Microbial activity and carbon rates the soil in response to the application of potassium sources

Pereira, David Gabriel Campos; Silva, Mickaelly Jordanya Guimarães; Meira, Maickon Wilhian Pereira; Santos, Helena Souza Nascimento; Neto, José Augusto dos Santos; Megda, Márcio Mahmoud; Megda, Michele Xavier Vieira

doi:10.4025/actascibiolsci.v44i1.58248

Acta Sci. Biol. Sci.

2022

DOI: 10.4025/actascibiolsci.v44i1.58248

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Microbial activity and carbon rates the soil in response to the application of potassium sources

David Gabriel Campos Pereira

Mickaelly Jordanya Guimarães Silva

Maickon Wilhian Pereira Meira

et al.

Abstract: The continuous use of KCl may not be sustainable in the long term in agricultural systems. High doses used in crops accumulate in the soil and plants, hindering the metabolic processes of soil organisms. This study assessed the soil microbial activity in response to the application of K sources in banana crop and effects on microbial C. The experimental design was completely randomized with four K sources: potassium nitrate (KNO3), potassium chloride (KCl), potassium sulfate (K2SO4), and monopotassium phosphat… Show more

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Thermodynamic Properties of the Mixture of Potassium Phosphate Fertilizer with KCl: Water Activity, Osmotic and Activity Coefficients, Excess Energy, and Solubility of KH₂PO₄–KCl–H₂O at 298.15 K

El Hantati,

Nour,

El Fadel

et al. 2024

J. Chem. Eng. Data

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The aim of this research is to investigate the impact of salts on fertilizer phosphate KH 2 PO 4 using a hygrometric method at 298.15 K by measuring the thermodynamic properties of the KH 2 PO 4 −KCl−H 2 O system. These measurements of relative humidity are conducted from 0.2 mol•kg −1 to the saturation of the solutes and for different ionic strength fractions y of KCl (y = I KCl / (I KHd 2 POd 4 + I KCl )). The obtained data allowed us to determine the water activities and osmotic coefficients. Four thermodynamic models are used to validate our results, including the Dinane ECA rule, Leitzke−Stoughton (LS II), Robinson and Stokes (RS), and Lin et al. equations. Additionally, we have employed the Pitzer− Simonson−Clegg (PSC) model to correlate the obtained data and to predict solute activity coefficients and excess Gibbs energy for various compositions. The hygrometric method is also used to determine the solubility of the components in the ternary system. To identify the nature of the solid phase, the Powder X-ray Diffraction (PXRD) is used and diagram solubility of KH 2 PO 4 −KCl−H 2 O is plotted. The results obtained from this work can serve as crucial information on the behavior of the system KH 2 PO 4 −KCl−H 2 O for the development of new fertilizers aimed at improving soil fertility, crop yields, agricultural productivity, and sustainable agriculture.

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Thermodynamic Properties of the Mixture of Potassium Phosphate Fertilizer with KCl: Water Activity, Osmotic and Activity Coefficients, Excess Energy, and Solubility of KH₂PO₄–KCl–H₂O at 298.15 K

El Hantati,

Nour,

El Fadel

et al. 2024

J. Chem. Eng. Data

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show abstract

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Microbial activity and carbon rates the soil in response to the application of potassium sources

Cited by 1 publication

References 21 publications

Thermodynamic Properties of the Mixture of Potassium Phosphate Fertilizer with KCl: Water Activity, Osmotic and Activity Coefficients, Excess Energy, and Solubility of KH₂PO₄–KCl–H₂O at 298.15 K

Thermodynamic Properties of the Mixture of Potassium Phosphate Fertilizer with KCl: Water Activity, Osmotic and Activity Coefficients, Excess Energy, and Solubility of KH₂PO₄–KCl–H₂O at 298.15 K

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Microbial activity and carbon rates the soil in response to the application of potassium sources

Cited by 1 publication

References 21 publications

Thermodynamic Properties of the Mixture of Potassium Phosphate Fertilizer with KCl: Water Activity, Osmotic and Activity Coefficients, Excess Energy, and Solubility of KH2PO4–KCl–H2O at 298.15 K

Thermodynamic Properties of the Mixture of Potassium Phosphate Fertilizer with KCl: Water Activity, Osmotic and Activity Coefficients, Excess Energy, and Solubility of KH2PO4–KCl–H2O at 298.15 K

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Product

Resources

About

Thermodynamic Properties of the Mixture of Potassium Phosphate Fertilizer with KCl: Water Activity, Osmotic and Activity Coefficients, Excess Energy, and Solubility of KH₂PO₄–KCl–H₂O at 298.15 K

Thermodynamic Properties of the Mixture of Potassium Phosphate Fertilizer with KCl: Water Activity, Osmotic and Activity Coefficients, Excess Energy, and Solubility of KH₂PO₄–KCl–H₂O at 298.15 K