FOR HIRE: Volcanologist
Richard Fiske discusses his groundbreaking work
- Smithsonian.com, September 27, 2007, Subscribe
Richard Fiske's 50-year career as a volcanologist includes 13 years with the United States Geological Survey, stints in California's Sierra Nevada, the islands of St. Vincent and Guadalupe, Japan and Hawaii and 30 years with Smithsonian's National Museum of Natural History. Now a year and a half into retirement, Fiske continues to spend five to six weeks per year in the field, collecting enough data and samples to keep him clocking a normal schedule as a geologist emeritus in the museum's Division of Petrology and Volcanology. Fiske's work has helped people understand how and why volcanoes erupt, and now he helps Smithsonian.com understand just what it takes to be a groundbreaking volcanologist.
How did you get into this line of work?
It was just a lucky accident in graduate school. I went to graduate school at Johns Hopkins University in Baltimore, and my professor there received a research grant to study Mount Rainier National Park in Washington state and prepare a geologic map of the entire park, including the big volcano, Mount Rainier. This work involved tracing layers of different types of rock from place to place and collecting lots of samples and bringing them back to the laboratory where we would study them in great detail. Once you work on a volcano, speaking for myself, you become hooked for life.
What sort of training or background is required?
To be a research scientist of any type these days you have to have a PhD and, better yet, have a few years of post-doctoral experience in your chosen field. After getting a PhD in geology at Johns Hopkins, I spent one year in Japan on a postdoc and two additional years back at Johns Hopkins.
What's an average day like in the field?
I'm either working on the active volcano in Hawaii, Kilauea volcano, or I go to Japan and join Japanese research scientists on cruises to submarine volcanoes south of Japan. In Hawaii, we're looking for thin deposits of ash made of particles that erupted violently out of the volcano. These thin layers of ash are often very difficult to see, and in many places they've been covered by younger lava flows. So we have to find places where we can look under a young lava flow to see the ash that is covered by it. Generally, this is done in wide cracks maybe three or four feet wide that we're able to climb down into. Sometimes we go as deep as 40 or 50 feet down to see the ash that is preserved there.
On a research ship, we are mostly asking the crew of the ship to launch an ROV, a remotely operated vehicle. It's a small submarine that's tethered to the ship by a long cable and lowered down to the sea floor. While we're up on the ship we can see exactly what is located on the sea floor, and the submarine has mechanical arms that can be used to reach out, pick up samples and put them in a little basket on the front of the submersible.
Any exciting discoveries?
In Japan, I was a member of the team that discovered an actively growing mineral deposit on the ocean floor—a huge deposit of sulfide minerals very rich in gold and silver. This deposit is about as big as the Pentagon and about twice as high, and it's growing. Basically, we discovered an ore deposit that in today's market might be worth several billion dollars. The problem is that it's located at a depth of about 4,000 feet below sea level. So no attempt has been made thus far to mine it. But maybe someday people will figure out ways to do this that are environmentally acceptable.
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Comments (4)
Do you think I could get a video interview with this guy for my school project? I would love ta meet him! Just have him e-mail meh and ill try ta meet up with him if he accepts!
Posted by Nicholas Crouch on March 17,2010 | 10:48 AM
thats kool but where do i get hired as one?
Posted by jenny on September 2,2008 | 07:35 PM
The work of Richard Fiske is extremely valuable in the urgent effort to better understand volcanic energies. On the Big Island of Hawai`i, where I live, we enjoy consistent electrical generation by steam from Kilauea. We could develop even more and, in the energy crisis that is finally getting attention, we probably will. The matter of safety that Dr. Fiske mentions in the article is also relevant as this is written because our Halem'aum'au crater exploded a week ago, hurling stones over a 75-acre area. A very large plume of poisonous fumes continues to boil from this large crater's northeast side. Hawai`i Volcanoes National Park receives more than a million visitors a year yet suffers from a lack of funds for roads, trails, bridges and other facilities that would make the park safer and more enjoyable.
Posted by Bill Eger on March 26,2008 | 05:23 PM
Hello, In 1997, we visited Hawaii Volcanoes National Park. We hired a geologist for the day and it made our visit so much more interesting. She worked at the volcano research centre there. I have lost contact info. Does this service still exist? Can you help? Thank you from Canada
Posted by Lynne Bechberger on March 9,2008 | 12:16 PM