Carbonate-silicate ratio for soil correction and influence on nutrition, biomass production and quality of palisade grass

Renato Ferreira De Souza,Janice Guedes Carvalho,Valdemar Faquin,Fabrício William Ávila,Adélia Aziz Alexandre Pozza,Antônio Ricardo Evangelista

doi:10.1590/s0103-90162011000500003

Abstract

Silicates can be used as soil correctives, with the advantage of being a source of silicon, a beneficial element to the grasses. However, high concentrations of silicon in the plant would affect the digestibility of the forage. To evaluate the influence of the substitution of the calcium carbonate by calcium silicate on the nutrition, biomass production and the feed quality of the palisade grass [Urochloa brizantha (C. Hochstetter ex A. Rich.) R. Webster], three greenhouse experiments were conducted in completely randomized designs with four replications. Experimental units (pots) contained a clayey dystrophic Rhodic Haplustox, a sandy clay loam dystrophic Typic Haplustox and a sandy loam dystrophic Typic Haplustox. Each soil received substitution proportions (0, 25, 50, 75 and 100 %) of the carbonate by calcium silicate. The increase in the proportion of calcium silicate elevated the concentrations and accumulations of Si, Ca, Mg, and B, reduced Zn and did not alter P in the shoot of plants. The effects of the treatments on the other nutrients were influenced by the soil type. Inclusion of calcium silicate also increased the relative nutritional value and the digestibility and ingestion of the forage, while the concentration and accumulation of crude protein and the neutral detergent and acid detergent fibers decreased. Biomass production and feed quality of the palisade grass were generally higher with the 50 % calcium silicate treatment.

Highlights

The Brazilian savannah includes approximately 200 million hectares, 25 % of which are pastures, the majority being Urochloa spp
Of these pastures are at some level of degradation and low productivity (Reis et al, 2010) due to soil limitations such as aluminum toxicity, phosphorus deficiency, and low pH
Lime application has been the main method for acidity correction because of its low cost, ease of application and increase of plant availability of Ca and Mg

Summary

Introduction

The Brazilian savannah (cerrado) includes approximately 200 million hectares, 25 % of which are pastures, the majority being Urochloa spp. Of these pastures are at some level of degradation and low productivity (Reis et al, 2010) due to soil limitations such as aluminum toxicity, phosphorus deficiency, and low pH. Lime application has been the main method for acidity correction because of its low cost, ease of application and increase of plant availability of Ca and Mg. Lime application has been the main method for acidity correction because of its low cost, ease of application and increase of plant availability of Ca and Mg Another alternative method used for the acidity correction is the application of silicates, silicon (Si) being a source for several crops. Benefits include increased availability of P and micronutrients in the soil (Marschner, 1995), resistance to pests and diseases (Rodrigues et al, 2004) and tolerance to excess of Fe2+ and

Objectives

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Results