2019 marks the 50th anniversary of Kilauea’s Mauna Ulu eruption
HILO May 24, 2019, was a notable date in Kilauea Volcanos history. It is the one-year anniversary of several key events in the 2018 Kilauea eruption, most notably, the reactivation of fissure 8 with intermittent spattering while fissures 7 and 21 were producing two aa flows. It is also the 50th anniversary of another important event on Kilaueas East Rift Zone: the start of the 1969-1974 Mauna Ulu eruption.
HILO — May 24, 2019, was a notable date in Kilauea Volcano’s history. It is the one-year anniversary of several key events in the 2018 Kilauea eruption, most notably, the reactivation of fissure 8 with intermittent spattering while fissures 7 and 21 were producing two aa flows. It is also the 50th anniversary of another important event on Kilauea’s East Rift Zone: the start of the 1969-1974 Mauna Ulu eruption.
Fifty years ago, on May 24, 1969, the opening fissure of the Mauna Ulu eruption broke ground where Kilauea’s east rift and the Koa‘e fault zone intersect. This fissure behaved similarly to fissures 17, 20, and 22 of the 2018 eruption with 100-foot tall lava fountains emerging from a linear crack. This style of eruption is classic to Hawaii and is thus called “Hawaiian fountaining” in volcanology textbooks around the world.
At Mauna Ulu, the fissure system stretched 3 miles from east to west and cut straight through Aloi and Alae pit craters within Hawaii Volcanoes National Park. The fountains were confined to two main areas: one between the two pit craters and the other west of Aloi crater. Aloi crater filled with 82 feet of lava, which then drained back into a drowned fissure vent on the crater floor, even though lava was coming out of the ground on either side of the pit crater!
On the first day of the Mauna Ulu eruption, the western fountaining zone erupted for 18 hours. The eastern zone erupted for 36 hours, but not much is known about that activity because the Chain of Craters road was cut by the western fountains, making the eastern fountains visible only in the far distance.
The five-year-long Mauna Ulu eruption was preceded by a series of East Rift Zone fissure eruptions that occurred in 1960, 1961, 1962, 1963 (2), 1965 (2), 1968 (2), and February 1969, each lasting between 1 and 15 days. At the time, there was no way to know that the eruptive activity that began on May 24, 1969, was the start of something bigger. In fact, at only 36 hours long, it seemed rather insignificant.
The episode 1 fissure produced spatter in linear ramparts several meters high on the north (upslope) side of the fissures. Ramparts did not generally form on the south side of the fissures because the spatter was rafted away on lava as it flowed downslope.
Ultimately, this brief fissure was the first of 12 lava fountaining episodes during the early Mauna Ulu eruption that continued through Dec. 31, 1969. Beginning with episode 2, activity was localized to only the eastern fountaining zone. The vent would often have dual fountains, which erupted side-by-side, occasionally with both the same height, ranging from several tens to several hundred yards high.
The lava fountains eventually built a tephra cone 150 feet tall. This cone, made of scoria, pumice, and yellow-gold reticulite was named Mauna Ulu (growing mountain). It was later covered in 70 230 feet of lava and is a prominent landmark still visible from the Chain of Craters Road in Hawaii Volcanoes National Park.
In January 1970, the Mauna Ulu eruption became effusive, producing lava flows that traveled south through the national park, and ultimately reached the ocean. A lava lake formed within the tephra cone, allowing Hawaiian Volcano Observatory researchers to document and understand gas pistoning behavior. Lava also filled in Aloi and Alae pit craters.
After a three-and-a-half month pause, October 1971 to February 1972, eruptive activity resumed for two more years, until July 1974, when the eruption finally ended.
This eruption produced invaluable scientific advancements in volcano science, including an improved scientific understanding of how pahoehoe and aa form. Mauna ulu provided the first detailed observations of pillow lava forming underwater — filmed by brave divers! The development of large lava flow fields, the formation of lava tubes, and the origin of tree molds were also documented.
Indeed, May 24 marks an important anniversary: The Mauna Ulu eruption was the largest, most voluminous, and best documented eruption recorded at Kilauea in the 20th century, until 1983 when the next long-lived eruption began.
Volcano Activity Updates
Kilauea Volcano is not erupting and its USGS Volcano Alert level remains at normal. For definitions of USGS Volcano Alert Levels, see https://volcanoes.usgs.gov/vhp/about_alerts.html.
Rates of deformation, gas release, and seismicity have not changed significantly over the past week.
Since early March, tiltmeters at Kilauea’s summit have recorded modest inflationary tilt. During the same time period, a GPS station within the 2018 collapse area has recorded approximately 3 inch of uplift. On Kilauea’s East Rift Zone, GPS stations and tiltmeters continue to show motions consistent with refilling of the deep magmatic reservoir in the broad region between Puu Oo and Highway 130. This trend has been observed since the end of the 2018 eruption.
Sulfur dioxide emission rates on Kilauea’s ERZ and summit remain low. Gas measurements have not indicated that large volumes of magma have become significantly shallow, but HVO continues to closely monitor gas emissions at both the summit and ERZ of Kilauea for any changes.
One earthquake with three or more felt reports occurred in Hawaii this past week: a magnitude-3.0 quake 6 miles southeast of Volcano Village at 4 miles depth on May 19 at 4:15 p.m. HST.
Hazards remain at the lower ERZ and summit of Kilauea. Residents and visitors near the 2018 fissures, lava flows, and summit collapse area should heed Hawaii County Civil Defense and Hawaii Volcanoes National Park closures and warnings. Hawaii County Civil Defense advises that lava flows from the 2018 eruption are primarily on private property; people are asked to be respectful and to not enter or park on private property.
The USGS Volcano Alert level for Mauna Loa remains at normal.
HVO continues to closely monitor both Kilauea and Mauna Loa for any signs of increased activity.
Please visit HVO’s website (https://volcanoes.usgs.gov/hvo) for past Volcano Watch articles, Kilauea and Mauna Loa updates, volcano photos, maps, recent earthquake info, and more. Call 967-8862 for weekly Kilauea updates. Email questions to askHVO@usgs.gov.
Volcano Watch is a weekly article and activity update written by U.S. Geological Survey Hawaiian Volcano Observatory scientists and affiliates. This week’s article is by HVO geologist Carolyn Parcheta.