Journal
GEODERMA
Volume 108, Issue 1-2, Pages 79-90Publisher
ELSEVIER
DOI: 10.1016/S0016-7061(02)00122-2
Keywords
bioturbation; catena; macroporosity; saturated hydraulic conductivity; toposequence; tropical rainforest
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We investigate the spatial variability of saturated hydraulic conductivity (K-sat) along a tropical rainforest catena, which consists of a Typic Kandiudult (Latossolo Vermelho Distrofico argissolico) and Plinthic Hapludox (Latossolo Amarelo Distrofico tipico). The former soil type extends from midslope to interfluve and has a high clay content throughout the profile, whereas the latter soil type extends from the midslope to valley bottom and only has a high clay content at depths >90 cm. We measured K-sat along a transect at depths of 20, 30, 50 and 90 cm with a compact, constant-head permeameter. K-sat is not significantly different (alpha = 0.10) between these soil types at any depth except for 90 cm. Ordinary and robust linear regression models with distance from the interfluve as in the independent variable showed no significant change in K, as a function of topography. Loess regression showed some dependency of K-sat on topography only at the 90-cm depth. Semivariograms showed no apparent spatial structure in K-sat at distances greater than or equal to 25 in for all depths. We conclude that the strong topography dependence of soil types along this catena and, hence, primary soil attributes, is not reflected in a similar dependence of K-sat, and tentatively attribute this lack of dependence to the overriding influence of bioturbation-controlled macroporosity. We outline a framework for detecting possible K-sat-topography relationships based on the distinction between bioturbation-controlled nonstructural macroporosity and mineralogy-controlled structural macroporosity. (C) 2002 Elsevier Science B.V All rights reserved.
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