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Water Infiltration and Redistribution in a Silt Loam Subsoil with Vertical Worm Channels¹

ABSTRACT

Infiltration and redistribution of water in a fine silty, mixed, mesic Fluventic Eutrochrept with macropores (dominantly vertical worm channels) were studied with physical and morphological techniques. Infiltration rates in individual worm channels were measured and channel morphology was studied by excavation after adding methylene blue and gypsum. Three different steady infiltration rates corresponded with different channel morphology. One channel occurred per 200 cm² of soil. The measured, dominant infiltration rate in a channel was used to calculate ponding time on and the associated water movement in the soil matrix after adding 2 cm of water. The latter was calculated with an existing simulation model for one-dimensional infiltration in homogeneous soil using K- and h- data. Calculations of h indicated lack of soil saturation. This agreed only with in-situ measurements when small tensiometer cups were used. Large cups intercepted water-conducting macropores, erroneously suggesting saturation of the entire soil matrix. Addition of a 5-cm thick layer of sand to the surface of infiltration made the macropores discontinuous and induced saturated conditions, as measured and simulated. Measurement of infiltration rates into individual macropores, rather than calculation of those rates, is recommended when macropore morphology is irregular.

¹ Contribution from the Netherlands Soil Survey Institute, P.O. Box 98, 6700 AB Wageningen, The Netherlands. Presented at the ASA meetings, Atlanta, Ga., November 1981.

² Dep. of Soil Physics.

Received for publication February 3, 1982. Accepted for publication June 3, 1982.

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