Person:
Tobollik, Myriam

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1988
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Tobollik
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Myriam
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2015 - 20162
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Enddatum: 2019 × Thema: Luftverunreinigung ×

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  • Vorschaubild nicht verfügbar
    Veröffentlichung
    Transport-related measures to mitigate climate change in Basel, Switzerland: A health-effectiveness comparison study
    (2015) Perez, L.; Trüeb, S.; Cowie, H.; Keuken, M.P.; Mudu, P.; Ragettli, M.S.; Sarigiannis, D.A.; Tuomisto, J.; Tobollik, Myriam; Vienneau, D.; Sabel, C.F.; Kuenzli, N.
    Background
    Local strategies to reduce green-house gases (GHG) imply changes of non-climatic exposure patterns.

    Objective
    To assess the health impacts of locally relevant transport-related climate change policies in Basel, Switzerland.

    Methods
    We modelled change in mortality and morbidity for the year 2020 based on several locally relevant transport scenarios including all decided transport policies up to 2020, additional realistic and hypothesized traffic reductions, as well as ambitious diffusion levels of electric cars. The scenarios were compared to the reference condition in 2010 assumed as status quo. The changes in non-climatic population exposure included ambient air pollution, physical activity, and noise. As secondary outcome, changes in Disability-Adjusted Life Years (DALYs) were put into perspective with predicted changes of CO2 emissions and fuel consumption.

    Results
    Under the scenario that assumed a strict particle emissions standard in diesel cars and all planned transport measures, 3% of premature deaths could be prevented from projected PM2.5 exposure reduction. A traffic reduction scenario assuming more active trips provided only minor added health benefits for any of the changes in exposure considered. A hypothetical strong support to electric vehicles diffusion would have the largest health effectiveness given that the energy production in Basel comes from renewable sources.

    Conclusion
    The planned local transport related GHG emission reduction policies in Basel are sensible for mitigating climate change and improving public health. In this context, the most effective policy remains increasing zero-emission vehicles.
    Quelle: http://www.sciencedirect.com
  • Vorschaubild nicht verfügbar
    Veröffentlichung
    Public health impacts of city policies to reduce climate change: findings from the URGENCHE EU-China project
    (2016) Sabel, Clive E.; Hiscock, Rosemary; Asikainen, Arja; Tobollik, Myriam
    Background: Climate change is a global threat to health and wellbeing. Here we provide findings of an international research project investigating the health and wellbeing impacts of policies to reduce greenhouse gas emissions in urban environments. Methods: Five European and two Chinese city authorities and partner academic organisations formed the project consortium. The methodology involved modelling the impact of adopted urban climate-change mitigation transport, buildings and energy policy scenarios, usually for the year 2020 and comparing them with business as usual (BAU) scenarios (where policies had not been adopted). Carbon dioxide emissions, health impacting exposures (air pollution, noise and physical activity), health (cardiovascular, respiratory, cancer and leukaemia) and wellbeing (including noise related wellbeing, overall wellbeing, economic wellbeing and inequalities) were modelled. The scenarios were developed from corresponding known levels in 2010 and pre-existing exposure response functions. Additionally there were literature reviews, three longitudinal observational studies and two cross sectional surveys. Results: There are four key findings. Firstly introduction of electric cars may confer some small health benefits but it would be unwise for a city to invest in electric vehicles unless their power generation fuel mix generates fewer emissions than petrol and diesel. Second, adopting policies to reduce private car use may have benefits for carbon dioxide reduction and positive health impacts through reduced noise and increased physical activity. Third, the benefits of carbon dioxide reduction from increasing housing efficiency are likely to be minor and co-benefits for health and wellbeing are dependent on good air exchange. Fourthly, although heating dwellings by in-home biomass burning may reduce carbon dioxide emissions, consequences for health and wellbeing were negative with the technology in use in the cities studied. Conclusions: The climate-change reduction policies reduced CO2 emissions (the most common greenhouse gas) from cities but impact on global emissions of CO2 would be more limited due to some displacement of emissions. The health and wellbeing impacts varied and were often limited reflecting existing relatively high quality of life and environmental standards in most of the participating cities; the greatest potential for future health benefit occurs in less developed or developing countries. Quelle: www.ehjournal.biomedcentral.com