One of the lesser-known scientific complications that makes assessing human-caused climate change a hassle is that it isnt all about greenhouse gases. Emissions of aerosols—tiny atmospheric particles from a variety of sources that scatter sunlight back to space, for example—have acted to offset a portion of the human-caused warming. And unlike long-lived greenhouse gases, aerosols wash out of the atmosphere quite quickly and leave no historical record. That makes reconstructing aerosol levels going back before the Industrial Revolution a challenge.
To improve and cross-check estimates of past aerosol levels, researchers have gotten creative. A new study led by Isabel McCoy at the University of Washington uses the fact that the skies around Antarctica are close to free from human-caused aerosol pollution to set a new pre-industrial baseline.
Aerosols have a cooling influence through both direct (scattering sunlight) and indirect (modifying clouds) effects. In this case, the researchers are looking at the latter by using satellite cloud data. Specifically, they calculate the number of cloud droplets per cubic centimeter based on measurements of droplet size and cloud thickness. Because aerosols can act as condensation nuclei around which droplets form, they tend to lead to higher levels of smaller droplets.
While aerosol pollution from coal-burning and other combustion activities tends to be present throughout the Northern Hemisphere, Antarcticas atmospheric isolation keeps those aerosols at bay. Using the Antarctic as an indicator of pre-industrial aerosol levels, the researchers apply the satellite data to a number of climate models. First, they compare how well the models match modern cloud-droplet concentrations around the world, and then they calculate the impact of aerosol pollution over time.
There are a couple regions where the modern model simulations dont match the satellite data very well. The models generally overestimate droplet concentrations in the midlatitude Northern Hemisphere, and they underestimate summertime droplet concentrations in the Antarctic. While the models show only a modest increase in summer, the satellite data revealed that Antarctic droplet concentrations actually get as high as the polluted Northern Hemisphere—an eyebrow-raising result.
How could that be in this “pristine” environment, you ask? Its probably not a camouflaged coal power plant or any other human source of aerosols. Aerosols do occur naturally, and one prominent source is the phytoplankton and bacteria in the ocean. They produce dimethyl sulfide—one of the sources of seawaters distinct smell as well as a compound that leads to the formation of tiny sulfur-bearing aerosols.
Huge phytoplankton blooms occur around Antarctica when the sea ice shrinks in summer and life takes advantage of the nutrient-rich waters. And that produces a lot of aerosols for cloud droplets to form around.
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