Abstract
Problem statement: Mosses had been widely used as bioindicator especially to study the levels of trace metals pollutants in the surrounding ambient air because of their high efficiency to accumulate heavy metals contamination. There had been increasing demand to get a suitable analytical tools to determine the chemical contents of moss samples in this type of media. This study was conducted with the aims to get one of the best analytical methods for the analysis of moss samples. Approach: Despite the various spectroscopic techniques that normally used to analyzed heavy metals in moss, each of these techniques had its advantages and disadvantages which been summarized elsewhere. We try not to use any chemical to decompose the samples where the samples were analyzed directly in its solid form by Energy Dispersive X-Ray Fluoresence Spectrometer, EDXRF technique. The EDXRF technique optimized for its main analytical parameters. Calibration procedure was made based on the in-house standard samples. The reliability of the optimized analytical procedure was established by analyzing two certified reference materials, Pine Needle, NIST 1575 and Lichen, IAEA-336. Results: The results showed that the metals could be analyzed with percent recoveries range within 84-102% for Pine Needle and 92-125% for Lichen. The possible factors influencing the percent recoveries of the elements were discussed in details. Conclusion: On overall, it is strongly suggest that the applied EDXRF method is adequate enough to analysis the heavy metal contents in moss samples even at very small concentration with high accuracy and precisely.
Highlights
The use of mosses as bio-monitors for environmental studies is growing in acceptance and become popular in environmental study (Raychaudhuri et al, 2008)
Result from the clearly shows that the quantitative analysis of metals analysis of SRM was used to evaluate the concentration by EDXRF technique are not much reliability and accuracy of the adopted in this study
Since X-Ray Fluorescence (XRF) is a comparative technique where the measured intensity of an analyte peak is related to its concentration, the peak intensity must be correctly measured
Summary
The use of mosses as bio-monitors for environmental studies is growing in acceptance and become popular in environmental study (Raychaudhuri et al, 2008). Instruments such as the development of digital signal processing based spectrometers in combination with enlarge X-ray production using better designs for excitation-detection has added the advantage of increasing instrumental sensitivity, allowing the improvement of both precision and productivity This fact has promoted an increasing interest of using X-ray techniques as an alternative to various types of destructive analytical methods to study environmental samples (Budak et al, 2006; Kalnicky and Singhvi, 2001; Hassan et al, 2007; Ekinci et al, 2004; Sonibare, 2005).
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