Abstract
The least limiting water range (LLWR) has been used as an indicator of soil physical quality as it represents, in a single parameter, the soil physical properties directly linked to plant growth, with the exception of temperature. The usual procedure for obtaining the LLWR involves determination of the water retention curve (WRC) and the soil resistance to penetration curve (SRC) in soil samples with undisturbed structure in the laboratory. Determination of the WRC and SRC using field measurements (in situ ) is preferable, but requires appropriate instrumentation. The objective of this study was to determine the LLWR from the data collected for determination of WRC and SRC in situ using portable electronic instruments, and to compare those determinations with the ones made in the laboratory. Samples were taken from the 0.0-0.1 m layer of a Latossolo Vermelho distrófico (Oxisol). Two methods were used for quantification of the LLWR: the traditional, with measurements made in soil samples with undisturbed structure; and in situ , with measurements of water content (θ), soil water potential (Ψ), and soil resistance to penetration (SR) through the use of sensors. The in situ measurements of θ, Ψ and SR were taken over a period of four days of soil drying. At the same time, samples with undisturbed structure were collected for determination of bulk density (BD). Due to the limitations of measurement of Ψ by tensiometer, additional determinations of θ were made with a psychrometer (in the laboratory) at the Ψ of -1500 kPa. The results show that it is possible to determine the LLWR by the θ, Ψ and SR measurements using the suggested approach and instrumentation. The quality of fit of the SRC was similar in both strategies. In contrast, the θ and Ψ in situ measurements, associated with those measured with a psychrometer, produced a better WRC description. The estimates of the LLWR were similar in both methodological strategies. The quantification of LLWR in situ can be achieved in 10 % of the time required for the traditional method.
Highlights
A utilização de amostras com estrutura preservada de solo pode apresentar limitações, pois, quando confinadas em cilindros, podem influir no valor da RP por causa da razão entre os diâmetros do cone de penetração e do cilindro
The results show that it is possible to determine the least limiting water range (LLWR) by the, and SR measurements using the suggested approach and instrumentation
Ressalta-se que essas propriedades têm forte ligação com os processos que interferem na disponibilidade e na absorção de nutrientes
Summary
A utilização de amostras com estrutura preservada de solo pode apresentar limitações, pois, quando confinadas em cilindros, podem influir no valor da RP por causa da razão entre os diâmetros do cone de penetração e do cilindro. Nesse sentido, Misra & Li (1996) concluíram que não existe efeito de confinamento da amostra de solo sobre a RP quando a razão entre os diâmetros do cilindro e do cone de penetração for superior a 35. Esse tema ainda carece de mais investigações. A realização de uma amostragem criteriosa para quantificação do IHO não elimina a possibilidade dos dados experimentais não representarem com fidelidade a condição física do solo. Medições realizadas diretamente no campo (in situ) podem representar avanço na descrição mais realística dos atributos e processos físicos do solo
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