Usually, sensitive analytical metho

Usually, sensitive analytical methods are required for the determination of traces of mercury in food, since its concentration is too low. The most common analytical methods are cold vapor atomic absorption spectrometry (CV AAS) (CVAAS) [12], [13] and [14] and inductively coupled plasma mass spectrometry (ICP-MS) [15], [16], [17] and [18] although they require sample preparation prior to analysis. These techniques are labor intensive and expensive and also require a long turnaround time. Thermal decomposition amalgamation atomic absorption spectrometry (TDA/AAS) and also known as elemental mercury analysis (DMA) is a single-purpose atomic absorption spectrometer for the determination of mercury traces in solid and liquid samples without pre-treatment or pre-concentration [19], [20], [21] and [22]. This system is described in the U.S. EPA Method 7473 [20] and in other works in the literature as a proven alternative to these labor-intensive wet chemistry techniques and is cost-effective [19], [20], [21], [22] and [23]. Direct mercury analysis affords other benefits, including no sample preparation, is easy to use, has reduced hazardous waste generation, smaller number of analytical errors, is relatively less expensive, is time efficient (in media 8 min per sample), and provides general cost savings. The principle of the DMA-80 analyzer is based on a sample drying and subsequent thermal decomposition, amalgamation, electrothermal atomization of mercury followed by atomic spectrometry detection. A gold amalgamator selectively traps and pre-concentrates the mercury from the flow of decomposition products. Finally the trapped mercury is released by temperature and detected by atomic absorption at 253.65 nm [20].