DOUBLE-RING AND TENSION INFILTROMETER MEASUREMENTS OF HYDRAULIC CONDUCTIVITY AND MOBILE SOIL REGIONS

Authors

  • John M. Köhne Department of Soil Physics, Helmholtz Centre for Environmental Research - UFZ
  • José Alves Júnior EA-UFG, Goiânia-GO
  • Sigrid Köhne Martin-Luther Universität Halle
  • Bärbel Tiemeyer Institut für Agrarrelevante Klimaforschung
  • Bernd Lennartz Institute for Land Use, Faculty for Agricultural and Environmental Sciences, University of Rostock
  • Jens Kruse Institute for Land Use, Faculty for Agricultural and Environmental Sciences, University of Rostock

Keywords:

Preferential flow, solute transport, dye tracer, mobile region.

Abstract

There are several field methods and techniques for measuring Ks. In this study, double-ring (DI) and tension infiltrometer (TI) infiltration techniques were combined with dye tracer application and compared for estimating Ks and the mobile soil fraction on a structured sandy loam soil (Gleyic Luvisol), in Rostock, Germany. Water was infiltrated into soil by using three methods: DI, TI (without contact with sand), and TIsand (with contact with sand), until steady-state conditions were obtained. At different positions, three pulse depths of 25 mm, 50 mm, and 100 mm, with a 2 g L-1 Brilliant Blue (BB) FCF dye solution, were used. The results showed variable Ks values for DI of 820-2,020 cm d-1, which were 7 to 13 times higher, when compared to TI values, and 12 to 33 times higher than for TIsand. For the 25 mm and 50 mm BB applications, the mobile (dye-stained) soil regions constituted up to 60% in the top 25 cm and varied little, when considered the infiltration methods. Only the 100 mm application, using the DI, yielded significant BB displacement into the subsoil. Hence, both Ks values and their corresponding dye pattern depended on the boundary conditions. For DI, more than 90% of the dye was constrained below the infiltration area, revealing that flow was essentially vertical.

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Author Biography

José Alves Júnior, EA-UFG, Goiânia-GO

Engenheiro Agrônomo pela Universidade Estadual Paulista Júlio de Mesquita Filho - FEIS/UNESP (1997-2001), Doutorado em Irrigação e Drenagem pela Universidade de São Paulo - ESALQ/USP (2002-2006), Pós-Doutorado em Engenharia de água e solo pela EMBRAPA - Arroz e Feijão. Tem experiência na área de Engenharia Agrícola, com enfâse em Irrigação, Hidráulica, Agroclimatologia e Necessidade hídrica das culturas. Realizou estágio por 4 meses na Alemanha (University of Rostock) e 6 meses nos USA (University of Florida). Possui artigos completos publicados em periódicos, além de publicações em congressos nacionais e internacionais. Atuou como Professor do Centro Universitário de Goiás-Uni-Anhanguera (de Ago/2006 a Jan/2009), na Universidade Estadual de Goiás - UEG Palmeiras de Goiás (de Fev/2007 a Jan/2009), UEG Anápolis (de Fev/2008 a Jan/2009) e como professor substituto, na Universidade Federal de Goiás - EAA/UFG (de Fev/2007 a Jan/2009), e desde Jan/2009 é professor efetivo adjunto I com dedicação exclusiva na Universidade Federal de Goiás - Escola de Agronomia e Engenharia de Alimentos/UFG, ministrando aulas na graduação e Pós-Graduação (Agroclimatologia, Hidráulica, Culturas irrigadas, Irrigação e Drenagem., Relação Solo, água, planta, atmosfera, manejo de bacías hidrográficas e Hidrologia). Atualmente possui pesquisas na área de manejo da irrigação nas culturas do feijoeiro, pinhão manso e Pequi.

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Published

2011-08-31

How to Cite

KÖHNE, J. M.; ALVES JÚNIOR, J.; KÖHNE, S.; TIEMEYER, B.; LENNARTZ, B.; KRUSE, J. DOUBLE-RING AND TENSION INFILTROMETER MEASUREMENTS OF HYDRAULIC CONDUCTIVITY AND MOBILE SOIL REGIONS. Pesquisa Agropecuária Tropical [Agricultural Research in the Tropics], Goiânia, v. 41, n. 3, p. 336–347, 2011. Disponível em: https://revistas.ufg.br/pat/article/view/11376. Acesso em: 21 dec. 2024.

Issue

Section

Soil Science