SWEET SORGHUM PERFORMANCE AFFECTED BY SOIL COMPACTION AND SOWING TIME AS A SECOND CROP IN THE BRAZILIAN CERRADO

Wellingthon da Silva Guimarães Júnnyor,Wainer Gomes Gonçalves,Eduardo da Costa Severiano,Brendow Roberto Rodrigues Martins,Alessandro Guerra da Silva,Guilherme Dias Custódio,Renata Andrade

doi:10.1590/01000683rbcs20150121

Wellingthon da Silva Guimarães Júnnyor, Wainer Gomes Gonçalves + Show 5 more

Open Access

https://doi.org/10.1590/01000683rbcs20150121

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Abstract

ABSTRACT Increasing attention has recently been given to sweet sorghum as a renewable raw material for ethanol production, mainly because its cultivation can be fully mechanized. However, the intensive use of agricultural machinery causes soil structural degradation, especially when performed under inadequate conditions of soil moisture. The aims of this study were to evaluate the physical quality of aLatossolo Vermelho Distroférrico (Oxisol) under compaction and its components on sweet sorghum yield forsecond cropsowing in the Brazilian Cerrado (Brazilian tropical savanna). The experiment was conducted in a randomized block design, in a split plot arrangement, with four replications. Five levels of soil compaction were tested from the passing of a tractor at the following traffic intensities: 0 (absence of additional compaction), 1, 2, 7, and 15 passes over the same spot. The subplots consisted of three different sowing times of sweet sorghum during the off-season of 2013 (20/01, 17/02, and 16/03). Soil physical quality was measured through the least limiting water range (LLWR) and soil water limitation; crop yield and technological parameters were also measured. Monitoring of soil water contents indicated a reduction in the frequency of water content in the soil within the limits of the LLWR (Fwithin) as agricultural traffic increased (T0 = T1 = T2>T7>T15), and crop yield is directly associated with soil water content. The crop sown in January had higher industrial quality; however, there was stalk yield reduction when bulk density was greater than 1.26 Mg m-3, with a maximum yield of 50 Mg ha-1 in this sowing time. Cultivation of sweet sorghum as a second crop is a promising alternative, but care should be taken in cultivation under conditions of pronounced climatic risks, due to low stalk yield.

Highlights

Diversification of raw materials for biofuel production is the main measure for sustainable development of the Brazilian agroenergy sector (Stambouli et al, 2012)
The least limiting water range (LLWR) was similar to the available water content (AWC = θFC - θPWP) up to 1.27 Mg m-3 bulk density (Bd)
Similar results were reported by Lima et al (2012) and Gonçalves et al (2014), indicating that in tropical soils penetration resistence is the main variable associated with the decrease in the LLWR

Summary

Introduction

Diversification of raw materials for biofuel production is the main measure for sustainable development of the Brazilian agroenergy sector (Stambouli et al, 2012). Moench) as a renewable raw material for ethanol production. Sweet sorghum has a short life cycle, its cultivation is easy to mechanize using the same machinery used for sugarcane, and it can be cultivated in the sugarcane intercrop period, which decreases the seasonality of ethanol production. All these factors make sweet sorghum a promising crop for production of energy biomass (Souza, 2011)

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