Satellite Observations Could Help Forecast an Eruption’s End – Eos

Researchers studying past volcanic activity found they could retrospectively predict when outflows of molten rock would cease for about 40% of effusive eruptions, the kind that produces flowing lava.

Developing a method to predict when a volcano will erupt has long remained out of reach. Less studied, but also important for public safety, is forecasting when eruptions will end, a feat that has proven equally elusive.

Now researchers are using satellite data to test a 1981 theory that lava flowforming eruptions follow a predictable pattern, and they have confirmed the pattern in many cases. Whats more, they find that using the theoretical model and observations from space as their guides, they can predict with considerable accuracy when those pattern-fitting eruptions will stop.

I actually didnt think it would work at all. I was happily surprised that it made sense and could be used.I actually didnt think it would work at all, said Estelle Bonny, a Ph.D. candidate at the University of Hawaii at Mnoa who is affiliated with the Hawaii Institute of Geophysics and Planetology (HIGP) and is the first author of a recent paper about the findings. She said that she had suspected the model was too simple for a complex natural process, but I was happily surprised that it made sense and could be used.

Effusive eruptions, characterized by lava flows, can go on and on. It might only be a couple of days, but it can also be a year, Bonny said. For people who live nearby, knowing when it will end can be important to knowing if they have to evacuate and, if they do evacuate, when they will be able to go back home.

British volcanologist Geoff Wadge came up with the 1981 theory that the rate of flow in an effusive eruption would follow an asymmetrical curve: an early cascade of lava, followed by a gradual decline.

Back then, measuring the rate of discharge involved difficult and dangerous field work, and scientists might get only one or two measurements per eruption. However, since 2000, instruments aboard NASAs Terra and Aqua satellites have taken infrared thermal measurements of active volcanoes four times a day, from which researchers readily calculate discharge rates. Now were lucky to have way more data sets than he had, Bonny said. We wanted to use this [abundance] of data to see if the theory still makes sense.

In a paper published online in June in the Bulletin of Volcanology, she and her adviser, Robert Wright, associate director of HIGP, looked at 104 effusive eruptions that took place at 34 different volcanoes over the past 15 years. Of these, 32 eruptions followed the asymmetrical Wadge curve, with an early peak and gradually slowing flow. Eight more were double-pulse eruptions: two initial bursts, followed by the same slow decline. Thirteen others she described as half Wadge: an early peak, followed by a slow flow that continues for a long time.

The remaining 51 eruptions followed no pattern at all. Its not perfect, Bonny said. Sometimes it doesnt show the trend, but sometimes it does.About halfway through the eruption you could have a good prediction.

For eruptions that did follow the model, the scientists found that they could use satellite data to forecast in retrospect when eruptions would end.

It took 3 days worth of observations to predict that the December 2005 eruption of Piton de la Fournaise on Reunion Island would last for 9 daysit ended up stopping on the 10th day.

The model also worked for longer volcanic activity, like the eruption of the Kizimen volcano in Kamchatka, Russia, that began in March 2011. Bonny found that the longer she observed the volcano, the more accurate her prediction became. After 102 days of observations, the model predicted that the eruption would end after 210 days, just 2 days shy of the actual duration of 212 days. About halfway through the eruption you could have a good prediction, she said. The prediction didnt change significantly after the halfway point.

What about eruptions that dont fit the pattern? The team didnt look at explosive eruptions. Those blasts generally offer little mystery about when they will end; most of the action typically ceases after that first, powerful bang.

Among the remaining lava-exuding eruptions the team investigated, Bonny found that the model could still predict double-pulse eruptions simply by resetting the curve at the second peak of the eruption.

However, she and Wright found that the model could predict endings for neither the half Wadge nor random-pattern eruptions. Nonetheless, Bonny said that applying the model to satellite measurements of such eruptions can still yield valuable insights. In about the same amount of time that it would take to forecast an eruptions duration, observers can figure out what type of eruption theyre dealing with, she noted.

Ben Kennedy, a volcanologist at the University of Canterbury in Christchurch, New Zealand, said that the Hawaii team took the kind of space-based observing, data analysis, and modeling that represents the future of volcanology and applied those tools to a practical, public safety problem.

A massive part of the impact is the duration of the [eruption]; this affects all sorts of critical hazard management decisions.This paper is answering the right questions, Kennedy said. Hazard managers need to know what are the likely impacts of the event. A massive part of the impact is the duration of the [eruption]; this affects all sorts of critical hazard management decisions.

Although the study reaffirmed that every eruption is different, it also made significant steps toward classifying effusive eruptions, he said. It seems about 50% are behaving in a predictable way. And about 30% are behaving in a way that will allow accurate predictions during the eruption of when it might end.

For Bonny, thats the next step. So far, she has produced only retrospective predictions, but she is now making plans to test the model on volcanic eruptions in real timemaybe on a volcano close to home. Bonny said that a future eruption of the island of Hawaiis Klauea volcano, which has threatened nearby towns with lava flows in the past, would be a good case study for the modeling method.

Ilima Loomis (email: [emailprotected]), Freelance Journalist

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Satellite Observations Could Help Forecast an Eruption's End - Eos

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