THE speed and versatility of X-ray fluorescence spectrometry is well established,'and many
papers have been published describing the application of this technique to the elemental …

Plants can be analysed for the elements sodium, magnesium, aluminium, silicon,
phosphorus, sulphur, chlorine, potassium and calcium by X‐ray fluorescent spectrometry …

The use of X-ray fluorescence spectrometryfor the analysis of plant tissue is well
established. First introduced in 1958 by Brandt and Lazar (2) for the determination of …

X‐ray spectrometry can be used to analyse plants for elements of atomic number greater
than 20 at concentrations as low as 1 ppm. The most accurate results are obtained by …

-RAY fluorescence spectrography** is a powerful non-destructive analytical technique
capable of determining elements above atomic number 12 (magnesium) with speed and …

A method capable of wide application to the analysis of plant and faecal materials involving
X-ray fluorescence spectrometry for magnesium, aluminium, silicon, phosphorus, sulphur …

A numerical matrixcorrection technique is used to linearize fluorescent X-ray intensities from
plant material to permit quantitation of the measurable trace elements. Percentage …

A method is presented for the determination of trace elements in plant materials. The
samples were composed of organic material, which was eliminated by wet ashing, large …

X-ray emission spectrography in comparison with many analytical tools provides a
nondestructive means of determining elemental concentrations in plant materials with …

Calcium and Potassium Levels in Leaves Measured by X-ray Fluorescence Analysis Page 1 Inr
J. Appi. Rocliur. Iat. Vol 33. pp 193 10 196. 1982 0020-708X:82/030193-04103.00/0 Pranted ,n …