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March 18, 2025
Journal Article
Title
Consolidated octanol/water partition coefficients: combining multiple estimates from different methods to reduce uncertainties in log KOW
Abstract
Background:
The octanol/water partition coefcient (KOW) is a key parameter for assessing the fate and efects of chemicals. It is a metric of their hydrophobicity, related to uptake and accumulation in organisms and specifc tissues, and distribution in water, soil and sediments. The log KOW can be determined experimentally, more often it is calculated. Variability may be due to properties of the substances, diferent experimental methods, or diferent com putational approaches with diferent domains of applicability. The objective of the present study is to derive coherent log KOW estimates with known variability by (1) estimating multiple log KOW values by diferent methods for diverse chemicals to exemplify their variabilities, (2) analysing the variabilities of log KOW estimates by underlying methods and for diferent chemical classes, and (3) recommending approaches to obtain reliable and robust log KOW estimates for hazard and risk assessment.
Results:
Comparative analyses were based on 231 case study chemicals representing diverse chemical classes, such as POPs, PCB, PAH, siloxanes, fame retardants, PFAS, pesticides, pharmaceuticals, surfactants, etc. The variabil ity of up to 36 log KOW values per substance, determined experimentally or estimated by diferent computational approaches, is 1 log unit and more across the entire log KOW range from <0 to >8. No systematic pattern is evident. Diferent methods for deriving log KOW perform sometimes better and sometimes worse for diferent chemicals. None of the methods (experimental or computational) is consistently superior and any method can be the worst.
Conclusions:
Iterative consensus modelling combines multiple estimates by a weight-of-evidence (WoE) or averag ing approach for scientifcally valid and reproducible log KOW estimates with known variability. Consolidated log KOW, being the mean of at least 5 valid data obtained by diferent independent methods experimental and computa tional), are a pragmatic way to deal with the variability and uncertainty of individual results. While this approach does not solve any of the problems about“correctly” determining log KOW, it does limit the bias due to individual erroneous estimates. Consolidated log KOW are robust and reliable measures of hydrophobicity, with variability mostly within 0.2 log units.
The octanol/water partition coefcient (KOW) is a key parameter for assessing the fate and efects of chemicals. It is a metric of their hydrophobicity, related to uptake and accumulation in organisms and specifc tissues, and distribution in water, soil and sediments. The log KOW can be determined experimentally, more often it is calculated. Variability may be due to properties of the substances, diferent experimental methods, or diferent com putational approaches with diferent domains of applicability. The objective of the present study is to derive coherent log KOW estimates with known variability by (1) estimating multiple log KOW values by diferent methods for diverse chemicals to exemplify their variabilities, (2) analysing the variabilities of log KOW estimates by underlying methods and for diferent chemical classes, and (3) recommending approaches to obtain reliable and robust log KOW estimates for hazard and risk assessment.
Results:
Comparative analyses were based on 231 case study chemicals representing diverse chemical classes, such as POPs, PCB, PAH, siloxanes, fame retardants, PFAS, pesticides, pharmaceuticals, surfactants, etc. The variabil ity of up to 36 log KOW values per substance, determined experimentally or estimated by diferent computational approaches, is 1 log unit and more across the entire log KOW range from <0 to >8. No systematic pattern is evident. Diferent methods for deriving log KOW perform sometimes better and sometimes worse for diferent chemicals. None of the methods (experimental or computational) is consistently superior and any method can be the worst.
Conclusions:
Iterative consensus modelling combines multiple estimates by a weight-of-evidence (WoE) or averag ing approach for scientifcally valid and reproducible log KOW estimates with known variability. Consolidated log KOW, being the mean of at least 5 valid data obtained by diferent independent methods experimental and computa tional), are a pragmatic way to deal with the variability and uncertainty of individual results. While this approach does not solve any of the problems about“correctly” determining log KOW, it does limit the bias due to individual erroneous estimates. Consolidated log KOW are robust and reliable measures of hydrophobicity, with variability mostly within 0.2 log units.
Project(s)
Integrierte Bewertungsstrategie für die Bewertung der aquatischen und terrestrischen Bioakkumulation von Stoffen
Funder