Chromatographic methods in determination of the soil-water partition coefficient

The soil-water partition coefficient normalized to the soil organic carbon content (K OC ) is one of essential properties governing the fate of organic chemicals in the soil-water compartment. It is a parameter of utmost importance when it comes to the removal of toxic organics in the waste water ma...

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Published in	Journal of liquid chromatography & related technologies Vol. 39; no. 5-6; pp. 249 - 256
Main Authors	Andric, Filip, S;egan, Sandra, Tesic, Zivoslav, Milojkovic-Opsenica, Dusanka
Format	Journal Article
Language	English
Published	Abingdon Taylor & Francis 02.04.2016 Taylor & Francis Ltd
Subjects	Assessments Chromatography Coefficients Environmental assessment High-performance liquid chromatography Ions Liquid chromatography Markets Moisture content Organic carbon Organic chemicals Organic chemistry Partitions Soil (material) soil thin-layer chromatography Soil water soil-column chromatography soil-water partition coefficient (K thin-layer chromatography Wastewater management Water management
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ISSN	1082-6076 1520-572X
DOI	10.1080/10826076.2016.1163173

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Abstract	The soil-water partition coefficient normalized to the soil organic carbon content (K OC ) is one of essential properties governing the fate of organic chemicals in the soil-water compartment. It is a parameter of utmost importance when it comes to the removal of toxic organics in the waste water management facilities or placing a new chemical on the market. Since direct determination of K OC based on tests involving soil-sorption measurements are expensive, time-consuming, tedious, and subject to different experimental difficulties and artifacts, different alternative methods have been developed for rapid indirect experimental determination and estimation of K OC values. In the scope of the present work, we provide critical and historical overview of development and application of the main chromatographic methods, both high-performance liquid chromatography and thin-layer chromatographic techniques for indirect experimental determination of the soil-water partition coefficient as well as mobility assessment of environmentally important compounds in the soil. Chromatographic methods proved to be promising in this field, which is clearly demonstrated by their implementation in official guidelines for testing the chemicals.
AbstractList	The soil-water partition coefficient normalized to the soil organic carbon content (KOC) is one of essential properties governing the fate of organic chemicals in the soil-water compartment. It is a parameter of utmost importance when it comes to the removal of toxic organics in the waste water management facilities or placing a new chemical on the market. Since direct determination of KOC based on tests involving soil-sorption measurements are expensive, time-consuming, tedious, and subject to different experimental difficulties and artifacts, different alternative methods have been developed for rapid indirect experimental determination and estimation of KOC values. In the scope of the present work, we provide critical and historical overview of development and application of the main chromatographic methods, both high-performance liquid chromatography and thin-layer chromatographic techniques for indirect experimental determination of the soil-water partition coefficient as well as mobility assessment of environmentally important compounds in the soil. Chromatographic methods proved to be promising in this field, which is clearly demonstrated by their implementation in official guidelines for testing the chemicals. The soil-water partition coefficient normalized to the soil organic carbon content (K sub(OC)) is one of essential properties governing the fate of organic chemicals in the soil-water compartment. It is a parameter of utmost importance when it comes to the removal of toxic organics in the waste water management facilities or placing a new chemical on the market. Since direct determination of K sub(OC) based on tests involving soil-sorption measurements are expensive, time-consuming, tedious, and subject to different experimental difficulties and artifacts, different alternative methods have been developed for rapid indirect experimental determination and estimation of K sub(OC) values. In the scope of the present work, we provide critical and historical overview of development and application of the main chromatographic methods, both high-performance liquid chromatography and thin-layer chromatographic techniques for indirect experimental determination of the soil-water partition coefficient as well as mobility assessment of environmentally important compounds in the soil. Chromatographic methods proved to be promising in this field, which is clearly demonstrated by their implementation in official guidelines for testing the chemicals. The soil-water partition coefficient normalized to the soil organic carbon content (K OC ) is one of essential properties governing the fate of organic chemicals in the soil-water compartment. It is a parameter of utmost importance when it comes to the removal of toxic organics in the waste water management facilities or placing a new chemical on the market. Since direct determination of K OC based on tests involving soil-sorption measurements are expensive, time-consuming, tedious, and subject to different experimental difficulties and artifacts, different alternative methods have been developed for rapid indirect experimental determination and estimation of K OC values. In the scope of the present work, we provide critical and historical overview of development and application of the main chromatographic methods, both high-performance liquid chromatography and thin-layer chromatographic techniques for indirect experimental determination of the soil-water partition coefficient as well as mobility assessment of environmentally important compounds in the soil. Chromatographic methods proved to be promising in this field, which is clearly demonstrated by their implementation in official guidelines for testing the chemicals.
Author	Andrić, Filip Šegan, Sandra Tešić, Živoslav Milojković-Opsenica, Dušanka
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Snippet	The soil-water partition coefficient normalized to the soil organic carbon content (K OC ) is one of essential properties governing the fate of organic... The soil-water partition coefficient normalized to the soil organic carbon content (KOC) is one of essential properties governing the fate of organic chemicals... The soil-water partition coefficient normalized to the soil organic carbon content (K sub(OC)) is one of essential properties governing the fate of organic...
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SubjectTerms	Assessments Chromatography Coefficients Environmental assessment High-performance liquid chromatography Ions Liquid chromatography Markets Moisture content Organic carbon Organic chemicals Organic chemistry Partitions Soil (material) soil thin-layer chromatography Soil water soil-column chromatography soil-water partition coefficient (K thin-layer chromatography Wastewater management Water management
Title	Chromatographic methods in determination of the soil-water partition coefficient
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