Operation Hot Rock

Operation Hot Rock was a U.S. military operation conducted in 1992. The operation involved using concrete blocks weighing 2–4 tons each to divert lava flows away from Zafferana Etnea, a town in Sicily, Italy. The goal was to minimize the town's destruction during the eruption of Mount Etna.

Introduction

During the 1991–1993 eruption of Mount Etna, the town was seriously threatened by advancing lava flows. In April 1992, Italian civil protection authorities, assisted by the United States Marine Corps and United States Navy, carried out a joint mission that used explosives, helicopters, and concrete blocks to divert the lava away from Zafferana. It became known as Operation Hot Rock in U.S. military records. The Marines informally nicknamed the deployment Operation Volcano Buster, painting a cartoon logo on their helicopters as a playful reference to the unprecedented nature of using military assets against a natural disaster. The intervention succeeded in saving the town from destruction.
The operation was reported in Italian and international press as an unusual application of military heavy-lift helicopters in a volcanic‐lava diversion mission.
By the end of May 1992 the lava flow that had been approaching the town was diverted into an artificial channel, and the town of Zafferana Etnea avoided major destruction.

Background

Mount Etna, one of the world's most active volcanoes, began erupting from new fissures on December 14, 1991. The eruption produced voluminous lava flows that started to advance down the mountain's south-eastern flank toward populated areas. The town of Zafferana Etnea, with about 7,000 residents, lies approximately 9 km downslope from the eruptive vent and was identified as being at grave risk.
In early January 1992, emergency crews constructed a large earthen embankment in the Val Calanna area, a natural basin above Zafferana, hoping to contain the lava within that depression. This barrier, built by the Italian civil protection authorities and army with 370,000 m³ of earth and rock, held back the lava for about one month. However, by March 14 a new lobe of lava had flowed over the accumulated lava behind the barrier, and on April 8–10 the molten flow overtopped and breached the main embankment.
As the lava front escaped the basin, it moved on a steep course toward Zafferana Etnea, causing alarm. Despite hastily building three additional smaller earthen dams in early April to slow it, the lava progressively overran these secondary barriers. On April 14, 1992, the flow reached the outskirts of Zafferana and engulfed its first building — a solitary house at Piano dell'Acqua. By mid-April the lava had advanced to less than 1 km from the town's edge, with a tall flow front creeping at 4–5 m per hour.
The situation grew critical; local officials prepared evacuation plans for Zafferana's inhabitants, and Italy's Minister of Civil Protection, Nicola Capria, described the effort to save the town as an "uneven struggle" against a powerful "monster" of nature.
Faced with the imminent threat, Italian volcanologists and engineers, led by Professor Franco Barberi of the National Vulcanology Group, explored more aggressive measures to divert the lava. Initial attempts by Italian Navy and Army engineers to slow the flow using explosives were carried out in early April. On April 13, explosives were detonated on the hardened lava crust in an attempt to collapse it and create an artificial dam; however, this had only limited, temporary effect. With the lava still advancing, Barberi and colleagues decided to attempt disrupting the lava upstream by targeting the main lava tube carrying molten rock toward Zafferana. Since this location was high on the volcano's flank, heavy-lift aerial support was required to transport materials and equipment. The Italian government requested assistance from the United States, which maintained military assets in Sicily. In mid-April 1992, the U.S. European Command agreed to help, deploying Marine and Navy helicopters and personnel to join the lava diversion operation.

Mission details

U.S. military heavy-lift helicopters at Naval Air Station Sigonella in Sicily, April 1992, preparing to assist Italian authorities in the Mount Etna lava containment effort. CH-53E Super Stallion helicopters from Marine Medium Helicopter Squadron 266 were used to airlift large concrete blocks as part of "Operation Hot Rock."
The U.S. Marine Corps contribution to the emergency was spearheaded by Marine Medium Helicopter Squadron 266, which was embarked with the 24th Marine Expeditionary Unit off the coast of Italy at the time. HMM-266 flew CH-53E Super Stallion helicopters, among the largest and most powerful transport helicopters in the U.S. military. These heavy-lift helicopters were well suited to haul the massive concrete blocks and other equipment needed to interfere with the lava flow.
The Marines were joined by U.S. Navy aviation units; for example, Helicopter Combat Support Squadron 4 based at Sigonella contributed CH-53 and CH-46 Sea Knight helicopters for additional lift capacity. approximately 12–15 U.S. aircraft and an estimated 50–100 American personnel participated in the operation along with Italian troops and civil defense teams. The joint effort was coordinated on the ground by Italian Civil Protection officials and volcanologists, who identified target sites on the lava flow, while U.S. pilots and Italian crews carried out the airborne missions.
The U.S. contingent arrived in Sicily in the third week of April 1992. According to mission accounts, the Marines humorously nicknamed the deployment "Operation Volcano Buster," even painting a cartoon logo on their helicopters, reflecting the unprecedented nature of fighting a volcano.
U.S. Defense Department documentation later referred to it as Operation Hot Rock.
For the Marine pilots and enlisted aircrewmen — many of them veterans of the 1991 Gulf War and other recent crises—this humanitarian mission was unique. "Everything is easier when no one is shooting at you," quipped one Navy officer at Sigonella, noting that, despite the absence of hostile fire, flying near an erupting volcano posed its own dangers. Crews had to contend with high winds, updrafts of hot gas, and volcanic ash, which at times grounded flights and hampered visibility on the mountain.
During lulls in the weather, however, the heavy helicopters flew repeatedly from base carrying external loads of concrete and steel to the drop site on Etna's slope. Logistically, the operation involved sourcing and transporting massive concrete blocks to the volcano. Italian authorities provided large cement blocks, each weighing several tonnes. Over 200,000 pounds of concrete were ultimately airlifted by the Marines over the course of the mission.
The U.S. Navy's Sixth Fleet ships in the area also offered support; for example, naval engineers helped fabricate metal mesh platforms to carry groups of concrete blocks, and U.S. Navy Seabees provided expertise in demolition and construction as needed. The cooperation between Italian and American forces extended to safety and communications as well: Italian military escorts guided the U.S. helicopters, and joint command centers were set up to coordinate the timing of aerial drops with explosive blasts on the ground.

