Sampling error associated with collection and analysis of soil samples at TNT‐contaminated sites

T. Jenkins, C. Grant, G. Brar, P. Thorne, P. Schumacher, T. Ranney
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引用次数: 56

Abstract

This study assessed short-range spatial het- erogeneity of TNT concentrations in surface soils at ex- plosives-contaminated sites. Discrete and composite samples were analyzed by both on-site calorimetric techniques and standard laboratory protocols. Three lo- cations were sampled at each of three installations, and the results were used to estimate the relative contribu- tions of analytical error and sampling error. The major contaminant at seven of the nine sampling locations was TNT, and the on-site calorimetric method provided results that were in excellent agreement with laboratory results from the use of SW846 Method 8330. At four of the seven TNT locations, short-range concentration variations were modest and analyte distribution was sufficiently Gaussian to allow application of normal dis- tribution statistics to fractionate the total error vari- ances. For these four locations, standard deviations due to sampling were greater than the corresponding standard deviations due to analysis by factors ranging from 2.6 to 22.8. This relationship held whether charac- terization was done with the use of on-site analysis or laboratory analysis. For the other three TNT locations, enormous short-range spatial heterogeneity was en- countered and sampling error overwhelmed analytical error. To improve estimates of mean concentrations, sampling error was reduced by the use of composite sampling strategies. Overall, this study indicates that characterization of explosives-contaminated sites with the use of a combination of composite sampling, in- field sample homogenization, and on-site calorimetric analysis is an efftcient method of obtaining accurate and precise mean concentration estimates that are rep- resentative of the area. @ 1997 John Wiley & Sons, Inc. Field Analyt Chem Technol 1:151-163,1997
与TNT污染场地土壤样本收集和分析相关的采样误差
本研究评估了炸药污染场地表层土壤中TNT浓度的短期空间热蚀性。通过现场量热技术和标准实验室方案对离散和复合样品进行了分析。在三个装置中分别对三个位置进行采样,并使用结果来估计分析误差和采样误差的相对贡献。9个采样点中有7个的主要污染物是TNT,现场量热法提供的结果与使用SW846方法8330的实验室结果非常一致。在七个TNT地点中的四个,短期浓度变化是适度的,分析物分布是充分的高斯分布,允许应用正态分布统计来对总误差方差进行分馏。对于这四个地点,抽样产生的标准差大于2.6 ~ 22.8因子分析产生的标准差。无论用现场分析还是实验室分析,这种关系都是成立的。对于其他三个TNT地点,巨大的近程空间异质性被抵消了,抽样误差超过了分析误差。为了提高平均浓度的估计,使用复合抽样策略减少了抽样误差。总的来说,这项研究表明,结合使用复合采样、现场样品均质化和现场量热分析来表征爆炸物污染场地是一种有效的方法,可以获得准确和精确的代表该地区的平均浓度估计。John Wiley & Sons, Inc化学工程学报(英文版),1997
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