An integrated general approach to assess the potential risk of outcrops contaminated by asbestos and asbestos-like minerals
- 1“G. Scansetti” Interdepartmental Centre for Studies on Asbestos and Other Toxic Particulates, University of Torino, Torino, Italy
- 2Department of Earth Sciences, University of Torino, Torino, Italy
- 3Institute of Geosciences and Earth Resources, National Research Council (CNR) of Italy, Torino, Italy
- 4Department of Earth Sciences and Rectoral Laboratory Fibres and Inorganic Particulate, Sapienza University of Rome, Rome, Italy
- 5Université Catholoque de Louvain, IREC, LTAP, Bruxelles, Belgium
- 6Department of Chemistry, University of Torino, Torino, Italy
- 7National Institute for Insurance against Accidents at Work (INAIL), Department of Medicine, Epidemiology, Occupational and Environmental Hygiene, Rome, Italy
The natural occurrence of asbestos and asbestos-like minerals (NOA) poses a risk to the environment and human health, notably when natural processes and anthropic activities promote fibre dispersion. Hundreds of potentially hazardous elongate mineral particles (EMPs, NIOSH 2011 definition) exist, and their toxicological profile is often unknown. We aim here to define a general approach, from field analysis to nano-structural investigation, to assess whether a fibrous mineral occurring in a specific site could pose a risk to human health. To evaluate the hazard associated with NOA, a multi-scale and multi-analytical integrated approach was adopted. Specifically, the geological factors that control the occurrence and distribution of NOA on site, and the mechanisms of formation and liberation of airborne fibres were investigated. In parallel, we explored the key bulk and surface properties of several natural mineral fibres and defined crystallographic, chemical, and morphological aspects that should be considered during hazard assessment. Also, the effect of standardized mechanical stress was used to quantitatively evaluate the potency of NOA-bearing exposed rock to generate inhalable fibres. This property was connected with the mineral characteristic, the rock fabric, and the rock erosion rate. Isolated fibre specimens were used to assess solubility in simulated body fluids, surface reactivity, and toxicological endpoints in vitro and in vivo. Taken together, these findings allowed us to build a multidimensional description of the hazard parameters of mineral fibre and paved the way for a science-based risk assessment in an unexplored NOA site.
How to cite: Petriglieri, J. R., Pacella, A., Barale, L., Leinardi, R., Tomatis, M., Ballirano, P., Piana, F., Huaux, F., Campopiano, A., and Turci, F.: An integrated general approach to assess the potential risk of outcrops contaminated by asbestos and asbestos-like minerals, EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-9589, https://doi.org/10.5194/egusphere-egu23-9589, 2023.