Uncertainty in the river export modelling of pesticides and transformation products

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Uncertainty in the river export modelling of pesticides and transformation products. / Gassmann, Matthias; Khodorkovsky, Miriam; Friedler, Eran et al.
in: Environmental Modelling & Software, Jahrgang 51, 01.2014, S. 35-44.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

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Gassmann M, Khodorkovsky M, Friedler E, Dubowski Y, Olsson O. Uncertainty in the river export modelling of pesticides and transformation products. Environmental Modelling & Software. 2014 Jan;51:35-44. doi: 10.1016/j.envsoft.2013.09.021

Bibtex

@article{afa3eb6ad2d841598dccf9619b38ef81,
title = "Uncertainty in the river export modelling of pesticides and transformation products",
abstract = "The modelling of agrochemical pollutants in the environment is burdened by numerous uncertainties. Not only parameter values are uncertain but often also the mass and timing of application. By introducing transformation products (TPs) into modelling, further uncertainty, coming from the dependence of these substances on their parent compounds and the introduction of new model parameters, is likely. The purpose of this study was the investigation of the behaviour of a parsimonious catchment scale model for the assessment of river concentrations of the insecticide Chlorpyrifos (CP) and its two main TPs, Chlorpyrifos Oxon (CPO) and 3,5,6-trichloro-2-pyridinol (TCP) under the influence of uncertain input parameter values. Especially parameter uncertainty and pesticide application uncertainty were investigated by Global Sensitivity Analysis (GSA) and the Generalized Likelihood Uncertainty Estimation (GLUE) method, based on Monte-Carlo sampling.GSA revealed that half-lives and sorption parameters as well as half-lives and transformation parameters were correlated to each other. This means the concepts of modelling sorption and degradation/transformation were correlated. Thus, it may be difficult in modelling studies to optimise parameter values for these modules. Furthermore, we could show that erroneous pesticide application mass and timing were compensated during Monte-Carlo sampling by changing the half-life of CP. However, the introduction of TCP into the calculation of the objective function was able to enhance the identifiability of pesticide application mass. The GLUE analysis showed that CP and TCP were modelled sufficiently, but CPO modelling failed with high uncertainty and insensitive parameters. We assumed a structural error of the model which was especially important for CPO assessment. This shows there is the possibility that a chemical and some of its TPs can be modelled successfully by a specific model structure, but for other TPs the model structure may not be suitable. Concluding, this study confirmed that the introduction of TPs into pesticide fate and export modelling from hydrological catchments amplifies parameter uncertainty and model structure uncertainty.",
keywords = "Chemistry, Chlorpyrifos, GLUE method, Parameter uncertainty, Pesticide, Sensitivity analysis, Transformation product",
author = "Matthias Gassmann and Miriam Khodorkovsky and Eran Friedler and Yael Dubowski and Oliver Olsson",
year = "2014",
month = jan,
doi = "10.1016/j.envsoft.2013.09.021",
language = "English",
volume = "51",
pages = "35--44",
journal = "Environmental Modelling & Software",
issn = "1364-8152",
publisher = "Pergamon Press",

}

RIS

TY - JOUR

T1 - Uncertainty in the river export modelling of pesticides and transformation products

AU - Gassmann, Matthias

AU - Khodorkovsky, Miriam

AU - Friedler, Eran

AU - Dubowski, Yael

AU - Olsson, Oliver

PY - 2014/1

Y1 - 2014/1

N2 - The modelling of agrochemical pollutants in the environment is burdened by numerous uncertainties. Not only parameter values are uncertain but often also the mass and timing of application. By introducing transformation products (TPs) into modelling, further uncertainty, coming from the dependence of these substances on their parent compounds and the introduction of new model parameters, is likely. The purpose of this study was the investigation of the behaviour of a parsimonious catchment scale model for the assessment of river concentrations of the insecticide Chlorpyrifos (CP) and its two main TPs, Chlorpyrifos Oxon (CPO) and 3,5,6-trichloro-2-pyridinol (TCP) under the influence of uncertain input parameter values. Especially parameter uncertainty and pesticide application uncertainty were investigated by Global Sensitivity Analysis (GSA) and the Generalized Likelihood Uncertainty Estimation (GLUE) method, based on Monte-Carlo sampling.GSA revealed that half-lives and sorption parameters as well as half-lives and transformation parameters were correlated to each other. This means the concepts of modelling sorption and degradation/transformation were correlated. Thus, it may be difficult in modelling studies to optimise parameter values for these modules. Furthermore, we could show that erroneous pesticide application mass and timing were compensated during Monte-Carlo sampling by changing the half-life of CP. However, the introduction of TCP into the calculation of the objective function was able to enhance the identifiability of pesticide application mass. The GLUE analysis showed that CP and TCP were modelled sufficiently, but CPO modelling failed with high uncertainty and insensitive parameters. We assumed a structural error of the model which was especially important for CPO assessment. This shows there is the possibility that a chemical and some of its TPs can be modelled successfully by a specific model structure, but for other TPs the model structure may not be suitable. Concluding, this study confirmed that the introduction of TPs into pesticide fate and export modelling from hydrological catchments amplifies parameter uncertainty and model structure uncertainty.

AB - The modelling of agrochemical pollutants in the environment is burdened by numerous uncertainties. Not only parameter values are uncertain but often also the mass and timing of application. By introducing transformation products (TPs) into modelling, further uncertainty, coming from the dependence of these substances on their parent compounds and the introduction of new model parameters, is likely. The purpose of this study was the investigation of the behaviour of a parsimonious catchment scale model for the assessment of river concentrations of the insecticide Chlorpyrifos (CP) and its two main TPs, Chlorpyrifos Oxon (CPO) and 3,5,6-trichloro-2-pyridinol (TCP) under the influence of uncertain input parameter values. Especially parameter uncertainty and pesticide application uncertainty were investigated by Global Sensitivity Analysis (GSA) and the Generalized Likelihood Uncertainty Estimation (GLUE) method, based on Monte-Carlo sampling.GSA revealed that half-lives and sorption parameters as well as half-lives and transformation parameters were correlated to each other. This means the concepts of modelling sorption and degradation/transformation were correlated. Thus, it may be difficult in modelling studies to optimise parameter values for these modules. Furthermore, we could show that erroneous pesticide application mass and timing were compensated during Monte-Carlo sampling by changing the half-life of CP. However, the introduction of TCP into the calculation of the objective function was able to enhance the identifiability of pesticide application mass. The GLUE analysis showed that CP and TCP were modelled sufficiently, but CPO modelling failed with high uncertainty and insensitive parameters. We assumed a structural error of the model which was especially important for CPO assessment. This shows there is the possibility that a chemical and some of its TPs can be modelled successfully by a specific model structure, but for other TPs the model structure may not be suitable. Concluding, this study confirmed that the introduction of TPs into pesticide fate and export modelling from hydrological catchments amplifies parameter uncertainty and model structure uncertainty.

KW - Chemistry

KW - Chlorpyrifos

KW - GLUE method

KW - Parameter uncertainty

KW - Pesticide

KW - Sensitivity analysis

KW - Transformation product

UR - http://www.scopus.com/inward/record.url?scp=84887208509&partnerID=8YFLogxK

U2 - 10.1016/j.envsoft.2013.09.021

DO - 10.1016/j.envsoft.2013.09.021

M3 - Journal articles

VL - 51

SP - 35

EP - 44

JO - Environmental Modelling & Software

JF - Environmental Modelling & Software

SN - 1364-8152

ER -

DOI