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http://dx.doi.org/10.5322/JESI.2019.28.11.1041

Evaluation of Homogeneity and Stability of Korean Mussel (Mytilus coruscus) Standards for Cadmium Analysis  

Lee, Ha-Eun (Natural Environment Research Division, National Institute of Environmental Research)
Lee, Jangho (Natural Environment Research Division, National Institute of Environmental Research)
Chung, David (Natural Environment Research Division, National Institute of Environmental Research)
Lee, Soo Yong (Natural Environment Research Division, National Institute of Environmental Research)
Park, Ki-Wan (Natural Environment Research Division, National Institute of Environmental Research)
Shim, Kyu-Young (Natural Environment Research Division, National Institute of Environmental Research)
Publication Information
Journal of Environmental Science International / v.28, no.11, 2019 , pp. 1041-1045 More about this Journal
Abstract
In this study, the KS A ISO Guide 35 was applied to develop analytical standards for heavy metal cadmium using the Korean mussel (Mytilus coruscus) and to evaluate the homogeneity and stability of the sample. Some of the crucial characteristics that reference materials must consist include homogeneity and stability of both intra- and inter-bottles. We tested homogeneity using ANOVA analysis and short-term stability using regression analysis. The variations of cadmium concentrations did not significantly differ between intra- and inter-bottles (F=0.41, p=0.90). For short-term stability verification, cadmium analysis results were not statistically significant as a result of the regression analysis (significance F=0.51, p=0.53). This suggests that we can not dismiss the null hypothesis that there is no significant variation in concentrations of cadmium over time. These results indicated that the cryogenic-milling process has statistically proven the short-term stability for materials from mussels in the chemical analysis of cadmium. Therefore, we propose that the Korean mussel's reference material developed for the proficiency test could be used as a tool to evaluate reliability and consistency in laboratories.
Keywords
Korean mussel; Homogeneity test; Short-term stability test;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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1 Bosch, A. C., O'Neill, B., Sigge, G. O., Kerwath, S. E., Hoffman, L. C., 2016, Heavy metals in marine fish meat and consumer health: a review, J. Sci. Food Agric., 96, 32-48.   DOI
2 Godt, J., Scheidig, F., Grosse-Siestrup, C., Esche, V., Brandenburg, P., Reich, A., Groneberg, D. A., 2006, The toxicity of cadmium and resulting hazards for human health, J. Occup. Med. Toxicol., 1(22), 1-6.   DOI
3 Goldberg, E. D., 1986, The mussel watch concept, Environ. Monit. Assess., 7, 91-103.   DOI
4 ISC (Industrial Stanard Council), 2005, Certification of reference materials - general and statistical principles, KS A ISO Guide 35:2005, Korean Agency for Technology and Standards, Chungcheongbuk-do, the Republic of Korea.
5 Jin, M. E., Sun, G. M., Park, S. G., Jwa, Y. J., 2017, A Preliminary study of Korean Geostandards using mesozoic granites, J. Korean Earth Sci. Soc., 38(6), 421-426.   DOI
6 Kim, J. H., Ahn, J. Y., Choi, S. G., Kwon, Y. S., Shin, M. C., Hong, S. M., Seo, J. S., 2018, Development of cherry tomato-analytical reference material for proficiency test of pesticide multi-residue analysis, Korean J. Pestic. Sci., 22(3), 159-165.   DOI
7 Lee, J. H., Lee, J. C., Kim, M. J., Han, A. R., Lee, E. G., Bade, R., Kim, M. S., 2012, Sampling and cryogenic pulverization and storage of environmental samples and improvement of operating procedures in National Environmental Specimen Bank, J. Environ. Impact Assess., 21(6), 823-839.   DOI
8 Lee, J. H., Chung, D., Choi, J. H., Lee, J. C., Lee, S. Y., 2018, Homogeneity test on bio-matrix reference material for chemical analysis of environmental pollutants, J. Environ. Sci. Int., 27(12), 1271-1277.   DOI
9 Rudel, H., Uhlig, S., Weingartner, M., 2008, Pulverisation and homogenisation of environmental samples by cryomilling, December 2008, V 2.0.0, Fraunhofer Institute, Schmallenberg, Germany.