- Title
- Geochemical fractionation and mineralogy of metal(loid)s in abandoned mine soils: insights into arsenic behaviour and implications to remediation
- Creator
- Fazle Bari, A. S. M.; Lamb, Dane; Choppala, Girish; Bolan, Nanthi; Seshadri, Balaji; Rahman, Md. Aminur; Rahman, Mohammad Mahmudur
- Relation
- Journal of Hazardous Materials Vol. 399, Issue 15 November 2020, no. 123029
- Publisher Link
- http://dx.doi.org/10.1016/j.jhazmat.2020.123029
- Publisher
- Elsevier
- Resource Type
- journal article
- Date
- 2020
- Description
- Trace element contamination from abandoned mine sites is a major threat to the environment. The distribution of trace elements in various particle size fractions of soils from abandoned mine sites plays a critical role in designing remediation approaches. This study investigated the geochemical distribution of trace element enrichment and mineralogical composition in various particle size fractions from contrasting abandoned mine sites (Webbs Consols, Halls Peak and Mole River, Australia). Results revealed that arsenic and other element concentrations increased with decreasing particle size for samples from Webbs Consols and Halls Peak. The highest arsenic (3.05%), lead (3.23%) and zinc (1110 mg/kg) were found in the finest fraction (<0.053 mm). In Mole River, the highest concentration of arsenic (10.8%), lead (209 mg/kg) and zinc (351 mg/kg) were observed in coarse fractions. Arsenic fractionation by sequential extraction showed that arsenic was strongly associated with the amorphous and crystalline iron phases. X-ray diffraction (XRD) and scanning electron microscopy (SEM) studies revealed that tooeleite (a ferric arsenite mineral, also confirmed by Transmission electron microscopy (TEM)), arsenopyrite, scorodite and arsenolite were the dominant arsenic minerals. The study showed elevated levels of arsenic bearing minerals across particle sizes which has significant implications for remediation approaches at abandoned mine sites.
- Subject
- trace elements; particle fraction size; arsenic; sequential extraction; mineralogy
- Identifier
- http://hdl.handle.net/1959.13/1436348
- Identifier
- uon:39995
- Identifier
- ISSN:0304-3894
- Language
- eng
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