A soil's hydrology (seasonal saturation occurrence) must be estimated in th
e field to delineate jurisdictional wetlands and to evaluate soil suitabili
ty for on-site waste disposal. It is difficult to predict soil hydrology on
lands that contain ditches, because the areal extent of hydrologic alterat
ion by an individual ditch is generally unknown, This study evaluated wheth
er morphological changes occurred in soils after a drainage ditch had been
installed. Four transects of plots were established parallel to a ditch wit
h plots at distances of 7, 30, 60, and 80 m from the ditch. Each transect c
ontained plots in the following soils: Aquic Paleudults, Aeric Paleaquults,
and Typic Paleaquults. Soils within 30 m of the ditch had a significantly
(0.10 level) greater volume of Fe masses at depths of 40 to 100 cm than soi
ls further from the ditch. Duration of saturation did not vary significantl
y with distance from the ditch, but within 30 m of the ditch water tables f
luctuated more frequently than those in soils further away. Concentrations
of Fe(II) in groundwater at a depth of 60 cm were higher at 7 m from the di
tch than at 60 m, but redox potentials at a depth of 60 cm were <500 Inv fo
r shorter periods of time at 7 m than at greater distances from the ditch,
We hypothesized that groundwater flowing into the soils within 30 m of the
ditch introduced Fe(II) into the Bt horizons. The Fe(II) oxidized and forme
d Fe masses as the water table fell. Our results indicate that soil colors
can change within 30 yr as a result of ditching. We suggest that the major
area of soil influenced by the ditch can be identified by,where the Fe mass
es in the argillic horizons increase as one approaches the ditch.