Abstract
ABSTRACT The presence of straw hinders the sowing of soybean cultivated in succession to rice, in areas irrigated by flooding. This study aimed to evaluate the combination of different configurations of a rice harvester and subsequent activities in the operational and energetic demand of rice straw management and in the soil surface roughness, in order to cultivate soybean in succession. Three independent experiments were conducted in a completely randomized design, as well as evaluated the fuel consumption, effective operating speed, working capacity and final surface roughness of the ground. The energy costs of harvesting rice do not increase when the automated harvester operates with a spreader to distribute the straw on the ground and to avoid the formation of furrows. The presence of rice plant residues in the field increases the skidding of the tractor when pulling the knife-roller, with a consequent reduction of the operating speed, but this does not affect the operational capacity and the fuel consumption. The increase in the number of light harrowings, from one to two operations, in areas worked with knife-roller or intermediate harrow, requires more time and fuel in the management of the soil and rice straw, but leaves the ground with less surface roughness. The management system with knife-roller operation and two light harrowings is the most appropriate method to prepare the soil for soybean cultivation after rice, because it provides the best combination of technical and energetic performance.
Highlights
The potential area for irrigation in the Brazilian floodplain ecosystem (FLOODE) in the tropical environment is estimated at 15 million ha (Coelho et al 2006)
The irregularity in the area caused instability of the tractor and increased the skidding of the tractor’s driving wheels. This negatively interfered with the operating speed and, with the working capacity of the tractor and knife-roller assemblage, as well as with the fuel consumption, if compared to the second rolling operation
The energy costs in harvesting rice do not rise when the self-propelled harvester operates with a spreader to distribute the straw on the ground and to avoid the formation of straw piles; 2
Summary
The potential area for irrigation in the Brazilian floodplain ecosystem (FLOODE) in the tropical environment is estimated at 15 million ha (Coelho et al 2006). The Tocantins state has the largest planted area of rice in this environment (120,000 ha) and a potential area of 1.0 million ha in the Tocantins-Araguaia Valley (Fragoso et al 2013). In Tocantins, rice is cultivated in the rainy season, in a flood irrigation system, and in 80 % of this area, soybean is cultivated in succession during the dry season, with irrigation (Conab 2018). In the off-season, the absence of rainfall, combined with a low relative humidity and low nighttime temperature, decreases the disease incidence and is 1. Empresa Brasileira de Pesquisa Agropecuária (Embrapa Arroz e Feijão), Santo Antônio de Goiás, GO, Brasil
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