Kilauea’s eruption is a natural lab for volcanologists

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Welcome to the fourth annual Volcano Awareness month. Throughout January, the Hawaiian Volcano Observatory, in cooperation with Hawaii Volcanoes National Park, the University of Hawaii at Hilo, the Edith Kanakaole Foundation and Hawaii County Civil Defense, is offering a series of public talks about Hawaii’s volcanoes. More information about these events is posted on HVO’s website at hvo.wr.usgs.gov.

Welcome to the fourth annual Volcano Awareness month. Throughout January, the Hawaiian Volcano Observatory, in cooperation with Hawaii Volcanoes National Park, the University of Hawaii at Hilo, the Edith Kanakaole Foundation and Hawaii County Civil Defense, is offering a series of public talks about Hawaii’s volcanoes. More information about these events is posted on HVO’s website at hvo.wr.usgs.gov.

As during past Volcano Awareness Months, this column will focus on a theme for the month of January. Over the next four weeks, we will explore some of the most scientifically important eruptions that have occurred in Hawaii since HVO was established in 1912 — specifically, what we have learned from these eruptions and why they are important.

Since this month marks the 30th anniversary of the start of Kilauea’s current east rift zone eruption, it’s only fitting that we begin with that eruption, which started Jan. 3, 1983. After initial fountaining from a series of fissures, activity gradually focused on a single vent and built the Puu Oo cone. In 1986, the eruption shifted about 2 miles downrift, building the Kupaianaha lava shield and, in 1990, devastating the community of Kalapana. Activity returned to Puu Oo during 1992–2007, but moved about 1.3 miles downrift from 2007–11. Since September 2011, Puu Oo has again been the dominant source of lava flows.

This eruption has provided a cornucopia of insights into how Kilauea works. The sheer duration of the eruption has allowed for careful and sustained study of many aspects of volcanic activity, from the movement of magma underground to the emission of gases into the atmosphere. Some of the most important new insights concern the eruption and emplacement of lava flows.

While both pahoehoe and aa lava flows have been observed for centuries, the 30-year-long eruption has provided an opportunity to study, in detail, the complex formation of an entire lava flow field, instead of just a single flow. Inflation of pahoehoe sheets has been thoroughly documented, leading to a better understanding of how lava tubes form and how lava interacts with pre-existing topography. This information has a direct impact on estimation of lava flow hazards, including the prediction of lava flow paths, and has been used to interpret the development of lava flows on other planets, such as Mars.

The eruption has spanned a revolution in the development of volcanological tools, for example, the measurement of ground deformation. In 1983, motion of the ground’s surface was monitored using ground-based methods that required many people and lots of time to collect a limited amount of data. Now, deformation is monitored by satellite, as well as by automated, continuous sensors on the ground. Many other methods of measurement, such as detecting gas emissions and thermal anomalies, have similarly advanced. The net effect of these developments is better resolution (in time and space) of volcanic activity. Changes in volcanic activity that might not even have been detected in 1983 can be thoroughly documented in 2013.

Since 1983, improvements in our ability to integrate different kinds of geophysical, geochemical and geological data have enhanced our monitoring capability. Such integrations have led to a better understanding of the eruption, as well as to better forecasts of future activity. For example, by combining gas emission and deformation measurements, seismic data and observations of heightened eruptive activity from 2003–07, HVO scientists concluded the amount of magma supplied to Kilauea more than doubled during that period. This surge in supply may have been indirectly responsible for the 2008 start of the ongoing summit eruption.

Of course, it’s not possible to fully document all of the scientific advances that have been made by studying Kilauea’s current east rift zone eruption. The take-home message, rather, is that volcanology has enjoyed tremendous advancements in the past 30 years, thanks in no small part to data collected at Kilauea.

Next week, we turn our attention to the most recent eruption of Mauna Loa. Until then, you’re invited to attend one or more of this week’s Volcano Awareness Month talks. Details are available at hvo.wr.usgs.gov or by calling 967-8844.

Kilauea activity update

A lava lake within the Halemaumau Overlook vent produced nighttime glow visible from the Jaggar Museum overlook and via HVO’s webcam during the past week. The inflation phase of a deflation-inflation cycle at Kilauea’s summit started on Jan. 5. The lava lake had risen to within 130 feet of the Halemaumau Crater floor before the event switched to deflation on Thursday when the lava lake began to drop. The lava level will likely continue falling until inflation resumes.

On Kilauea’s east rift zone, surface lava flows remain active near the coast and are feeding weak ocean entries on both sides of the Hawaii Volcanoes National Park boundary. Within Puu Oo, the lava lake on the northeastern side of the crater floor produced small flows that overflowed the northeastern rim of the crater and traveled a short distance down the flank of the Puu Oo cone on Thursday.

Visit hvo.wr.usgs.gov for Volcano Awareness Month details and Kilauea, Mauna Loa and Hualalai activity updates, recent volcano photos, recent earthquakes and more; call 967-8862 for a Kilauea summary; email questions to askHVO@usgs.gov.

Volcano Watch is a weekly article and activity update written by scientists at the U.S. Geological Survey’s Hawaiian Volcano Observatory.