Artículos de revistas
Comparative Measurements and their Compliance with Standards of Total Mercury Analysis in Soil by Cold Vapour and Thermal Decomposition, Amalgamation and Atomic Absorption Spectrometry
Fecha
2013Registro en:
Water Air Soil Pollut (2013) 224:1390
DOI 10.1007/s11270-012-1390-3
Autor
Leiva Guzmán, Manuel
Morales, Sandra
Segura, Rodrigo
Institución
Resumen
Two methods to measure mercury concentration
in soil are compared, and their compliance with
international standards is determined: cold vapour atomic
absorption spectrometry and thermal decomposition,
amalgamation and atomic absorption spectrophotometry.
The detection limit, quantification limit and uncertainty
of these two analytical methods were evaluated
and compared. The results indicated that thermal decomposition,
amalgamation and atomic absorption
spectrophotometry had a lower quantification limit and
uncertainty than cold vapour atomic absorption spectrometry
(quantification limit, 0.27 vs. 0.63 mgkg−1;
expanded uncertainty, 9.30 % vs. 10.8 %, respectively).
Thermal decomposition, amalgamation and atomic
absorption spectrophotometry allowed the determination
of the base values for the concentration of mercury
in soil recommended by international standards, achieving
a lower detection limit than cold vapour atomic
absorption spectrometry under the study conditions. In
addition, thermal decomposition, amalgamation and
atomic absorption spectrophotometry represent a more
environmentally friendly alternative for mercury determination
because this method uses fewer reagents and
therefore generates less waste.