Assessment of elements mobility in anthropogenic layer of historical wastes related to glass production in Izera Mountains (SW Poland)

• Published in: The Science of the total environment Vol. 735; p. 139526
• Main Authors: Magiera, Tadeusz, Kyzioł-Komosińska, Joanna, Dzieniszewska, Agnieszka, Wawer, Małgorzata, Żogała, Bogdan
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 15.09.2020
• Subjects: Environmental risk; Glasswork wastes; Magnetic susceptibility; Potentially toxic elements; Sequential extraction BCR; Sequential extraction BCR; Environmental risk; Glasswork wastes; Potentially toxic elements; Magnetic susceptibility
• ISSN: 0048-9697; 1879-1026
• DOI: 10.1016/j.scitotenv.2020.139526

A geophysical survey conducted in the remote forest glade, located in the Izery Mountains (SW Poland), revealed the existence of an anthropogenic layer of historical glass wastes dumped in this area during the activity of a glass factory in the 18th and 19th centuries and domestic wastes dumped during the second part of the 20th century. The aim of the study was assessment of potential ecological risk related to the release of potentially toxic elements to the soil, groundwater and surface waters. The assessment was done on the base of classical geochemical analysis supported by calculation of environmental indices as well as on mobility of elements (leaching test and BCR sequential extraction). As an innovative aspect in the geostatistical interpretation of the data, some magnetic parameters (magnetic susceptibility-χ, χ/Fe ratio) were also used. It allowed for a better understanding of the relationship of PTEs with various forms of iron. The BCR sequential extraction found that among the PTEs, only Zn (up to 43%) was in a potentially mobile fraction probably occurring in ionic form, associated with iron oxides only by surface adsorption forces. The leaching has shown a slight increase in Zn and Cu content in the surface waters; however, it was not considered to be a real ecological threat because the pH of the waste material and soil cover is >6.0 and the scenario of a radical decrease in pH is rather unrealistic. The other PTEs were associated with more stable E2, E3 and E4 fractions. Zinc, similar to Ni, Co and Cu in waste samples, was highly correlated with magnetic parameters (χ and χ/Fe). It means that a considerable part of these metals was associated with ferrimagnetic iron oxides, although they can also occur in the form of inclusions in aluminosilicates and enclosed in glassy phases. [Display omitted] •In historical glass wastes Pb and Mn did not correlated with other PTEs and magnetic parameters.•Magnetic parameters are helpful in understanding of the relationship of PTEs with various forms of iron.•Up to 43% of Zn occurred in ionic form, associated with iron oxides only by surface adsorption forces.•Considerable part of Ni, Co and Cu was associated with ferrimagnetic iron oxides in less mobile fractions.•Some part of Zn, Ni, Co and Cu occurred also in the form of inclusions in aluminosilicates or was enclosed in glassy phases.