Large spatial variation combined with a small sample size limited our ability to quantify temporal variations in the soil structural pore-space. Increased automation of image processing would enable greater replication and therefore enhance the utility of X-ray tomography as a technique for investigating the properties of the structural pore space. (C) 2016 Elsevier B.V. All rights reserved.

Keywords

Tillage; Temporal variability; Structural porosity; Saturated and near-saturated hydraulic conductivity; X-ray tomography; Tension disc infiltrometer

Published in

Soil and Tillage Research
2017, Volume: 165, pages: 161-168
Publisher: ELSEVIER SCIENCE BV