Evaluating the role of re-adsorption of dissolved Hg2+ during cinnabar dissolution using isotope tracer technique

[Display omitted] •Develop a new method to study Hg re-adsorption in cinnabar.•Both isotope dilution and tracer techniques were adopted.•The presence of O2 can significantly enhance the dissolution of cinnabar.•Prove the necessity of including re-adsorption in estimating cinnabar dissolution. Cinnab...

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Published inJournal of hazardous materials Vol. 317; no. C; pp. 466 - 475
Main Authors Jiang, Ping, Li, Yanbin, Liu, Guangliang, Yang, Guidi, Lagos, Leonel, Yin, Yongguang, Gu, Baohua, Jiang, Guibin, Cai, Yong
Format Journal Article
LanguageEnglish
Published United States Elsevier B.V 05.11.2016
Elsevier
Subjects
07 ISOTOPE AND RADIATION SOURCES
Cinnabar dissolution
Hg re-adsorption on cinnabar surface
Isotope dilution
isotope labeling
Isotope tracer technique
isotopes
mercury
oxygen
Redox condition
Isotope dilution
Cinnabar dissolution
Redox condition
Hg re-adsorption on cinnabar surface
Isotope tracer technique
Online AccessGet full text
ISSN0304-3894
1873-3336
1873-3336
DOI10.1016/j.jhazmat.2016.05.084

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Abstract [Display omitted] •Develop a new method to study Hg re-adsorption in cinnabar.•Both isotope dilution and tracer techniques were adopted.•The presence of O2 can significantly enhance the dissolution of cinnabar.•Prove the necessity of including re-adsorption in estimating cinnabar dissolution. Cinnabar dissolution is an important factor controlling mercury (Hg) cycling. Recent studies have suggested the co-occurrence of re-adsorption of the released Hg during the course of cinnabar dissolution. However, there is a lack of feasible techniques that can quantitatively assess the amount of Hg re-adsorbed on cinnabar when investigating cinnabar dissolution. In this study, a new method, based on isotope tracing and dilution techniques, was developed to study the role of Hg re-adsorption in cinnabar dissolution. The developed method includes two key components: (1) accurate measurement of both released and spiked Hg in aqueous phase and (2) estimation of re-adsorbed Hg on cinnabar surface via the reduction in spiked 202Hg2+. By adopting the developed method, it was found that the released Hg for trials purged with oxygen could reach several hundred μgL−1, while no significant cinnabar dissolution was detected under anaerobic condition. Cinnabar dissolution rate when considering Hg re-adsorption was approximately 2 times the value calculated solely with the Hg detected in the aqueous phase. These results suggest that ignoring the Hg re-adsorption process can significantly underestimate the importance of cinnabar dissolution, highlighting the necessity of applying the developed method in future cinnabar dissolution studies.
AbstractList Cinnabar dissolution is an important factor controlling mercury (Hg) cycling. Recent studies have suggested the co-occurrence of re-adsorption of the released Hg during the course of cinnabar dissolution. However, there is a lack of feasible techniques that can quantitatively assess the amount of Hg re-adsorbed on cinnabar when investigating cinnabar dissolution. In this study, a new method, based on isotope tracing and dilution techniques, was developed to study the role of Hg re-adsorption in cinnabar dissolution. The developed method includes two key components: (1) accurate measurement of both released and spiked Hg in aqueous phase and (2) estimation of re-adsorbed Hg on cinnabar surface via the reduction in spiked 202Hg2+. By adopting the developed method, it was found that the released Hg for trials purged with oxygen could reach several hundred g L–1, while no significant cinnabar dissolution was detected under anaerobic condition. Cinnabar dissolution rate when considering Hg re-adsorption was approximately 2 times the value calculated solely with the Hg detected in the aqueous phase. Lastly, these results suggest that ignoring the Hg re-adsorption process can significantly underestimate the importance of cinnabar dissolution, highlighting the necessity of applying the developed method in future cinnabar dissolution studies.
[Display omitted] •Develop a new method to study Hg re-adsorption in cinnabar.•Both isotope dilution and tracer techniques were adopted.•The presence of O2 can significantly enhance the dissolution of cinnabar.•Prove the necessity of including re-adsorption in estimating cinnabar dissolution. Cinnabar dissolution is an important factor controlling mercury (Hg) cycling. Recent studies have suggested the co-occurrence of re-adsorption of the released Hg during the course of cinnabar dissolution. However, there is a lack of feasible techniques that can quantitatively assess the amount of Hg re-adsorbed on cinnabar when investigating cinnabar dissolution. In this study, a new method, based on isotope tracing and dilution techniques, was developed to study the role of Hg re-adsorption in cinnabar dissolution. The developed method includes two key components: (1) accurate measurement of both released and spiked Hg in aqueous phase and (2) estimation of re-adsorbed Hg on cinnabar surface via the reduction in spiked 202Hg2+. By adopting the developed method, it was found that the released Hg for trials purged with oxygen could reach several hundred μgL−1, while no significant cinnabar dissolution was detected under anaerobic condition. Cinnabar dissolution rate when considering Hg re-adsorption was approximately 2 times the value calculated solely with the Hg detected in the aqueous phase. These results suggest that ignoring the Hg re-adsorption process can significantly underestimate the importance of cinnabar dissolution, highlighting the necessity of applying the developed method in future cinnabar dissolution studies.
Cinnabar dissolution is an important factor controlling mercury (Hg) cycling. Recent studies have suggested the co-occurrence of re-adsorption of the released Hg during the course of cinnabar dissolution. However, there is a lack of feasible techniques that can quantitatively assess the amount of Hg re-adsorbed on cinnabar when investigating cinnabar dissolution. In this study, a new method, based on isotope tracing and dilution techniques, was developed to study the role of Hg re-adsorption in cinnabar dissolution. The developed method includes two key components: (1) accurate measurement of both released and spiked Hg in aqueous phase and (2) estimation of re-adsorbed Hg on cinnabar surface via the reduction in spiked 202Hg2+. By adopting the developed method, it was found that the released Hg for trials purged with oxygen could reach several hundred μgL−1, while no significant cinnabar dissolution was detected under anaerobic condition. Cinnabar dissolution rate when considering Hg re-adsorption was approximately 2 times the value calculated solely with the Hg detected in the aqueous phase. These results suggest that ignoring the Hg re-adsorption process can significantly underestimate the importance of cinnabar dissolution, highlighting the necessity of applying the developed method in future cinnabar dissolution studies.
Author Li, Yanbin
Yin, Yongguang
Cai, Yong
Lagos, Leonel
Yang, Guidi
Jiang, Ping
Liu, Guangliang
Jiang, Guibin
Gu, Baohua
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Keywords Isotope dilution
Cinnabar dissolution
Redox condition
Hg re-adsorption on cinnabar surface
Isotope tracer technique
Language English
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Snippet [Display omitted] •Develop a new method to study Hg re-adsorption in cinnabar.•Both isotope dilution and tracer techniques were adopted.•The presence of O2 can...
Cinnabar dissolution is an important factor controlling mercury (Hg) cycling. Recent studies have suggested the co-occurrence of re-adsorption of the released...
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SubjectTerms 07 ISOTOPE AND RADIATION SOURCES
Cinnabar dissolution
Hg re-adsorption on cinnabar surface
Isotope dilution
isotope labeling
Isotope tracer technique
isotopes
mercury
oxygen
Redox condition
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Title Evaluating the role of re-adsorption of dissolved Hg2+ during cinnabar dissolution using isotope tracer technique
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