On the Influence of the Nugget Effect on the Efficiency of Magnetometric Soil Surface Screening

J. Zawadzki, P. Fabijańczyk
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Abstract

Abstract The paper presents selected aspects of calculations and modelling of variograms from measurements of soil surface magnetic susceptibility for rapid screening of surface soil contamination with Technogenic Magnetic Particles (TMP). In particular, the methodology of variogram analysis in the case of multiple magnetometric measurements in one measurement location with the use of the MS2D Bartington sensor was discussed. A new approach to analysing such measurements was proposed that allows determining and using the nugget effect from standard, already existing measurements. This is of key importance for the quality of spatial analyses, and thus the screening results obtained by means of field magnetometry. In the paper, it was shown, step by step, that averaging the measurements performed at one measurement point during the calculation of the empirical variograms does not result in the loss of information on spatial variability in the microscale. As it was calculated non-averaged measurements were characterised by the nugget-to-sill ratio of about 96 % which was much higher than in the case of averaged measurements (close to 0 %). A range of correlation was similar in both cases and was equal to about 300 m - 400 m. The local variogram revealed a range of correlation of about 80 cm. As a result, the screening results are more reliable than is the case with the traditional procedure. An additional advantage of the work was the performance of all calculations in free R software.
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核块效应对磁强计土壤表面筛分效率的影响
摘要:本文介绍了土壤表面磁化率测量的变异函数的计算和建模的选择方面,以快速筛选表面土壤污染的技术磁性颗粒(TMP)。特别地,讨论了使用MS2D巴丁顿传感器在一个测量位置进行多次磁强计测量的变差分析方法。提出了一种分析这种测量的新方法,允许从标准的、已经存在的测量中确定和使用金块效应。这对于空间分析的质量至关重要,因此通过磁场测量获得的筛选结果也至关重要。本文逐步证明,在计算经验变差时,对一个测量点的测量取平均值不会导致微尺度空间变异性信息的丢失。根据计算结果,非平均测量的特征是块岩与地基的比率约为96%,远高于平均测量的情况(接近0%)。在这两种情况下,相关范围是相似的,大约等于300米- 400米。局部变异图显示相关范围约为80 cm。因此,筛选结果比传统程序更可靠。这项工作的另一个优点是所有的计算都是在免费的R软件中进行的。
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