Welldy Gonçalves Teixeira scite author profile

The optimal soil pH for most annual crops in Brazil varies between 5.7 and 6.0. Numerous methods have been developed for estimating lime requirement (LR), but they vary widely in their predictions and fail to raise pH to desired values for optimum crop production in the highly weathered soils of Brazil. The objectives of this study were to (i) compare seven traditional methods for estimating LR in Brazilian soils; (ii) assess the effects of LR predicted by these methods on soil-acidity related properties, and (iii) determine if these methods are predicting LR to attain target pH values of 5.8 and 6.0, which are within the pH range recommended to optimize crop yields. The traditional LR methods evaluated in this study are based on the following criteria: exchangeable acidity (EA), base saturation (BSAT), exchangeable acidity along with Ca 2+ and Mg 2+ as proposed by the 4th (MG4A) and 5th (MG5A) Approximations to the Minas Gerais State, SMP soil-buffer pH (SMP), potential acidity (PA), and soil pH along with organic matter (pHOM). These methods were compared with the standard incubation method using correlation-regression analysis and, alternatively, the identity test designed for assessing equivalence between methods. Representative agricultural soils (n = 22) were incubated for 60 days with incremental amounts of lime determined by the tested methods. On average, LR predictions differed among methods, and increased in the following order: EA < BSAT ≈ MG5A ≤ MG4A ≈ SMP ≤ PA < pHOM. Suitable changes in soil pH, exchangeable acidity, potential acidity, base saturation, and Ca 2+ and Mg 2+ were achieved upon application of LR estimated by all methods except the EA and pHMO, which resulted in undesirable soil acidity characteristics. All methods evaluated in this study were unable to predict LR for attaining target pH values of 5.8 and 6.0 as revealed by the identity test, even though they were moderate to strongly correlated with the standard incubation method as indicated by the correlation-regression analysis. Further research should focus on the development of reliable methods for predicting LR to attain desired pH values and consequently maximize crop production on Brazilian soils.

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Correlação do COT e porosidade em Latossolo com diferentes usos e manejos na região de Uberaba, MG

Martins

Almeida

Mikhael

et al. 2014

AGGA

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O objetivo do presente trabalho foi quantificar as modificações impostas sobre a densidade, porosidade e teor de carbono orgânico, em áreas de Cerrado, eucalipto e plantio direto com rotação de milho e pastagem na Fazenda Santa Terezinha, município de Uberaba – MG. Foram coletadas amostras deformadas nas camadas de 0 - 20 cm e 20 - 40 cm para determinação do carbono orgânico dos solos (COS) e análise granulométrica, além de amostras indeformadas para as análises de densidade do solo (Ds), microporosidade (Mi), macroporosidade (Ma) e porosidade total (Pt). Constatou-se maior concentração de COS nas camadas superficiais e maiores teores COS no uso em SPD com milho comparativamente a área do Cerrado. A Ds é maior na camada superficial da PA e PDM. Enquanto, que em subsuperfície esta característica é modificada, sendo o valor para o CE igual ao da PA, e o do EUC igual ao do PDM. A Ma, Mi e Pt mostram uma similaridade de valores entre o CE e EUC, sendo o primeiro considerado ambiente ideal por ser área de vegetação nativa. Enquanto que para PA e PDM os resultados foram semelhantes e se distanciaram das características de um pedoambiente ideal.

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Biodisponibilidade de fósforo e potássio provenientes de fertilizantes mineral e organomineral

Teixeira¹

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Effects of Enhanced-Efficiency Nitrogen Fertilizers on Soil Microbial Biomass and Respiration in Tropical Soil Under Upland Rice Cultivation

Oliveira¹,

Brasil²,

Teixeira³

et al. 2021

JAS

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While over-use of N fertilizers can suppress microbial biomass, application of urease inhibitors is known to be a potential way to rebuilt microbial diversity and improve soil functions. However, the hypothesis of this study is that the application of N fertilizers regardless of the source would increase soil microbial biomass and reduce soil respiration. A two-year field experiment was conducted to assess the effects of enhanced-efficiency N sources on soil microbial biomass, and soil respiration. The experiment was set up in a randomized block design in a 3 × 4 + 1 factorial scheme, with four replicates. Treatments comprised three sources (conventional uncoated urea, NBPT (N-(n-butyl) thiophosphoric triamide)-treated urea, and polymer-coated urea) and four rates (30, 60, 90 and 120 kg ha-1) of N, in addition to a control treatment (no fertilizer application). Microbial biomass C (MBC) and microbial biomass N (MBN), and soil respiration (C-CO2 and qCO2) were determined in upland rice rhizosphere in each crop season. Responses of soil microbial properties to N fertilization were dependent on the N rates, but no significant effect of the N sources was observed. All measured parameters, except MBC in the first season and C-CO2 in the second season, were increased with increasing N rates. However, the application of N higher than 60 kg ha-1 suppressed soil microbial biomass, as well as soil respiration.  Therefore, the lack of response by added urease inhibitors to the N sources indicate that optimizing N rates for upland rice production is a far more effective option for improving soil microbial community than using enhanced-efficiency N sources.

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