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Original Articles

Anatomical mercury speciation in bay scallops by thio-bearing chelating resin concentration and GC-electron capture detector determination

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Pages 54-62 | Received 27 Jun 2013, Accepted 13 Oct 2013, Published online: 08 Jan 2014
 

Abstract

The highly toxic methyl-, ethyl- and phenylmercury species that may exist in the three main anatomical parts – the adductor muscle, the mantle and the visceral mass – of bay scallops (Argopecten irradias) were quantitatively released by cupric chloride, zinc acetate, sodium chloride and hydrochloric acid (HCl) under ultrasonic extraction. After centrifugation, the mercury species in the supernatant were concentrated by thio (SH)-bearing chelating resins, eluted with HClO4 and HCl and extracted with toluene. Separation was achieved by capillary GC equipped with programmed temperatures, a constant nitrogen flow and detected by a micro-electron capture detector (μECD). Under optimised conditions, the LODs for methyl-, ethyl- and phenylmercury in bay scallop samples were 1.1, 0.65 and 0.80 ng g−1, respectively. The maximum RSD for three replicate determinations of methyl-, ethyl- and phenylmercury in bay scallop samples were 13.7%, 14.0% and 11.2%, respectively. In the concentration range of 4–200 ng g−1 in bay scallop samples, the calibration graphs were linear with correlation coefficients not less than 0.997. Recoveries for spiked samples were in the range of 92.7–103.5% (methylmercury), 87.5–108.3% (ethylmercury) and 91.6–106.0% (phenylmercury), respectively. The method was verified by the determination of methylmercury in a CRM GBW10029 (Total Mercury and Methyl Mercury in Fish Tissue), with results in good agreement with the certified values. Methylmercury – the only existing species in bay scallops – was successfully determined by the method.

Graphical Abstract

Acknowledgements

The authors were grateful to the help of some of the samplings done by HE Jiaqin, HAN Xuemei and LI Qingbai.

Funding

The project was funded by the National Scientific Fund for Outstanding Youth of China [grant number 40525017].

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