Fit of Four Curve−Linear Models to Decay Profiles for Pest Control Substances in Soil

Experiments that investigate the pattern of degradation of pest control substances in soil are often undertaken to estimate the persistence of compounds in the environment. Mathematical models are typically fit to decay data to facilitate the interpretation of the results and make predictions concer...

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Bibliographic Details
Published in:Journal of agricultural and food chemistry 2006-06, Vol.54 (12), p.4343-4349
Main Authors: Herman, Rod A, Scherer, Peter N
Format: Article
Language:English
Subjects:
biodegradation
Biological and medical sciences
curve-linear models
environmental fate
Food industries
Fundamental and applied biological sciences. Psychology
Linear Models
mathematical models
Models, Theoretical
pesticide persistence
pesticide residues
pesticides
Pesticides - analysis
Pesticides - chemistry
Soil - analysis
soil microorganisms
soil pollution
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Summary:Experiments that investigate the pattern of degradation of pest control substances in soil are often undertaken to estimate the persistence of compounds in the environment. Mathematical models are typically fit to decay data to facilitate the interpretation of the results and make predictions concerning the environmental fate of xenobiotics in soil. Four mathematical models were fit to 61 data sets to compare their performance in conforming to empirical patterns of degradation of pest control substances in soil. The use of composite residual plots allowed comparisons of the performance of the different models over many data sets. While an exponential model, estimated using nonlinear regression, fit many data sets very well, a shift-log, biexponential, and Monod equation appears superior in many cases, and systematic deviations from data sets are often less evident with the latter models. A knowledge of the patterns of bias typically exhibited by each model across many data sets may be useful for selecting models with reduced bias when fitting individual data sets. Keywords: Soil degradation; modeling, residuals
ISSN:0021-8561
1520-5118
DOI:10.1021/jf060597n