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Air Pollution, Clean Energy and Climate Change. Anilla CherianЧитать онлайн книгу.

Air Pollution, Clean Energy and Climate Change - Anilla Cherian


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or regional partnerships or protocols on climate, energy and air pollution reveal in terms of integrated and responsive action that can transform lives for millions across the globe? The COVID pandemic has exposed the tragic costs borne by those who are consigned to live at the nexus of public health neglect and existing chronic respiratory illnesses worsened by exposure to PM pollution that emanates from fossil fuel combustion and industrial pollution. According to a 2020 study conducted by researchers at Harvard University’s T.H. Chan School of Public Health, ‘Air pollution and COVID‐19 mortality in the United States: Strengths and limitations of an ecological regression analysis’, individuals with long‐term exposure to air pollution are more likely to die of COVID‐19. This first of its kind study examined the link between long‐term exposure to PM2.5 – generated largely from fuel combustion from cars, refineries and power plants – and the risk of death from COVID‐19 in the US. It looked at 3000 counties across the US compared levels of fine particulate air pollution with coronavirus death counts for each area. After adjusting for population size, hospital beds, number of people tested for COVID‐19, weather and socio‐economic and behavioural variables such as obesity and smoking, the researchers found that a small increase in long‐term exposure to PM2.5 leads to a large increase in the COVID‐19 death rate. More specifically, the study found that someone who lives for decades in a US county with high levels of fine particulate pollution is 8% more likely to die from COVID‐19 than someone who lives in a region that has just one unit (1 μg/m3) less of such pollution (Wu et al. 2020). This happens to be a terrifying finding for millions who have lived with chronic exposure to PM2.5 in the most polluted cities in the world. Additionally, what is troubling about COVID‐19 morbidity burdens on poorer, black and brown lives is what Gibbons outlined, which is that detailed studies of ‘past epidemics show the same tragic pattern repeating again and again’, infectious diseases more easily take hold in groups with pre‐existing illnesses, who live and work in crowded conditions and who also lack access to adequate health care.

      The main argument advanced is that addressing the nexus between curbing SLCPs and increasing access to clean energy for the poor does, in fact, require integrated and innovative partnerships that look beyond nation‐state‐driven intergovernmental outcomes and existing policy silos on clean energy, pollution and poverty reduction and climate action. While it is undeniable that national governments – sovereign UN member states – have typically set the rules and frameworks for climate and clean energy, it is also clear that innovative action has not waited for the fractured pace of intergovernmental negotiations. The annual pilgrimages of climate cognoscenti have not resulted in verifiable improvements in the lives of those who lack access to clean energy and are exposed to toxic levels of PM air pollution. Here, it is also useful to ask why the UN’s one and only successfully implemented regional air pollution protocol – the Convention on Long‐range Transboundary Air Pollution (CLRTAP) – focuses only on Europe?

      Regulatory efforts to curb air pollution have been and remain highly effective within the context of advanced industrialized countries, particularly in Europe. But there is a glaring absence of regional regulatory agreements aimed at reducing emissions of air pollutants within developing countries where the problem of energy related air pollution and lack of access to clean energy happens to be most pervasive. According to UNEP/WMO (2011), BC, which exists as particles in the atmosphere and is a major component of soot, has been demonstrated to be an SLCP. Both BC and O3 are air pollutants harmful to human health, ecosystems and agriculture/food security. BC emissions result from the incomplete combustion of fossil fuels, wood and other biomass, and its negative impacts are felt by poor households that lack access to clean energy while O3 is the third most important GHG contributor after carbon dioxide and methane. The UN’s 1979 CLRTAP, which includes the Gothenburg Protocol (established in 1999), sets legally binding emission reductions commitments for 2020 and beyond for all major air pollutants shown to damage human health including sulphur dioxide (SO2), nitrogen oxides (NOx), ammonia (NH3), volatile organic compounds (VOCs) and fine particulate matter (PM2.5). Administered by the UN’s European Commission on Europe (UNECE), the 7 October 2019 entry into force of the amended


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