Reprint

Potentially Toxic Elements Pollution in Urban and Suburban Environments

Edited by
January 2023
220 pages
  • ISBN978-3-0365-6237-7 (Hardback)
  • ISBN978-3-0365-6238-4 (PDF)

This is a Reprint of the Special Issue Potentially Toxic Elements Pollution in Urban and Suburban Environments that was published in

Biology & Life Sciences
Chemistry & Materials Science
Environmental & Earth Sciences
Public Health & Healthcare
Summary

The importance of studying pollution via potentially toxic elements (PTEs) is becoming a key challenge considering the increasing concern about the presence of PTEs in the environment and their potential impacts on ecosystem functioning and public health due to their persistence and biotoxicity.

Regional geochemical research, together with geostatistical computations which are used to identify source patterns of different pollutants related to the underlying geological features and/or anthropogenic activities, is the best approach for characterizing this pollution issue.

The collection of research in this Special Issue, “Potentially Toxic Element Pollution in Urban and Suburban Environments”, represents the need of the scientific community to characterize the behavior, transport, fate, and ecotoxicological state of PTEs in environmental matrices in both urban and suburban settings. All the case studies collected are of relevant significance due to their quality, both in the methodologies and the achieved results, and interest to different environmental studies, from China to South Africa to Europe.

My role as Guest Editor of this Special Issue was exciting and stimulating. I would like to express my appreciation to all the authors for submitting their original contributions and to the reviewers for their essential role in the process. I would like to thank the editors of Toxics and, in particular, Selena Li for her precious and tireless support.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
potentially harmful elements (PHEs); railway area; transport pollutions; spring waters; hydrogeochemical characterization; statistical analysis; correlation; nitrate vulnerability; soil contamination; heavy metals; sequential extraction; health risk assessment; accumulation; atmospheric deposition; emission; ecological risk; spatial heterogeneity; informal settlement; trace elements; road dust; health implications; carcinogenic; non-carcinogenic; potentially toxic elements; aquifer; volcanic tuff; sequential extraction; Fe oxyhydroxides; sorption; soil; potentially harmful elements; contamination; multidimensional spatial analysis; Calabria; flat membrane; N,N′-di(1-methyl-pentyl)acetamide; molybdenum; membrane chemical reactor; renewal solution; heavy metals; atmosphere; PMF; potentially toxic elements; indoor dust; pollution; exposure; risk assessment; urban; Cairo; Jiayuguan; road dust; potentially toxic elements; pollution characteristics; source apportionment; health risk assessment; potentially toxic elements; source identification; risk assessment; Samoa; n/a