Atributos físicos e carbono orgânico de um Argissolo Vermelho sob sistemas de manejo Physical attributes and organic carbon of a Typic Hapludalf under soil management systems

O objetivo deste trabalho foi avaliar as propriedades físicas e carbono orgânico de um Argissolo Vermelho, em Pelotas (RS), submetido a sistemas de manejo numa propriedade agrícola. Avaliaram-se densidade do solo, porosidade total, macro e microporosidade, granulometria, argila dispersa em água, diâmetro médio ponderado de agregados e infiltração de água, bem como carbono orgânico. Foram estudados os sistemas: plantio direto com três anos de condução, com aveia + ervilhaca no inverno e milho no verão; sistema convencional (uma aração e uma gradagem) com aveia como cobertura de inverno e milho no verão; sistema convencional, com ervilhaca + aveia no inverno e milho no verão, e campo nativo. Observou-se que o solo sob os sistemas convencionais apresentou maior porosidade total e macroporosidade na profundidade de 0,0-0,10 m e maior microporosidade na profundidade de 0,10-0,20 m. Os maiores valores de densidade do solo na profundidade de 0,0-0,10 m foi no solo sob plantio direto. Houve aumento do teor de carbono orgânico do solo no sistema plantio direto na camada de 0,0-0,10 m em relação aos outros sistemas avaliados, não resultando em aumento no diâmetro médio ponderado dos agregados.<br>The objective of this research was to evaluate the physical properties and organic carbon of a Typic Hapludalf in Pelotas, State of Rio Grande do Sul, Brazil, under different soil management systems on a farm. The assessed physical attributes were: soil bulk density, total porosity, macro and microporosity, particle size distribution, water dispersed clay, mean weight diameter of water-stable aggregates, and soil water infiltration, as well as organic carbon, in a factorial scheme in a completely randomized design with six replications. The management systems were studied for three years: no-tillage system with oats + vetch in winter and corn in summer; conventional tillage system with oat winter covering and corn in summer; conventional tillage (once plowing and once disking) with oats + vetch in winter and corn in summer; and native grassland. It was observed that soil under conventional tillage systems presented a higher total porosity and macroporosity in the 0.0-0.10 m, but higher microporosity in the 0.10-0.20 m layer; the no-tillage system presented the greatest values of soil bulk density in the 0.0-0.10 m layer. There was an increase in the soil organic carbon content for the no-tillage system, which was not reflected in an increase in the mean weight diameter of the water-stable aggregates

Soil tillage systems: changes in soil structure and crop response

The introduction and intensification of no-tillage systems in Brazilian agriculture in recent decades have created a new scenario, increasing concerns about soil physical properties. The objective of this study was to assess the effects of different tillage systems on some physical properties of an Ultisol previously under native grassland. Five tillage methods were tested: no-tillage (NT), chiseling (Ch), no-tillage with chiseling every two years (NTCh2), chiseling using an equipment with a clod-breaking roller (ChR) and chiseling followed by disking (ChD). The bulk density, macroporosity, microporosity and total porosity, mechanical resistance to penetration, water infiltration into the soil and crop yields were evaluated. The values of soil bulk density, mechanical resistance to penetration and microporosity increased as macroporosity decreased. Soil bulk density was lower in tillage systems with higher levels of tillage/soil mobilization; highest values were observed in NT and the lowest in the ChD system. The water infiltration rate was highest in the ChR system, followed by the systems ChD, NT and NTCh2, while crop yields were higher in systems with less soil mobilization