Elemental Release from Egyptian Glauconite Sediments: An Extraction Study by Various Acids

Elemental Release from Egyptian Glauconite Sediments: An Extraction Study by Various Acids

Glauconite, a diagenetic sedimentary phyllosilicate mineral, holds significant importance in soil science, as it is commonly used in soil characterization (as in greensands) and can be identified in the field by its color and morphology. It is a potential fertilizer, rich in essential macronutrients...

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Main Authors: Nada Eldawwy, Márk Horváth, Heba Naser, Abdulrahman Maina Zubairu, Gábor Halász, Éva Lehoczky, Eszter Takács, András Székács, Miklós Gulyás
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Soil Systems
Subjects:
glauconite sediments
potassium fertilizers
acidification
extraction
Online Access:https://www.mdpi.com/2571-8789/9/2/50
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Summary:Glauconite, a diagenetic sedimentary phyllosilicate mineral, holds significant importance in soil science, as it is commonly used in soil characterization (as in greensands) and can be identified in the field by its color and morphology. It is a potential fertilizer, rich in essential macronutrients like potassium, phosphorus, calcium, and numerous micronutrients such as manganese, zinc, copper, cobalt, and nickel. In this meticulously conducted study, we extracted five individual elements (potassium, calcium, magnesium, sodium, and zinc) from washed glauconite samples separated into five different size fractions using a suite of acids. The acids employed were nitric acid, hydrochloric acid, acetic acid, and phosphoric acid, each prepared at the same molarity of 0.1 M. Water was used as the control solubilizing medium. The extractant behavior of the acids was assessed by measuring concentrations of each element by the ICP-OES device. The results demonstrate that nitric acid consistently exhibits the highest efficacy in releasing elements, followed by hydrochloric acid and phosphoric acid, while acetic acid results in the lowest release of these nutrients. These findings support the use of acidification treatment of glauconite, enhancing elemental release and potentially reducing the amount of glauconite needed as an alternative fertilizer, thus adding economic value.
ISSN:2571-8789

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