Hydro-Physical Properties of a Typic Hapludult under the Effect of Rice Husk Ash

Gláucia Oliveira Islabão,Ledemar Carlos Vahl,Luis Carlos Timm,Juliana Brito Da Silva Teixeira,Cláudia Liane Rodrigues De Lima

doi:10.1590/18069657rbcs20150161

Gláucia Oliveira Islabão, Ledemar Carlos Vahl + Show 3 more

Open Access

https://doi.org/10.1590/18069657rbcs20150161

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Abstract

The combustion of rice husk generates a partially burnt mixture called rice husk ash (RHA) that can be used as a source of nutrients to crops and as a conditioner of soil physical properties. The objective of this study was to evaluate the effect of RHA levels on the hydro-physical properties of a Typic Hapludult. The experimental design was composed of random blocks with four replications, which comprised plots of 24 m2 and treatments with increasing RHA rates: 0, 40, 80 and 120 Mg ha-1. Undisturbed soil samples were collected in the soil layers of 0.00-0.10 and 0.10-0.20 m after nine months of RHA application, using steel cylinders (0.03 m of height and 0.047 m of diameter). These samples were used to determine soil bulk density (Bd), total soil porosity (TP), soil macroporosity (Ma), soil microporosity (Mi) and the available water capacity (AWC). Disturbed soil samples were collected to determine the stability of soil aggregates in water, mean weight diameter of water stable aggregates (MWD), and soil particle size distribution. The results show that, as the RHA rate increased in the soil, Bd values decreased and TP, Ma and MWD values increased. No effect of RHA was found on Mi and AWC values. The effects of RHA on the S parameter (Dexter, 2004), precompression stress and compression index (Dias Junior and Pierce, 1995) values are consistent those shown for density and total porosity. Rice husk ash was shown to be an efficient residue to improve soil physical properties, mainly at rates between 40 and 80 Mg ha-1. Rice husk ash reduces bulk density and increases total porosity, macroporosity and soil aggregation, but does not affect microporosity, field capacity, permanent wilting point, and available water capacity of the soil. The effect of rice husk ash on the S parameter, precompression stress and index compressibility coefficient values are consistent with those observed for the bulk density and total porosity.

Highlights

Brazil is among the top 10 producers of rice globally, with an annual production of 11.8 million tons of grain in the husk (Conab, 2013), of which 68.7 % is produced in Rio Grande do Sul (IRGA, 2014)
The results show that, as the rice husk ash (RHA) rate increased in the soil, bulk density (Bd) values decreased and total soil porosity (TP), Ma and MWD values increased
The effect of rice husk ash on the S parameter, precompression stress and index compressibility coefficient values are consistent with those observed for the bulk density and total porosity

Summary

Introduction

Brazil is among the top 10 producers of rice globally, with an annual production of 11.8 million tons of grain in the husk (Conab, 2013), of which 68.7 % is produced in Rio Grande do Sul (IRGA, 2014). Considering that rice husk takes up on average 22 % of the total weight of rice (Umamaheswaran and Batra, 2008), 2.6 million tons of rice husk are produced annually in Brazil. Due to its high calorific value and low cost, rice husk has been used as a source of energy (Capeletto, 2012) resulting in a new solid waste, the rice husk ash (RHA). Since RHA is equivalent to 17 % of the dry mass of the husk (Chandrasekhar et al, 2006), the production potential of RHA in Brazil is 0.44 million tons per year. Its use in agriculture is a very promising and appropriate disposal method for this waste

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