• Volcanic ash may have a bigger impact on

    From ScienceDaily@1337:3/111 to All on Fri Sep 11 21:30:40 2020
    Volcanic ash may have a bigger impact on the climate than we thought


    Date:
    September 11, 2020
    Source:
    University of Colorado at Boulder
    Summary:
    Volcanic ash shuts down air traffic and can sicken people. But a
    new study suggests that it may also be more important for Earth's
    climate than scientists once thought.



    FULL STORY ==========================================================================
    When volcanoes erupt, these geologic monsters produce tremendous clouds
    of ash and dust -- plumes that can blacken the sky, shut down air traffic
    and reach heights of roughly 25 miles above Earth's surface.


    ==========================================================================
    A new study led by the University of Colorado Boulder suggests that such volcanic ash may also have a larger influence on the planet's climate
    than scientists previously suspected.

    The new research, published in the journal Nature Communications, examines
    the eruption of Mount Kelut (or Kelud) on the Indonesian island of Java
    in 2014.

    Drawing on real-world observations of this event and advanced computer simulations, the team discovered that volcanic ash seems to be prone
    to loitering -- remaining in the air for months or even longer after a
    major eruption.

    "What we found for this eruption is that the volcanic ash can persist
    for a long time," said Yunqian Zhu, lead author of the new study and a
    research scientist at the Laboratory for Atmospheric and Space Physics
    (LASP) at CU Boulder.

    Lingering ash The discovery began with a chance observation: Members of
    the research team had been flying an unmanned aircraft near the site
    of the Mount Kelut eruption - - an event that covered large portions
    of Java in ash and drove people from their homes. In the process, the
    aircraft spotted something that shouldn't have been there.



    ========================================================================== "They saw some large particles floating around in the atmosphere a month
    after the eruption," Zhu said. "It looked like ash." She explained that scientists have long known that volcanic eruptions can take a toll on
    the planet's climate. These events blast huge amounts of sulfur-rich
    particles high into Earth's atmosphere where they can block sunlight
    from reaching the ground.

    Researchers haven't thought, however, that ash could play much of a
    role in that cooling effect. These chunks of rocky debris, scientists
    reasoned, are so heavy that most of them likely fall out of volcanic
    clouds not long after an eruption.

    Zhu's team wanted to find out why that wasn't the case with Kelut. Drawing
    on aircraft and satellite observations of the unfolding disaster, the
    group discovered that the volcano's plume seemed to be rife with small and lightweight particles of ash -- tiny particles that were likely capable of floating in the air for long periods of time, much like dandelion fluff.

    "Researchers have assumed that ash is similar to volcanic glass,"
    Zhu said.

    "But what we've found is that these floating ones have a density that's
    more like pumice." Disappearing molecules


    ========================================================================== Study coauthor Brian Toon added that these pumice-like particles also
    seem to shift the chemistry of the entire volcanic plume.

    Toon, a professor in LASP and the Department of Atmospheric and Oceanic Sciences at CU Boulder, explained that erupting volcanos spew out a
    large amount of sulfur dioxide. Many researchers previously assumed
    that those molecules interact with others in the air and convert into
    sulfuric acid -- a series of chemical reactions that, theoretically,
    could take weeks to complete.

    Observations of real-life eruptions, however, suggest that it happens
    a lot faster than that.

    "There has been a puzzle of why these reactions occur so fast," Toon said.

    He and his colleagues think they've discovered the answer: Those molecules
    of sulfur dioxide seem to stick to the particles of ash floating in the
    air. In the process, they may undergo chemical reactions on the surface
    of the ash itself -- potentially pulling around 43% more sulfur dioxide
    out of the air.

    Ash, in other words, may hasten the transformation of volcanic gases in
    the atmosphere.

    Just what the impact of those clouds of ash are on the climate isn't
    clear.

    Long-lasting particles in the atmosphere could, potentially, darken and
    even help to cool the planet after an eruption. Floating ash might also
    blow all the way from sites like Kelut to the planet's poles. There, it
    could kickstart chemical reactions that would damage Earth's all-important ozone layer.

    But the researchers say that one thing is clear: When a volcano blows,
    it may be time to pay a lot more attention to all that ash and its true
    impact on Earth's climate.

    "I think we've discovered something important here," Toon said. "It's
    subtle, but it could make a big difference."

    ========================================================================== Story Source: Materials provided by
    University_of_Colorado_at_Boulder. Original written by Daniel
    Strain. Note: Content may be edited for style and length.


    ========================================================================== Journal Reference:
    1. Yunqian Zhu, Owen B. Toon, Eric J. Jensen, Charles G. Bardeen,
    Michael J.

    Mills, Margaret A. Tolbert, Pengfei Yu, Sarah Woods. Persisting
    volcanic ash particles impact stratospheric SO2 lifetime and
    aerosol optical properties. Nature Communications, 2020; 11 (1)
    DOI: 10.1038/s41467-020- 18352-5 ==========================================================================

    Link to news story: https://www.sciencedaily.com/releases/2020/09/200911110809.htm

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