Qualidade física e frações da matéria orgânica de um Planossolo sob sistema plantio direto

The objective of this work was to evaluate the physical quality and the organic matter fractions of an Alfisol soil under no-tillage (NT) with different deployment times in Southern Brazil. Soil samples were taken at the 0.00–0.03, 0.03–0.06, 0.06–0.10, and 0.10–0.20-m depths, for determining: total porosity (Pt); macroporosity (Ma); microporosity (Mi); soil penetration resistance (Rp); bulk density (Ds); macro- and microaggregates; mean weight diameter (MWD) of soil aggregates; total organic carbon content (TOC); the free light (FLL), light occluded (FLO), and heavy (FP) carbon fractions; carbon stocks (EstC); and the lability (ILC), stock (IEC), and carbon management (IMC) indexes. SPD deployment time increased Pt, Ma, and EstC, and decreased Mi, RP, Ds. NT promotes MWD, ILC, IEC, and IMC after five years of deployment, and, therefore, it improves soil physical quality.O objetivo deste trabalho foi avaliar a qualidade física e as frações da matéria orgânica de um Planossolo sob sistema plantio direto (SPD), com diferentes tempos de implantação, no Sul do Brasil. Amostras de solo foram coletadas nas camadas de 0,00–0,03, 0,03–0,06, 0,06–0,10 e 0,10–0,20 m, tendo‑se determinado: a porosidade total (Pt); a macroporosidade (Ma); a microporosidade (Mi); a resistência do solo à penetração (Rp); a densidade (Ds); os macro e microagregados; o diâmetro médio ponderado dos agregados (DMP); o carbono orgânico total (COT); o carbono das frações leve livre (FLL), leve oclusa (FLO) e pesada (FP); os estoques de carbono (EstC), os índices de labilidade (ILC), de estoque (IEC) e de manejo do carbono (IMC). O tempo de implantação SPD aumentou a Pt, a Ma, os EstC, e diminuiu a Mi, a Rp e a Ds. O SPD promove os atributos DMP, ILC, IEC e IMC a partir do quinto ano de implantação, e, portanto, melhora a qualidade física do solo

Produtividade de culturasProdutividade de culturas e resistência à penetração de Argissolo Vermelho sob diferentes manejos

The objective of this work was to evaluate the relationship among soybean and bean plant parameters and soil resistance to penetration of an Alfisol under no-tillage and conventional systems. In an experiment deployed under no-tillage in 1989, different wheel tracks of a 10-Mg machine were applied and different soil management systems were used in completely randomized design. Emergence speed index, foliar area index, height and yield of soybean and bean crops and soil resistance to penetration were quantified. The influence of soil resistance to penetration in foliar area index, height and productivity of beans is of 46, 51 and 59% respectively, whereas 55% of the height variation in soybean is explained by soil resistance to penetration. The critical value of soil resistance to penetration indicated for bean and soybean growth and yield is of approximately 1.7 and 1.9 MPa respectively.O objetivo deste trabalho foi avaliar a relação entre parâmetros de plantas de soja e feijão e a resistência do solo à penetração de Argissolo Vermelho distrófico arênico sob semeadura direta e convencional. Em experimento implantado em 1989 em semeadura direta, foram aplicadas diferentes passadas de máquina de 10 Mg e realizados diferentes preparos do solo em delineamento inteiramente casualizado. Foram quantificados o índice de velocidade de emergência, o índice de área foliar, a altura e a produtividade de grãos de soja e de feijão e a resistência do solo à penetração. O índice de área foliar, a altura e a produtividade do feijão são influenciados pela resistência do solo à penetração em 46, 51 e 59%, respectivamente, enquanto 55% da variação da altura da soja é explicada pela resistência à penetração. Indica-se um valor crítico de resistência à penetração de aproximadamente 1,7 e 1,9 MPa no que se refere ao crescimento e à produtividade de grãos de feijão e de soja, respectivamente

6ª Diretriz de monitorização ambulatorial da pressão arterial e 4ª diretriz de monitorização residencial da pressão arterial

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Developing a Soil Physical Quality Index (SPQi) for lowlands under different deployment times of no-tillage

Soil physical quality in lowlands from the Pampa biome under no-tillage (NT) plays an important role; therefore, this study aimed to establish a soil physical quality index (SPQi) from a minimum data set to detect the effects of different deployment times of NT in an Albaqualf. The comparison of areas with one (NT1), three (NT3), five (NT5) and seven (NT7) years of notillage was established using as reference a non-cultivated field plot (NC) for at least thirty years, nearby the sites under NT. Soil samples with undisturbed and disturbed structure were collected to determine the physical quality indicators and soil organic matter (SOM) fractions. The factor analysis (FA) was used to identify and select a minimum data set. The SPQi was elaborated by using the deviations of the measured indicators at different deployment times of NT in relation to NC. The SPQi showed sensibility to identify and explain soil physical quality changes with different deployment times of NT. In well-drained lands, higher deployment times of no-tillage promote the physical quality of lowlands

Developing a Soil Physical Quality Index (SPQi) for lowlands under different deployment times of no-tillage

ABSTRACT: Soil physical quality in lowlands from the Pampa biome under no-tillage (NT) plays an important role; therefore, this study aimed to establish a soil physical quality index (SPQi) from a minimum data set to detect the effects of different deployment times of NT in an Albaqualf. The comparison of areas with one (NT1), three (NT3), five (NT5) and seven (NT7) years of notillage was established using as reference a non-cultivated field plot (NC) for at least thirty years, nearby the sites under NT. Soil samples with undisturbed and disturbed structure were collected to determine the physical quality indicators and soil organic matter (SOM) fractions. The factor analysis (FA) was used to identify and select a minimum data set. The SPQi was elaborated by using the deviations of the measured indicators at different deployment times of NT in relation to NC. The SPQi showed sensibility to identify and explain soil physical quality changes with different deployment times of NT. In well-drained lands, higher deployment times of no-tillage promote the physical quality of lowlands