Engineering strategy

The lava diversion strategy combined several engineering techniques executed in sequence. The primary goal was to reduce the supply of lava reaching the front near Zafferana by interrupting its path further upslope. To accomplish this, scientists identified a skylight at about 2,000 m elevation on Mount Etna's flank, through which the flowing lava was visible.
This skylight, located in a rugged area of the Valle del Bove, was essentially a "vent" or window into the lava stream.
If the tube could be blocked or diverted at that point, much of the lava might be forced out of its channel and kept away from the vulnerable areas downslope.

Concrete block drops

The initial plan, carried out on April 13–15, 1992, was to physically plug the lava tube via aerial bombardment with concrete. U.S. CH-53E helicopters hovered over the target vent and released large concrete blocks directly into the flowing lava stream. In one of the first attempts, four concrete slabs were lowered into a lava channel at ~6,930 ft elevation. However, this rudimentary approach proved less effective than hoped. The intense heat and viscosity of the lava caused the first blocks to be displaced or carried along the lava stream rather than forming a stable dam. Franco Barberi noted after an aerial inspection that the blocks appeared to be moved aside by the molten flow, suggesting they were too buoyant relative to the lava's force to remain in place. The lava simply flowed around or underneath the dropped blocks in that attempt. In response, the team decided to try using larger masses and a different tactic: accumulating a critical amount of debris in one spot. Over the next week, helicopters brought in additional loads, sometimes using a metal platform to dump multiple blocks at once into the skylight. At one point, high winds forced a helicopter to jettison its cargo prematurely, demonstrating the challenges of precise placement in such conditions.
To augment the block drops, explosives were also employed. Italian Army combat engineers placed explosive charges along the lava tube's walls and at flow levees. The idea was to break the hardened lava banks and cause them to collapse into the lava stream, hopefully damming it. Barberi explained that by blasting the edges of the solidified channel, chunks of solid lava would fall and potentially clog the flow like a dam of rubble. On April 16 and again on April 21, controlled explosions were set off on the tube and at channel walls near the targeted skylight. These blasts were synchronized with helicopter operations. For example, on April 21, helicopters positioned concrete blocks around the skylight's rim and then an explosion was triggered to drive them into the lava tunnel more forcefully. One Marine pilot described maneuvering his CH-53E to swing a suspended 7-ton block "like a pendulum" and ram it into a lava tube breach, in a motion he likened to playing croquet. This combined approach of blasting and block-dropping showed some success. By April 22, observers noted that a portion of the lava was choked off: a substantial accumulation of debris had partially plugged the lava tube, temporarily slowing the output of the flow front. In fact, a joint U.S.-Italian team managed to dump a total of 92 tons of concrete and rubble into one lava tunnel breach on April 21–22, which seemed to halt the lava advance for a short time.
Despite these early interventions, Mount Etna's eruption continued unabated and the lava found new paths. By early May, a new breakout flow bypassed the clogged section and again descended toward the outskirts of Zafferana Etnea, coming within 500 m of the town by May 11.
This prompted a revised strategy for a more lasting solution. Italian authorities, with input from U.S. specialists, devised a four-phase plan to divert all lava from the main tube into an artificially prepared channel on the mountainside.

Phase A: Excavation of an Artificial Channel. Bulldozers and explosives were used high on the slope to carve a new channel leading away from the natural lava tube. This channel was essentially a man-made spillway, intended to guide lava into a safe zone once opened.
Phase B: Weakening the Lava Tube Wall. Engineers systematically drilled and thinned a section of the lava tube's side wall, reducing it to about 2–3 m thickness at a chosen point. This "pre-cut" would allow a single large explosive charge to punch open the tube.
Phase C: Breaching the Tube. On May 27, 1992, a powerful 7-ton explosive charge was detonated at the prepared section of the lava tube. The blast blew open a large hole in the side of the tube, causing an estimated 80% of the lava to gush out of the rupture. Essentially, the volcano's lava was suddenly diverted sideways out of its confined tunnel.
Phase D: Blocking the Original Tube. Following the explosion, teams worked for two days to completely block off the original lava tube so that lava could no longer flow down the old channel. Using earth-movers, they pushed collapsed lava blocks, bulldozered debris, and additional concrete slabs into the tube's opening. By May 29, the main lava flow had been fully diverted into the new artificial channel, and the natural tube was sealed off.

These engineering actions proved effective. Once the lava was re-routed into the artificial channel, it flowed harmlessly into the broad, uninhabited Valle del Bove depression, where it could spread and cool without threatening any town. The final diversion essentially "robbed" the advancing lava flow of its supply, causing the flow front near Zafferana to stagnate and stop advancing. Italian volcanologist Luigi Villari noted that this outcome returned the situation to "a few days after the onset of the eruption" – in other words, the active lava was confined over 6 km upslope, as it had been early in the eruption.