Aerosols, tiny atmospheric particles made up of various elements and produced by a range of sources, have become a prominent concern due to their ability to influence atmospheric and hydrological phenomena and their important impact on localized regions.
Several of the world's leading atmospheric and climate scientists will present recent research on aerosols from a selection of scientific angles on Feb. 14 at 2:30 p.m. at the annual meeting of the American Association for the Advancement of Science (AAAS) in Seattle.
"It has become clear that local effects on the heat budget from aerosols can be substantially larger than those from greenhouse gases. I believe we are at a very early stage of understanding the effect of aerosols," said Richard Somerville, a professor of meteorology at Scripps Institution of Oceanography at the University of California, San Diego, and the organizer of the AAAS aerosols symposium, titled "Our Hazy Atmosphere: Aerosols and Climate."
"Aerosols come from all kinds of sources: dust blown off the Sahara by wind, particles emitted from smokestacks, gas from volcanoes. There are many, many complicated interactions with aerosols that we are just beginning to learn about."
Because of their varied compositions, aerosols exert a complicated range of effects. Carbon dioxide primarily absorbs infrared energy emitted by the Earth, thus contributing to the greenhouse effect and warming the Earth's surface and the atmosphere. Aerosols, on the other hand, can either absorb sunlight, and thus produce a warming effect, or they can reflect or scatter sunlight and produce cooling effects. They can change the heat balance of the surface of the ocean, altering water evaporation processes and leading to a cascade of complex effects and indirect consequences, all of which scientists are now studying.
Somerville says the lifespan of aerosols is typically weeks rather than decades. That characteristic leads to significant impacts in specific regions, in contrast to the long life of some greenhouse gases and their resulting long-term global influences. In addition to climate and atmospheric science, aerosols and their effects are garnering the attention of those concerned with issues of regional pollution, transborder environmental policies, and human health concerns.
"Our Hazy Atmosphere: Aerosols and Climate" offers a sampling of the latest research on aerosols, including atmospheric brown clouds, new aircraft technologies for capturing aerosol particles, global climate impacts and the effects of black carbon on regional climate change.
AAAS session details:
Richard Somerville, Scripps Institution of Oceanography, University of California, San Diego
Robert Charlson, University of Washington: "Why Should Tiny Haze Particles Matter to Global Climate?"
Joyce E. Penner, University of Michigan: "The Dark Side of the Forcing: Black Carbon"
Kimberly A. Prather, University of California, San Diego: "Measuring Particles One by One: What Can We Learn?"
Sonia Kreidenweis, Colorado State University: "Where There's Smoke, There Might Not Be Fire"
Mark Z. Jacobson, Stanford University: "Black Carbon Effects on Global Warming and Regional Climate Change"
Lynn Russell, Scripps Institution of Oceanography, University of California, San Diego: "Organic Aerosol: Complex Chemistry with Climate Implications"
Ulrike Lohmann, Dalhousie University: "Atmospheric Aerosols and Climate: The Cloud Connection"
V. Ramanathan, Scripps Institution of Oceanography, University of California, San Diego: "Atmospheric Brown Clouds: A Global Drying Effect?"
TRACK: The Science of Earth and Sky
TITLE: Our Hazy Atmosphere: Aerosols and Climate
DATE: Saturday, February 14
TIME: 2:30-5:30 p.m.