Tensile strength and friability of an Alfisol under agricultural management systems

Management systems may influence the structural quality of soils. Tensile strength (TS) and friability (F) are indicators of soil structural quality. The aim of this study was to evaluate the TS and F of an Alfisol under different management systems. The treatments were as follows: (i) soil under conventional system with growing maize after tobacco cultivation, (ii) soil under conventional system with growing maize after use as pasture, (iii) soil under natural pasture, and (iv) a natural area with predominance of spontaneous vegetation. TS and F were evaluated at depths of 0.00-0.05 and 0.05-0.10 m. The water content of soil aggregates, soil particle-size distribution, total organic carbon, carbon in the coarse fraction and carbon associated with minerals were also determined. The increase in clay content and soil organic carbon influences the values of TS. The lowest TS was for the soil under maize cultivation after tobacco in the conventional system. Soil under natural area in the 0.05-0.10 m layer was classified as slightly friable, while other systems were classified as friable. Evaluations of the structural quality of soils under management systems can be performed using TS. However, F was not efficient in detecting changes between the different management systems

Estimativa da capacidade de suporte de carga do solo a partir da avaliação da resistência à penetração Evaluation of soil resistance to penetration underlying soil load support capacity estimate

A pressão de preconsolidação, apesar das dificuldades inerentes à sua obtenção, representa uma medida útil do estado mecânico do solo para o seu uso, manejo e planejamento de sistemas de mecanização. A estimativa da pressão de preconsolidação, a partir de propriedades do solo facilmente mensuráveis, é, portanto, uma alternativa que pode ser utilizada para contornar as dificuldades. Os objetivos deste trabalho foram: (a) quantificar a pressão de preconsolidação e a resistência do solo à penetração, em laboratório e em campo, para um Latossolo Vermelho-Amarelo, sob pomar de laranja, e (b) estabelecer a relação entre ambos os indicadores físicos. A amostragem e as avaliações foram realizadas em oito dias consecutivos, acompanhando o secamento natural do solo. Houve relação significativa, positiva e linear entre a pressão de preconsolidação e a resistência do solo à penetração, medida no laboratório e no campo. A similaridade das relações entre resistência à penetração, obtida no campo e em laboratório, e a pressão de preconsolidação permitiu afirmar que a capacidade de suporte de carga pode ser adequadamente estimada a partir da resistência de um Latossolo Vermelho-Amarelo distrófico à penetração medida diretamente no campo.The preconsolidation pressure, despite the difficulties inherent to its measurement, provides a useful measure of the soil mechanical state for soil management and the planning of mechanization systems. The estimation of the preconsolidation pressure, based on easily measurable soil physical properties, may be relevant to solve some difficulties. The objectives of this study were: (a) to quantify the preconsolidation pressure and soil resistance to penetration measured in the laboratory and the field for a Haplustox under orange orchard, and (b) to establish relationships between these physical indicators. Sampling and evaluations were carried out on eight consecutive days to observe the natural soil drying. There was a positive, linear, and significant relationship between the preconsolidation pressure and soil resistance to penetration measured in the laboratory as well as in the field. The similarity of the relationships among soil resistance to penetration measured in the laboratory and the field and the preconsolidation pressure allowed affirming that the load support capacity for the Haplustox may be estimated from the soil resistance to penetration measured in the field

Perennial grasses for recovery of the aggregation capacity of a reconstructed soil in a coal mining area in southern Brazil

The construction of a soil after surface coal mining involves heavy machinery traffic during the topographic regeneration of the area, resulting in compaction of the relocated soil layers. This leads to problems with water infiltration and redistribution along the new profile, causing water erosion and consequently hampering the revegetation of the reconstructed soil. The planting of species useful in the process of soil decompaction is a promising strategy for the recovery of the soil structural quality. This study investigated the influence of different perennial grasses on the recovery of reconstructed soil aggregation in a coal mining area of the Companhia Riograndense de Mineração, located in Candiota-RS, which were planted in September/October 2007. The treatments consisted of planting: T1- Cynodon dactylon cv vaquero; T2 - Urochloa brizantha; T3 - Panicum maximun; T4 - Urochloa humidicola; T5 - Hemarthria altissima; T6 - Cynodon dactylon cv tifton 85. Bare reconstructed soil, adjacent to the experimental area, was used as control treatment (T7) and natural soil adjacent to the mining area covered with native vegetation was used as reference area (T8). Disturbed and undisturbed soil samples were collected in October/2009 (layers 0.00-0.05 and 0.10-0.15 m) to determine the percentage of macro- and microaggregates, mean weight diameter (MWD) of aggregates, organic matter content, bulk density, and macro- and microporosity. The lower values of macroaggregates and MWD in the surface than in the subsurface layer of the reconstructed soil resulted from the high degree of compaction caused by the traffic of heavy machinery on the clay material. After 24 months, all experimental grass treatments showed improvements in soil aggregation compared to the bare reconstructed soil (control), mainly in the 0.00-0.05 m layer, particularly in the two Urochloa treatments (T2 and T4) and Hemarthria altissima (T5). However, the great differences between the treatments with grasses and natural soil (reference) indicate that the recovery of the pre-mining soil structure could take decades