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Overconsolidation in Agricultural Soils: II. Pedotransfer Functions for Estimating Preconsolidation Stress

Department of Land Resource Science, Univ. of Guelph, Guelph, Ontario, Canada N1G 2W1

*Corresponding author (rmcbride{at}lrs.uoguelph.ca).

ABSTRACT

A series of soil survey interpretive procedure, or pedotransfer functions (PTFs), are presented that follow from the hypothesis corroborated in the companion paper that the satureated compressive behavior of structured and of corresponding remolded agricultural soils in southern Outario were strongly related. The three PTFs were useful in characterizing the degree of overconsolidation as a physical indicator of soil quality on a regional basis. PTF1 identified soils as being highly overconsolidated when the void ratio difference between the normal compression line (NCL) at unit stress and e₀ exceeded 0.36. The preconsolidation stress ('_c) of a soil was estimated from the dry bulk density measured in situ and from other soil properties needed to estimate the NCL of remolded soils (PTF2) or the virgin compression line of structured soils (PTF3). The PTFs sere tested on a data set comprised of soil horizons characterized in five county-level soil inventories that met the minimum PTF data requiremetns and other defined criteria (n = 210). All PTFs showed that the degree of soil overconsolidation increased significantly (P<0.0001) with depth and with increasing clay conten. For PTF2, the mean estimated '_c for the Ap horizons (n = 47) was only 20 kPa due to the effect of repeated tillage and natural turbational processes. the unitlled solum (B) horizons were found to be in a less consolidated condition than the C horizon subsoils (mean '_c = 97 and 138 kPa, respectively). This suggested that effective stresses from wheel traffic and tillage operations have generally been no greater than those originating from natural causes int heis region. Many of the clay-rich subsoils were quite overconsolidated (mean '_c > 150 kPa), whereas the coarser textured soils appeared to be closer to a normally consolidated condition. PTF3 corroborated most of these findings.

Received for publication August 5, 1995.

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