Researcher studies volcanic gases in remote areas of world
Professor Tobias Fischer sits inside a volcanic crater on the Aleutian Islands. |
Researchers will often go to the ends of the Earth in search of answers to the mysteries of science. Forming the Aleutian Arc in the Northern Pacific Ocean, approximately 3,400 miles from Albuquerque and the University of New Mexico, the Aleutian Islands are a perfect destination to conduct research that could one day, impact Earth and its inhabitants.
The Aleutian Islands, a chain of 14 large volcanic islands and 55 smaller ones that belong to both the United States and Russia, are just such a location. The Islands occupy an area of more than 6,800 square miles and extend approximately 1,200 miles westward from the Alaska Peninsula toward the Kamchatka Peninsula in Russia. The Aleutian Islands mark the dividing line between the Bering Sea to the north and the Pacific Ocean to the south.
Last fall, an expedition spearheaded by GeoPRISMS (Geodynamic Processes at Rifting and Subducting Margins), a community effort that studies the origin and evolution of continental margins funded by the National Science Foundation (NSF), organized a group of scientists to deploy several multi-disciplinary projects including seismic instruments, sample tephras and volcanic gases, and repair and restore monitoring stations for the Alaska Volcano Observatory (AVO) on seven active volcanoes in 19 days on the Aleutian Islands.
The combined expedition, which included University of New Mexico Department of Earth and Planetary Sciences Professor Tobias Fischer, and lead Research Geologist Elizabeth Cottrell, curator and director of the Global Volcanism Program, National Museum of Natural History, Smithsonian Institution, the scientists spent four weeks on the remote westernmost Aleutian Islands. They were part of a second group of scientists to work on the western Aleutians following a team that conducted research on the eastern Aleutian Islands.
The collaboration also included the U.S. Geological Service and Alaska Volcano Center, the Fish and Wildlife Service, the Deep Carbon Observatory Deep Carbon Degassing initiative (DCO-DECADE ), and NSF's Polar Programs, which handled all the logistics and essentially enabled Fischer to accompany the group due to his research work with DCO. Polar Field Services and the crew of the Maritime Maid were essential to the success of these projects.
"The expense for expeditions to remote areas of the world is enormous when you include the boat, helicopter, maintenance, sample collection and supplies," Fischer said.
Fischer's part in the collaboration was to collect toxic gas samples pouring out of the summits at each of the volcanoes.
"We were guests on an expedition to one of the most remote parts of the world," Fischer said. "We flew into Adak, a town with about 200 permanent residents. This is as far west as you can fly to commercially in the Aleutians. Beyond Adak there is no infrastructure or inhabitants. The goal was to study Aleutian volcanoes in detail geologically and geochemically and to push the envelope of what we knew about their magmatic degassing."
Fischer and the gas chemists conducted some of the most dangerous work during the expedition having to obtain samples of toxic gases from the volcano summits.
"We were able to obtain real-time information on where the gases were coming from," Fischer said. "At Kiska, the westernmost location, we were able to collect the first-ever volcanic gas samples from the summit of the volcano. Gareloi had never been sampled before and we were able to get samples of 300°C gases there. We also obtained samples from Kanaga, which is very steep-sided and exposed. The helicopter had to land right on top of the volcano because there was no other place to land near the volcano's summit. We also developed a new sampling technique and collected samples from the plume by flying the helicopter directly into the volcanic gas plume. Every group that was part of the expedition achieved its goals."
Fischer is now looking for answers to the data collected including: the source of the volatiles and how do they vary between the different volcanoes; how do tectonics affect what's degassing from the magmas; and to characterize each volcano for its state of activity and potential future hazards.
"One of the objectives for the DCO is to determine how much carbon emissions come from natural sources," Fischer said. "Some regions have been well-studied and other not so much. We're trying to fill in the gaps as part of this 10-year project. We're in year seven and making quite a bit of progress, but we still have a ways to go."
Note: The above post is reprinted from materials provided by University of New Mexico.
http://www.geologypage.com/2016/02/researcher-studies-volcanic-gases-in.html
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