Faculty of Sciences and Technology, University of the Azores
Apartado 1422, 9501-801 Ponta Delgada
São Miguel, Azores, Portugal
BACK TO MAIN TEAM
Ecology of Environmental Change - eChanges
Island Environmental Risks & Society - IERS
Filipe Miguel Teixeira de Sousa Bernardo
Filipe Bernardo is carrying out a PhD in Biology by the University of the Azores, starting in 2016, within the Island Environmental Risks & Society group of cE3c.
He is conducting the project "Development of a toolbox to biomonitor air quality: towards the sustainability of the Azorean green environment", under the supervision of Patrícia Garcia (cE3c), Cristina Branquinho (cE3c) and Armindo Rodrigues (IVARG).
Filipe Bernardo's PhD project aims are:
Development of a toolbox of sensitive biomarkers in selected macrolichen bioindicator species for biomonitoring air quality in environments subjected to a variety of anthropogenic and geogenic emissions.
- Detailed mapping of the pattern of distribution and functional diversity of lichens in São Miguel island.
- Determination of the influence of local anthropogenic and geogenic emission sources on the distribution and diversity of lichens.
- Development of sensitive biomarkers of exposure and effect in selected macrolichens on environments subjected to significant anthropogenic and/or geogenic emission sources.
- Test the association between the response of these biomarkers and the occurrence of genotoxic and cytotoxic effects in humans frequently/occupationally exposed to the same environments and types of air pollution.
- Assess, in an integrated approach, the impact of emissions taking place in São Miguel island on human and environmental health.
- Fine-tune a set of cost-efficient tools and methodologies for implementation in air quality biomonitoring programs, oriented for the preservation of air quality excellence in the Azores islands, providing valuable data for:
- predicting ensuing environmental health risks of a given antropogenic/geogenic emission source.
- tracking variations in air quality over time, associated with the degree of intensification of antropogenic and geogenic emissions.