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A simulation study of extrapolation uncertainty in exposure assessment – Use of pilot study results for site investigation.

Authors :
Goodrum, Philip E.
Mendelsohn, Emma S.
Roberts, Stephen M.
Stuchal, Leah D.
Source :
Journal of Environmental Management. Apr2024, Vol. 356, pN.PAG-N.PAG. 1p.
Publication Year :
2024

Abstract

Accurate characterization of soil contaminant concentrations is often crucial for assessing risks to human and ecological health. However, fine-scale assessments of large tracts of land can be cost prohibitive due to the number of samples needed. One solution to this problem is to extrapolate sampling results from one area to another unsampled area. In the absence of a validated extrapolation methodology, regulatory agencies have employed policy-based techniques for large sites, but the likelihood of decision errors resulting from these extrapolations is largely unexplored. This study describes the results of a simulation study aimed at guiding environmental sampling for sites where extrapolation concepts are of interest. The objective of this study is to provide practical recommendations to regulatory agencies for extrapolating sampling results on large tracts of land while minimizing errors that are detrimental to human health. A variety of site investigation scenarios representative of environmental conditions and sampling schemes were tested using adaptive sampling when collecting discrete samples or applying incremental sampling methodology (ISM). These simulations address extrapolation uncertainty in cases where a Pilot Study might result in either false noncompliance or false compliance conclusions. A wide range of plausible scenarios were used that reflect the variety of heterogeneity seen at large sites. This simulation study demonstrates that ISM can be reliably applied in a Pilot Study for purposes of extrapolating the outcome to a large area site because it decreases the likelihood of false non-compliance errors while also providing reliable estimates of true compliance across unsampled areas. The results demonstrate how errors depend on the magnitude of the 95% upper confidence limit for the mean concentration (95UCL) relative to the applicable action level, and that error rates are highest when the 95UCL is within 10%–40% of the action level. The false compliance rate can be reduced to less than 5% when 30% or more of the site is characterized with ISM. False compliance error rates using ISM are insensitive to the fraction of the decision units (DUs) that are characterized with three replicates (with a minimum of 10 percent), so long as 95UCLs are calculated for the DUs with one replicate using the average coefficient of variation from the three replicate DUs. • Environmental assessments of large tracts of land often use extrapolation methods. • Simulations support the use of extrapolation for the protection of human health. • An average coefficient of variation predicts upper end concentrations. • Using discrete sampling, 30% of the site must be characterized before extrapolation. • Incremental sampling requires 10% site characterization before extrapolation. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
03014797
Volume :
356
Database :
Academic Search Index
Journal :
Journal of Environmental Management
Publication Type :
Academic Journal
Accession number :
176391555
Full Text :
https://doi.org/10.1016/j.jenvman.2024.120692