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Simultaneous Multielement Analysis of Clays by Inductively Coupled Plasma-Atomic Emission Spectroscopy Using Suspension Aspiration

Published online by Cambridge University Press:  02 April 2024

G. A. Spiers ,
M. J. Dudas  and
L. W. Hodgins
G. A. Spiers
Affiliation:
Department of Soil Science, University of Alberta, Edmonton, Alberta T6G 2E3, Canada
M. J. Dudas
Affiliation:
Department of Soil Science, University of Alberta, Edmonton, Alberta T6G 2E3, Canada
L. W. Hodgins
Affiliation:
Alberta Soil and Feed Testing Laboratory, Alberta Agriculture, Edmonton, Alberta T6G 2E3, Canada
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Abstract

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Keywords

AspirationChemical analysisEmission spectroscopyGlacial tillInductively coupled Ar plasmaPlasmaSoil
Type
Notes
Information
Clays and Clay Minerals , Volume 31 , Issue 5 , October 1983 , pp. 397 - 400
Copyright
Copyright © 1983, The Clay Minerals Society

References

Boumans, P. W. J. M., 1978 Inductively coupled plasma-atomic emission spectroscopy: its present and future position in analytical chemistry Optica Pure Y Appicada 11 143171.Google Scholar
Burman, J., 1977 Analysis of phosphorus in geological samples ICP Information Newsletter 3 3336.Google Scholar
Dalquist, R. L. and Knoll, J. W., 1978 Inductively coupled plasma-atomic emission spectrometry: analysis of biological materials and soils for major, trace and ultra-trace elements Appl. Spectrosc. 32 129.CrossRefGoogle Scholar
Edwards, A. P. and Bremner, J. M., 1967 Dispersion of soil particles by sonic vibration J. Soil Sci. 18 4763.CrossRefGoogle Scholar
Floyd, M. A., Fassel, V. A. and D’Silva, A. P., 1980 Computer-controlled scanning monochromator for the determination of 50 elements in geochemical andenvironmental samples by inductively coupled plasma-atomic emission spectrometry Anal. Chem. 52 21682173.CrossRefGoogle Scholar
Jones, J. B., 1977 Elemental analysis of soil extracts and plant tissue ash by plasma emission spectroscopy Comm. Soil Sci. Plant Anal. 8 349365.CrossRefGoogle Scholar
Larson, G. F., Morrow, R. W. and White, L. E., 1979 Application of an inductively coupled plasma/direct reading polychromator to the multielement analysis of stream sediment extracts ICP Inform. Newsletter 4 461.Google Scholar
McKeague, J. A., 1978 Manual on Soil Sampling and Methods of the Canada Soil Survey Committee .Google Scholar
McQuaker, N. R., Klucker, P. D. and Gok, N. G., 1979 Calibration of an inductively coupled plasma emission spectrometer for the analysis of environmental materials Anal. Chem. 51 888895.CrossRefGoogle Scholar
Odegard, M., 1979 Determination of major elements in geologic materials by ICP-AES Jarrell-Ash Plasma Newsletter 2 47.Google Scholar
Pawluk, S., 1967 Soil analyses by atomic absorption spectrometry Atomic Abs. Newsletter 6 5356.Google Scholar
Smith, D. G. W. and Cavell, P. A., 1980 Electron micro-probe analysis of clay minerals Electron Probe Microanalysis in Mineralogy 1978 90100.Google Scholar
Soltanpour, P. N., Workman, S. M. and Schwab, A. P., 1979 Use of inductively coupled plasma spectrometry for the simultaneous determination of macro and micronutrients in NH4HCO3-DTPA extracts of soils Soil Soc Amer. J. 43 7578.CrossRefGoogle Scholar
Spiers, G. A., 1982 Mineralogy and geochemistry of parent materials of the Athabasca Tar Sands Region Edmonton, Alberta M.Sc. thesis, University of Alberta.Google Scholar
Spiers, G. A., Dudas, M. J. and Hodgins, L. W., 1983 Instrumental conditions and procedure for multielement analysis of soils and plant tissue by ICP-AES Comm. Soil Sci. Plant Anal. .CrossRefGoogle Scholar
Walsh, J. N. and Howie, R. A., 1980 An evaluation of the performance of an inductively coupled plasma source spectrometer for trace constituents of silicate rocks and minerals. Min. Mag. 43 967974.CrossRefGoogle Scholar