Urban pollution greatly enhances formation of natural aerosols over the Amazon rainforest
Copyright policy )Urban pollution greatly enhances formation of natural aerosols over the Amazon rainforest
AbstractOne of the least understood aspects in atmospheric chemistry is how urban emissions influence the formation of natural organic aerosols, which affect Earth’s energy budget. The Amazon rainforest, during its wet season, is one of the few remaining places on Earth where atmospheric chemistry transitions between preindustrial and urban-influenced conditions. Here, we integrate insights from several laboratory measurements and simulate the formation of secondary organic aerosols (SOA) in the Amazon using a high-resolution chemical transport model. Simulations show that emissions of nitrogen-oxides from Manaus, a city of ~2 million people, greatly enhance production of biogenic SOA by 60–200% on average with peak enhancements of 400%, through the increased oxidation of gas-phase organic carbon emitted by the forests. Simulated enhancements agree with aircraft measurements, and are much larger than those reported over other locations. The implication is that increasing anthropogenic emissions in the future might substantially enhance biogenic SOA in pristine locations like the Amazon.
- Universidade de São Paulo Brazil
- Harvard University United States
- University of California, Irvine United States
- King’s University United States
- Lille Center for European Research on Administration, Politics and Society France
Atmospheric chemistry, Isoprene, Aircraft, 550, Manaus, EPOXIDE FORMATION, REACTIVE UPTAKE, Environmental impact, Organic Carbon, Energy Balance, CHEMISTRY, PARTICULATE MATTER, EMISSIONS, Carbon Footprint, Secondary Organic Aerosol, Q, NOX, ISOPRENE EPOXYDIOLS, Biogeochemistry, Pollution, LOW-VOLATILITY SOA, Gas, [SDE]Environmental Sciences, Environmental chemistry, Nitrogen Oxides, Simulation, Rainforest, Science, Amazonas, Peroxy Radical, Article, Nitrogen Oxide, Atmospheric Sciences, Ozone, Pristine Environment, SECONDARY ORGANIC AEROSOL, Oxidation, Aerosol, Urban Pollution, Hydroxyl Radical, Brasil, ANTHROPOGENIC INFLUENCE, Anthropogenic Source, Climate Action, Atmospheric Chemistry, Earth Sciences, Biogenic Emission, Urban Area, Airborne Survey
Atmospheric chemistry, Isoprene, Aircraft, 550, Manaus, EPOXIDE FORMATION, REACTIVE UPTAKE, Environmental impact, Organic Carbon, Energy Balance, CHEMISTRY, PARTICULATE MATTER, EMISSIONS, Carbon Footprint, Secondary Organic Aerosol, Q, NOX, ISOPRENE EPOXYDIOLS, Biogeochemistry, Pollution, LOW-VOLATILITY SOA, Gas, [SDE]Environmental Sciences, Environmental chemistry, Nitrogen Oxides, Simulation, Rainforest, Science, Amazonas, Peroxy Radical, Article, Nitrogen Oxide, Atmospheric Sciences, Ozone, Pristine Environment, SECONDARY ORGANIC AEROSOL, Oxidation, Aerosol, Urban Pollution, Hydroxyl Radical, Brasil, ANTHROPOGENIC INFLUENCE, Anthropogenic Source, Climate Action, Atmospheric Chemistry, Earth Sciences, Biogenic Emission, Urban Area, Airborne Survey
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