THE IMPLICATION OF CATION EXCHANGE CAPACITY (CEC) ASSESSMENT FOR SOIL QUALITY MANAGEMENT AND IMPROVEMENT

Organic matter is the main source of CEC in sandy soils. Because of the different methods for estimating CEC, it is important to know the intended use of the data. For soil classification purposes, soil CEC is often measured at a standard pH value (pH 7). Since the value of CEC is a dependent variab...

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Veröffentlicht in:	Poljoprivreda i šumarstvo 2023-12, Vol.69 (4), p.113-134
Hauptverfasser:	CIRIC, Vladimir, PREKOP, Nenad, SEREMESIC, Srdjan, VOJNOV, Bojan, PEJIC, Borivoj, RADOVANOVIC, Dragan, MARINKOVIC, Dragana
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural production Cation exchange Cation exchanging Chemical properties Clay Clay minerals Clay soils Crystal lattices Decomposing organic matter Dependent variables Electron microscopes Fertilization Humus Minerals Nutrients Organic matter Organic soils pH effects Potassium Quality assessment Quality management Sandy soils Soil chemistry Soil classification Soil fertility Soil management Soil properties Soil quality
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container_title	Poljoprivreda i šumarstvo
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creator	CIRIC, Vladimir PREKOP, Nenad SEREMESIC, Srdjan VOJNOV, Bojan PEJIC, Borivoj RADOVANOVIC, Dragan MARINKOVIC, Dragana
description	Organic matter is the main source of CEC in sandy soils. Because of the different methods for estimating CEC, it is important to know the intended use of the data. For soil classification purposes, soil CEC is often measured at a standard pH value (pH 7). Since the value of CEC is a dependent variable property of the soil, its value depends on the content of clay minerals, organic matter, fertilization and pH value. Keywords: cation exchange capacity, CEC, agriculture, soil, organic matter, clay (ProQuest: ... denotes formulae omitted.) INTRODUCTION Soil Cation Exchange Capacity is a very complex indicator that reflects a subset of soil physical and chemical properties of different individual values, and its interpretation can significantly improve agricultural production. For this reason, it is important to study and define the physical and chemical properties of soil, as well as the content of organic matter and clay, as the most important factors of cation exchange, not only to preserve the current state, but also to improve and improve the state of soil fertility. [...]it is of crucial importance to study and understand the interrelationships of clay, humus content and their influence on CEC, because soil fertility and its ability to resist degrading changes depends on these properties.
doi_str_mv	10.17707/AgricultForest.69.4.08
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Because of the different methods for estimating CEC, it is important to know the intended use of the data. For soil classification purposes, soil CEC is often measured at a standard pH value (pH 7). Since the value of CEC is a dependent variable property of the soil, its value depends on the content of clay minerals, organic matter, fertilization and pH value. Keywords: cation exchange capacity, CEC, agriculture, soil, organic matter, clay (ProQuest: ... denotes formulae omitted.) INTRODUCTION Soil Cation Exchange Capacity is a very complex indicator that reflects a subset of soil physical and chemical properties of different individual values, and its interpretation can significantly improve agricultural production. For this reason, it is important to study and define the physical and chemical properties of soil, as well as the content of organic matter and clay, as the most important factors of cation exchange, not only to preserve the current state, but also to improve and improve the state of soil fertility. [...]it is of crucial importance to study and understand the interrelationships of clay, humus content and their influence on CEC, because soil fertility and its ability to resist degrading changes depends on these properties.</description><identifier>ISSN: 0554-5579</identifier><identifier>EISSN: 1800-9492</identifier><identifier>DOI: 10.17707/AgricultForest.69.4.08</identifier><language>eng</language><publisher>Titograd: University of Montenegro, Biotechnical Faculty</publisher><subject>Agricultural production ; Cation exchange ; Cation exchanging ; Chemical properties ; Clay ; Clay minerals ; Clay soils ; Crystal lattices ; Decomposing organic matter ; Dependent variables ; Electron microscopes ; Fertilization ; Humus ; Minerals ; Nutrients ; Organic matter ; Organic soils ; pH effects ; Potassium ; Quality assessment ; Quality management ; Sandy soils ; Soil chemistry ; Soil classification ; Soil fertility ; Soil management ; Soil properties ; Soil quality</subject><ispartof>Poljoprivreda i šumarstvo, 2023-12, Vol.69 (4), p.113-134</ispartof><rights>2023. 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For this reason, it is important to study and define the physical and chemical properties of soil, as well as the content of organic matter and clay, as the most important factors of cation exchange, not only to preserve the current state, but also to improve and improve the state of soil fertility. 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subjects	Agricultural production Cation exchange Cation exchanging Chemical properties Clay Clay minerals Clay soils Crystal lattices Decomposing organic matter Dependent variables Electron microscopes Fertilization Humus Minerals Nutrients Organic matter Organic soils pH effects Potassium Quality assessment Quality management Sandy soils Soil chemistry Soil classification Soil fertility Soil management Soil properties Soil quality
title	THE IMPLICATION OF CATION EXCHANGE CAPACITY (CEC) ASSESSMENT FOR SOIL QUALITY MANAGEMENT AND IMPROVEMENT
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