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Warming-induced increase in aerosol number concentration likely to moderate climate change
by
Asmi, Ari
, Paasonen, Pauli
, Petäjä, Tuukka
, Kajos, Maija K
, Äijälä, Mikko
in
704/106
/ 704/106/35
/ Aerosols
/ Air pollution
/ Air quality
/ Anthropogenic factors
/ Atmosphere
/ Biosphere
/ Black carbon
/ Boundary layer
/ Boundary layers
/ Climate
/ Climate change
/ Climate effects
/ Climate system
/ Clouds
/ Condensation nuclei
/ Earth and Related Environmental Sciences
/ Earth Sciences
/ Earth System Sciences
/ Emissions
/ Fysik
/ Geochemistry
/ Geology
/ Geophysics/Geodesy
/ Geovetenskap och relaterad miljövetenskap
/ Greenhouse gases
/ letter
/ Natural Sciences
/ Naturgeografi
/ Naturvetenskap
/ Physical Geography
/ Physical Sciences
/ Precursors
/ Solar radiation
/ Subatomic Physics
/ Subatomär fysik
/ Vapour emission
2013
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Warming-induced increase in aerosol number concentration likely to moderate climate change
by
Asmi, Ari
, Paasonen, Pauli
, Petäjä, Tuukka
, Kajos, Maija K
, Äijälä, Mikko
in
704/106
/ 704/106/35
/ Aerosols
/ Air pollution
/ Air quality
/ Anthropogenic factors
/ Atmosphere
/ Biosphere
/ Black carbon
/ Boundary layer
/ Boundary layers
/ Climate
/ Climate change
/ Climate effects
/ Climate system
/ Clouds
/ Condensation nuclei
/ Earth and Related Environmental Sciences
/ Earth Sciences
/ Earth System Sciences
/ Emissions
/ Fysik
/ Geochemistry
/ Geology
/ Geophysics/Geodesy
/ Geovetenskap och relaterad miljövetenskap
/ Greenhouse gases
/ letter
/ Natural Sciences
/ Naturgeografi
/ Naturvetenskap
/ Physical Geography
/ Physical Sciences
/ Precursors
/ Solar radiation
/ Subatomic Physics
/ Subatomär fysik
/ Vapour emission
2013
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Warming-induced increase in aerosol number concentration likely to moderate climate change
by
Asmi, Ari
, Paasonen, Pauli
, Petäjä, Tuukka
, Kajos, Maija K
, Äijälä, Mikko
in
704/106
/ 704/106/35
/ Aerosols
/ Air pollution
/ Air quality
/ Anthropogenic factors
/ Atmosphere
/ Biosphere
/ Black carbon
/ Boundary layer
/ Boundary layers
/ Climate
/ Climate change
/ Climate effects
/ Climate system
/ Clouds
/ Condensation nuclei
/ Earth and Related Environmental Sciences
/ Earth Sciences
/ Earth System Sciences
/ Emissions
/ Fysik
/ Geochemistry
/ Geology
/ Geophysics/Geodesy
/ Geovetenskap och relaterad miljövetenskap
/ Greenhouse gases
/ letter
/ Natural Sciences
/ Naturgeografi
/ Naturvetenskap
/ Physical Geography
/ Physical Sciences
/ Precursors
/ Solar radiation
/ Subatomic Physics
/ Subatomär fysik
/ Vapour emission
2013
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Warming-induced increase in aerosol number concentration likely to moderate climate change
Journal Article
Warming-induced increase in aerosol number concentration likely to moderate climate change
2013
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Overview
Atmospheric aerosol particles influence the climate system directly by scattering and absorbing solar radiation, and indirectly by acting as cloud condensation nuclei1, 2, 3, 4. Apart from black carbon aerosol, aerosols cause a negative radiative forcing at the top of the atmosphere and substantially mitigate the warming caused by greenhouse gases1. In the future, tightening of controls on anthropogenic aerosol and precursor vapour emissions to achieve higher air quality may weaken this beneficial effect5, 6, 7. Natural aerosols, too, might affect future warming2, 3, 8, 9. Here we analyse long-term observations of concentrations and compositions of aerosol particles and their biogenic precursor vapours in continental mid- and high-latitude environments. We use measurements of particle number size distribution together with boundary layer heights derived from reanalysis data to show that the boundary layer burden of cloud condensation nuclei increases exponentially with temperature. Our results confirm a negative feedback mechanism between the continental biosphere, aerosols and climate: aerosol cooling effects are strengthened by rising biogenic organic vapour emissions in response to warming, which in turn enhance condensation on particles and their growth to the size of cloud condensation nuclei. This natural growth mechanism produces roughly 50% of particles at the size of cloud condensation nuclei across Europe. We conclude that biosphere–atmosphere interactions are crucial for aerosol climate effects and can significantly influence the effects of anthropogenic aerosol emission controls, both on climate and air quality.
Publisher
Nature Publishing Group,Nature Publishing Group UK
Subject
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