Aplicação Superficial De Calcário Com Diferentes Teores De Magnésio E Granulometrias Em Sistema Plantio Direto

Rodrighero, Maik Barbosa; Barth, Gabriel; Caires, Eduardo Fávero

doi:10.1590/01000683rbcs20150036

Cited by 28 publications

(19 citation statements)

References 23 publications

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“…Ca 2+ contents found in the 20-40 cm layer presented values in all applied doses above 1 cmolc dm -3 , thus demonstrating that the application of lime-based agricultural gypsum is promoting the movement of this nutrient to the soil subsurface layers, which may indicate an improvement in the deeper soil layers. Rodrighero et al, (2015), when evaluating the superficial application under no-tillage system, where an improvement of Mg contents were observed in the soil profile, due to the formation of MgSO4 0 complex, which has high mobility in the soil. Similar results were also found by Briedis et al, (2012), when evaluating areas under no-tillage systems observed improvements in this attribute in the topsoil, with reduction as depth was increased.…”

Section: First Agricultural Cyclementioning

confidence: 99%

Influence of Limestone and Gypsum Application on Chemical Attributes of Dystrophic Yellow Latosol Soil and Corn Yield in Eastern Amazon

Costa¹,

Brasil²,

Júnior³

2020

JAS

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The objective of this study was to evaluate changes in the chemical attributes of the soil caused by the use of limestone associated or not to with gypsum in no-tillage system. The experiment was conducted on a dystrophic Yellow Latosol in Pará state, Brazil. The experimental design was in randomized blocks in split plots with three replications. The treatments consisted of five doses of limestone (0, 1, 2, 3 and 4 t ha -1 ), with and without gypsum (0, 0.5 and 1 t ha -1 ). Soil samples were collected at depths of 0-20 and 20-40 cm. There was a significant effect on the analyzed variables at both depths. The doses of 3.64 and 2.19 t ha -1 of limestone associated with 0.5 t ha -1 of gypsum, were responsible for the largest increase in soil calcium content in the 0-20 and 20-40 cm layers, respectively. The highest increase in Ca + Mg content was found at 3.63 t ha -1 limestone combined with 0.5 t ha -1 gypsum. It was observed that 3.13 t ha -1 of limestone combined with 0.5 t of gypsum increased soil CEC. The 2.89 t ha -1 dose of limestone combined with 0.5 t of gypsum contributed to the increase in base saturation (V%). The use of limestone and gypsum Journal of Agricultural Studies 364 promotes soil chemical conditions, as reflected by increased corn yield when compared with control (no treatment) plots.

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Section: First Agricultural Cyclementioning

confidence: 99%

Influence of Limestone and Gypsum Application on Chemical Attributes of Dystrophic Yellow Latosol Soil and Corn Yield in Eastern Amazon

Costa¹,

Brasil²,

Júnior³

2020

JAS

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“…Surface liming is an effective practice, and it is important to maximize grain yield of no-till crops, also the acidity amelioration of deeper soil layers is more pronounced with the use of higher limestone rates (Rodrighero et al, 2015). Veronese et al (2012) verified that the higher the rate, the greater the progress of the alkaline front in the soil, and the higher the grain yield even with deep liming.…”

Section: Introductionmentioning

confidence: 99%

Enhancing surface liming rate on a no-till cropping system in an oxisol of Southern Brazilian

Conte¹,

ConceiÃ§Ã£o²,

Bueno³

et al. 2017

Afr. J. Agric. Res.

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“…In a no-till system the acidity amelioration is done by surface-liming without incorporation (Rodrighero, Barth, & Caires, 2015).…”

Section: Introductionmentioning

confidence: 99%

Weeds on Soybeans Crop After the Application of the Association of the Herbicides Imazapic + Imazapyr on Different Liming Rates in a No-till Cropping System

Ferreira¹,

Magro²,

Conte³

et al. 2018

JAS

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The repeated use of the herbicide glyphosate has selected weed resistant species to this molecule. The combination of the tank-mix imazapic + imazapyr (Cultivance® technology) turns out being an alternative on the management of glyphosate resistant weeds. The interaction of these molecules with the soil's chemical properties with the spraying frequency, and the weed diversity are yet unknown. This study evaluated the effects of liming at the weed incidence on the soybeans crop treated with the association of herbicides imazapic + imazapyr in a no-till cropping system. The experiment was installed at the field in a RCBD with four replications. The experiment was conducted in a factorial arrangement 5 × 2 with five rates of calcitic limestone (0, 2.5, 5, 12.5, and 30 ton/ha) and two corresponding to the presence or absence of the herbicides imazapic + imazapyr (rate of 100 g/ha of the commercial product Soyvance®) sprayed in a spray-plant system. After 40 months of surface-liming, the soybean cultivar Lancer® was planted in a no-till field, and it was evaluated: frequency and abundance of weeds, and the chemical soil parameters: pH, Ca, H+Al, and Mg at the depth of 0-10 cm. The most abundant weeds observed were: Desmodium spp., Schlechtendalia luzulifolia, Digitaria horizontalis, Raphanus sativus and Cyperus spp., with predominance of dicot species. In conclusion, as the surface-liming rate was increased, the greater the frequency of dicot weeds, and the lesser the monocots were found in the area.

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Aplicação Superficial De Calcário Com Diferentes Teores De Magnésio E Granulometrias Em Sistema Plantio Direto

Cited by 28 publications

References 23 publications

Influence of Limestone and Gypsum Application on Chemical Attributes of Dystrophic Yellow Latosol Soil and Corn Yield in Eastern Amazon

Influence of Limestone and Gypsum Application on Chemical Attributes of Dystrophic Yellow Latosol Soil and Corn Yield in Eastern Amazon

Enhancing surface liming rate on a no-till cropping system in an oxisol of Southern Brazilian

Weeds on Soybeans Crop After the Application of the Association of the Herbicides Imazapic + Imazapyr on Different Liming Rates in a No-till Cropping System

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