Tag Archive: geological sciences

  1. Up, Up and Away: Studying Volcanoes With Balloons

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    People do all kinds of crazy things in Hawaii, but flying balloons over a volcano usually isn’t one of them. Unless you’re Adam Durant, that is.

    Durant, an adjunct geological sciences faculty member at Michigan Technological University, and colleagues took meteorological balloons to the Kilauea volcano this summer to make the first on-location measurements of volcanic gases as they actually spew from the mouth of the volcano. The Kilauea volcano began erupting this March.

    Durant and Matt Watson, also an adjunct faculty member at Michigan Tech, are working with Paul Voss of Smith College to measure the temperature, composition and water content of the volcanic gases. Durant and Watson both are Michigan Tech alumni who are doing postdoctoral work at the University of Bristol in the United Kingdom.

    “The first flight was a success and made the first in situ measurements of gases in a volcanic plume using meteorological balloons,” Durant reports.
    In addition to seeing volcanoes up close—Durant and his colleagues wear goggles and breathing masks at the infernal mouth of the volcano—he analyzes the plumes using controlled meteorological (CMET) balloons, which have altitude control and drift with winds.

    “The balloons are piloted remotely by satellite link,” Durant explains, “with flight visualization using Google Earth. We were looking at tropospheric volcanic emissions of sulfur dioxide, carbon dioxide and water, which can be hazardous to human and animal health and degrade ecosystems.”

    The scientists released two balloons in July that rode the winds in and out of the plumes emanating from Kilauea’s Halema’uma’u crater. Using instruments hanging below the balloon, the researchers measured the gases as the plumes rose up and away from the active volcano, one of three on Hawaii.

    After the first balloon was released into strong winds left over from tropical storm Elida, it worked for a couple of hours, ascending to 2,500 meters around Mauna Loa mountain. The flight lasted for just under two hours before the balloon crashed into the mountain north of the launch site. Durant and Watson spent the next three hours scouring the jungle on steep mountain slopes before finally locating the balloon, mostly intact.

    The preliminary data is already interesting, Durant says. “We are fairly confident of three findings. First, this work is feasible for measuring sulfur dioxide (SO2) and carbon dioxide (CO2) in volcanic emissions for several hours after eruptions. Second, there is a loss of SO2 after one hour of flight away from the source, which could reflect conversion to sulfate aerosol (which may lower the Earth’s temperature by reflecting away solar radiation). And third, there is a clear stratification of SO2 above CO2 within the plumes.”
    The stratification could represent separation of the gases through meteorological processes such as water droplet formation, Durant says.

    This finding has implications for remote sensing studies that aim to measure volcanic gas emission rates.

    Their research could have immediate consequences for neighboring residents. “One of the largest subdivisions in America is Ocean View, and it is downwind from the volcano on the west side of the island,” Durant notes. “We detected sulfur dioxide over the development, several hours after it was erupted into the atmosphere.” Although they detected considerably less than the 500 parts per million at the source, the level is still high enough to warrant more monitoring, he said.