Soil susceptibility to compaction under use conditions in southern Brazil

Mazurana, Michael; Levien, Renato; Inda, Alberto Vasconcellos; Conte, Osmar; Bressani, Luiz Antônio; Müller, Jônatan

doi:10.1590/1413-70542017411027216

Cited by 16 publications

(7 citation statements)

References 31 publications

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“…The number of disconnected pores was c. 1.5 times higher for ZT than CT. The lowest porosity observed for ZT maybe associated with a "zero-tillage pan", which can happen in areas under long term ZT as previously observed in the South of Brazil down to 20 cm soil depth (Mazurana et al, 2017;da Silva et al, 2009;Klein and Libardi, 2002). According to Reichert et al (2007), soil compaction in ZT can occur mainly when this practice is utilized for long periods due to machinery traffic, low soil mobilization and natural soil arrangement.…”

Section: Resultssupporting

confidence: 56%

3D analysis of the soil porous architecture under long term contrasting management systems by X-ray computed tomography

Pires

Roque

Rosa³

et al. 2019

Soil and Tillage Research

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The development of adequate soil structure is important for achieving good physical status, which influences the sustainability of agricultural areas. Different management systems lead to the development of a wide range of soil pore network characteristics.The objective of this research was to analyze the effect of three contrasting tillage systems (zero-tillage, ZT; reduced tillage, RT; conventional tillage, CT) in the soil porous system of an Oxisol. Samples were collected from the surface layer (0-10 cm).An area under secondary forest (F) was also assessed to provide an undisturbed reference. X-ray Computed Tomography (µCT) scanning of undisturbed soil samples and image analysis were employed for analysis of the pore network. The soil under ZT

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Section: Resultssupporting

confidence: 56%

3D analysis of the soil porous architecture under long term contrasting management systems by X-ray computed tomography

Pires

Roque

Rosa³

et al. 2019

Soil and Tillage Research

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“…Soil load support capacity is affected by several soil attributes, e.g., organic matter content, texture, type and concentration of iron oxides (Mazurana et al, 2017), water content (Tang et al, 2009), bulk density (Assouline, 2002), porosity (Veiga et al, 2007), structure (Veenhof and McBride, 1996), and especially the cohesion and adhesion forces among soil particles (Horn, 2004). However, soil load support capacity has rarely been related to soil strengthening resulting from the age-hardening process (Moraes et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Soil load support capacity increases with time without soil mobilization as a result of age-hardening phenomenon

Moraes

Luz

Debiasi

et al. 2019

Soil and Tillage Research

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Soil compaction is a result of soil compression, and this effect depends on the pressure applied and the soil structure. Nevertheless, studies regarding the effects of long-term tillage systems on strengthening of particle bonds are scarce. Thus, we aimed to study the soil bond strengthening due to the age-hardening phenomenon using the soil load support capacity model of an Oxisol managed under different tillage systems in Southern Brazil. Soil samples were collected from three soil layers (0.0-0.10 m; 0.10-0.20 m and 0.20-0.30 m) and five soil tillage systems of conventional tillage; minimum tillage with chiselling performed every year or every three years; and no-tillage for 11 or 24 years. Age-hardening was investigated using the soil load support capacity model. Soil cores were equilibrated at four matric potentials (−6, −33, −100 and −500 kPa) and submitted to uniaxial compression tests to obtain preconsolidation pressure. The soil load support capacity models were affected by the tillage systems. The long-term no-tillage presented the highest soil load support capacity for the same bulk density and water content in all layers, demonstrating greater resistance to additional compaction. Higher preconsolidation pressure values in long-term no-tillage at the same soil bulk density and water content were attributed to the age-hardening phenomena, which increased the number and strength of bonds among soil particles, leading to higher soil cohesion. Longer time under no-tillage improves the soil structure and soil load support capacity. Thus, soil mobilization strongly affected the soil structure by breaking particle bonds leading to the greater compaction.

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“…Although the increase in pore has been expected when using management with cover crops, biological pores represent less than 3% volume of soil and their formation reduces in a little way density, however, in air and water flows concerning profile, they have a major effect, often undetected by traditional methods (Reinert et al, 2008). It must be considered that the soil structure can be altered by agricultural use (MAZURANA, et al, 2017). Table 1.…”

Section: Resultsmentioning

confidence: 99%

Physical and chemical properties of an oxisol after maize cropping on rotation with leguminous plants

et al. 2019

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Crop rotation has been a daily management to ensure viability of no-tillage system; however, it is few accepted and practiced by farmers. Thus, this study aims to establish a crop rotation scheme in soil quality. Consequently, cover crops of dwarf mucuna, pigeon pea dwarf, sun hemp and maize were cropped in 2010 under no-tillage system. Soil properties were determined prior their beginning, after the management of cover crops and maize harvest. Results were submitted to ANOVA and averages were compared. The macroporosity and total porosity answered to the adopted management with some variation. So, cover crops need much time to express their potential, mainly related to the physical characteristics of the studied soil. Chemical properties are susceptible to this management since higher changes were observed after management with cover crops. This crop rotation in a long term may allow the maintenance of soil quality because it avoids losses of nutrients and carbon.

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Soil susceptibility to compaction under use conditions in southern Brazil

Cited by 16 publications

References 31 publications

3D analysis of the soil porous architecture under long term contrasting management systems by X-ray computed tomography

3D analysis of the soil porous architecture under long term contrasting management systems by X-ray computed tomography

Soil load support capacity increases with time without soil mobilization as a result of age-hardening phenomenon

Physical and chemical properties of an oxisol after maize cropping on rotation with leguminous plants

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