Visual Evaluation of the Soil Structure under Different Management Systems in Lowlands in Southern Brazil

Tuchtenhagen, Ivana Kruger; Lima, Cláudia Liane Rodrigues de; Bamberg, Adilson Luís; Guimarães, Rachel Muylaert Locks; Pulido-Moncada, Mansonia

doi:10.1590/18069657rbcs20170270

Cited by 23 publications

(29 citation statements)

References 33 publications

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“…The lower VESS scores under CT treatments compared to RT and NT systems indicated a reasonably good soil structural quality despite the increase in tillage density (Figure ). In contrast to our findings on good soil structural quality under CT systems, Tuchtenhagen, Lima, Bamberg, Guimarães, and Mansonia () reported better soil structural quality with the absence of tillage under native grass compared to CT system. Better soil quality under native grassland was attributed to the lack of tillage, high plant residue and higher organic matter content in surface layers.…”

Section: Resultscontrasting

confidence: 99%

“…Significant positive correlations ( p < 0.01) of PR measurements with VESS scores at three depths show the effectiveness of VESS method in detecting compacted layers (Table 6). Similar to our results, significant relationships have been reported between VESS scores and physical soil quality attributes for different types of soils (Castioni et al., ; Cherubin et al., ; Tuchtenhagen et al., ). The PCA analysis using the varimax rotation and components extraction with Eigenvalues ≥1.0 yielded four principal components (PCs) that collectively accounted for the 80.64% variance in data (Table ).…”

Section: Resultssupporting

confidence: 92%

“…The compatibility of high and low VESS scores with PR values is an important indicator for the reliability of VESS method in assessing the structural soil quality. Similar to the high VESS scores in RT and NT systems in our experiment, clayey surface soils under long‐term NT system in Brasil were identified with 4.0 scores (Tuchtenhagen et al., ). Contrary to the reports of Johannes, Matter, et al.…”

Section: Resultssupporting

confidence: 82%

“…Higher VESS values have been ascribed by higher compaction and greater resistance of aggregates to break into small pieces (Tuchtenhagen et al., ). The compatibility of high and low VESS scores with PR values is an important indicator for the reliability of VESS method in assessing the structural soil quality.…”

Section: Resultsmentioning

confidence: 99%

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Evaluating the long‐term effects of tillage systems on soil structural quality using visual assessment and classical methods

Çeli̇k

Günal

Acar

et al. 2019

Soil Use and Management

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Current agricultural practices and their impacts on the sustainability of crop production can be evaluated by simple and reliable soil structure assessment tools. The study was conducted to determine the effects of long‐term (2006–2017) tillage systems on structural quality of a clayey soil using the visual evaluation of soil structure (VESS) and classical field and laboratory measurements. A field experiment with seven tillage systems, representing both traditional and conservation tillage methods, was conducted on a clayey soil in the Cukurova region, Turkey. Soil samples from 0–10, 10–20 and 20–25 cm depths were analysed for mean weight diameter (MWD), porosity and organic carbon. Penetration resistance (PR) was determined in each treatment plot. The VESS scores (<2) of upper 0–5 cm indicated a good structural quality for all tillage systems. The VESS scores were positively related to PR and MWD and negatively to macroporosity (MaP) and total porosity. In reduced and no‐till systems, poorer soil structures were observed in subsurface layers where firm platy and angular blocky structures were defined. Mean VESS score (3.29) in 20–25 cm depth where PR was 3.01 MPa under no‐till indicated a deterioration of soil structural quality; thus, immediate physical interventions would be needed. Lower VESS scores and PR values under strategic tillage which was created by ploughing half of no‐till plots in November 2015 indicated successful correction of compaction caused by long‐term no‐till. The results suggest that the VESS approach is sensitive and useful in distinguishing compacted layers within the topsoil.

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Section: Resultscontrasting

confidence: 99%

Section: Resultssupporting

confidence: 92%

Section: Resultssupporting

confidence: 82%

Section: Resultsmentioning

confidence: 99%

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Evaluating the long‐term effects of tillage systems on soil structural quality using visual assessment and classical methods

Çeli̇k

Günal

Acar

et al. 2019

Soil Use and Management

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“…Also, it has been a great alternative for researchers and farmers, as it enables the analysis of soil layers via the verification of soil attributes such as aggregate stability, size, and porosity, besides root system behavior, among other characteristics. Many studies have used such method to distinguish management systems of both long term [14][15][16] and short term [17]. Munkholm and coauthors [18] found lower visual scores for a crop rotation system with barley and oat than for maize monoculture and maize-soybean succession, showing the effect of forage grasses on soil structural quality.…”

Section: Introductionmentioning

confidence: 99%

Visual Evaluation of Soil Structure in Maize and Forage Grasses Intercropping under No-Tillage

Paschoal

Cagna

Guedes

et al. 2020

Braz. arch. biol. technol.

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Effects of land use, tillage management, and crop diversification on soil physical quality in Cerrado agricultural systems

Sattolo

Pereira

Otto

et al. 2021

Soil Science Soc of Amer J

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Sustainable agricultural intensificationhas been considered one of the solutions for increasing food production and mitigating climate changes. Nevertheless, soil physical degradation induced by intense mechanization may threaten those benefits in large-scale agricultural regions such as the Brazilian Cerrado. Thus, our study aimed to assess the effects of land use, tillage management, and crop diversification on soil physical quality of two long-term experiments in Cerrado through on-farm visual evaluation of soil structure (VESS) and soil physical parameters. Soil sampling was performed in 0-to-10-and 10-to-20-cm layers of four agricultural systems: soybean [Glycine max (L.) Merr.]-fallow under conventional tillage (SF); soybean-fallow under no-till (SN); soybean-maize (Zea mays L.) succession under no-till (SM); and crop rotation under no-till including soybean, maize, grasses, and legumes (CR). An additional area of native Cerrado vegetation (NV) was included as reference. Land transition from Cerrado to agricultural systems declined the soil physical quality, detected by VESS assessment and physical parameters in both layers. Tillage management did not alter soil physical parameters, which was likely associated with the medium time adoption in the experiments (9 yr) and high resilience capacity of clayey Oxisols. Unexpectedly, SM and CR negatively affected the porosity-and water-associated soil parameters in the 10-to-20-cm layer compared with SN. It suggests that the soil physical damage induced by higher frequency of machinery operations required to manage a more diverse crop sequence may prevail over the benefits provided by crop diversification. Finally, this study highlights that intensified agricultural systems need to be coupled with strategies to reduce and/or control intensive machinery traffic.

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Visual Evaluation of the Soil Structure under Different Management Systems in Lowlands in Southern Brazil

Cited by 23 publications

References 33 publications

Evaluating the long‐term effects of tillage systems on soil structural quality using visual assessment and classical methods

Evaluating the long‐term effects of tillage systems on soil structural quality using visual assessment and classical methods

Visual Evaluation of Soil Structure in Maize and Forage Grasses Intercropping under No-Tillage

Effects of land use, tillage management, and crop diversification on soil physical quality in Cerrado agricultural systems

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