Journal
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
Volume 28, Issue 27, Pages 35709-35716Publisher
SPRINGER HEIDELBERG
DOI: 10.1007/s11356-021-13043-0
Keywords
Air pollution; Mus musculus; Noneruptive volcanism; Oxidative stress; TUNEL assay
Categories
Funding
- Fundo Regional da Ciencia (Regional Government of the Azores) [M3.1.a/F/048/2015]
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Recent studies have shown that exposure to hydrothermal emissions may have a negative impact on the respiratory system. The study, conducted in a non-eruptive volcanically active environment, found that mice exposed to hydrothermal emissions exhibited increased oxidative stress and apoptotic cells in their lungs. This study highlights the potential respiratory health risks associated with chronic exposure to hydrothermal emissions, emphasizing the importance of monitoring residents in volcanic areas.
Recent studies have shown that exposure to hydrothermal emissions has a negative impact on the respiratory system. Still, volcanogenic air pollution studies are still outnumbered when compared to anthropogenic studies which can result in an unknown risk to the human populations living near volcanically active areas. This study was carried out in Sao Miguel Island, with noneruptive volcanically active environments, such as the Furnas volcano caldera. Its noneruptive volcanism presents itself as hydrothermal emissions, mainly by the release of nearly 1000 T d(-1) of CO2 along with H2S, and the radioactive gas radon; metals [e.g., mercury (Hg), cadmium (Cd), copper (Cu), and zinc (Zn)] and particulate matter are also released in a daily basis. We test the hypothesis whether chronic exposure to hydrothermal emissions causes pulmonary oxidative stress, using Mus musculus as a surrogate species. Mus musculus was live-captured in two villages with hydrothermal emissions and one village without any type of volcanic activity. The level of pulmonary oxidative stress was immunohistochemically assessed by using an OxyIH(TM) Oxidative stress detection kit, and the detection of terminal deoxynucleotidyl transferase (TdT)-mediated dUTP nick end-labeling (TUNEL) was used to evaluate apoptosis in lung tissues. Mice chronically exposed to hydrothermal emissions presented increased levels of oxidative stress and amount of apoptotic cells. We demonstrate, for the first time, the high oxidative stress potential in the lungs of mice chronically exposed to hydrothermal emissions. This study highlights the usefulness of M. musculus as a bioindicator species and enforces the necessity of regularly biomonitor the inhabitants of hydrothermal areas to prevent respiratory pathologies.
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