Portable platforms enable rapid deployment of monitoring stations


When Mount St. Helens reawakened in late September 2004 with an intense swarm of earthquakes and very noticeable uplift of the volcano’s crater floor, there was great uncertainty as to how the activity would unfold and what style of eruption might result.

Would there be a strong explosive eruption similar to the infamous eruption May 18, 1980, or the subsequent effusion of viscous lava that formed a massive lava dome from 1980-86?

As the activity intensified and monitoring stations in the crater were destroyed by small, steam-driven explosions, scientists at the Cascades Volcano Observatory (CVO) needed to install additional instruments in the crater to better track the earthquakes and ground deformation in real time.

The uncertainty and potential for explosive activity, however, meant the crater was considered extremely hazardous to scientists spending any more than a few minutes there.

A typical monitoring station for detecting earthquakes or deformation consists of solar panels, batteries, antenna mast, housing for the electronics and instrument pad or monument. Installing such a station requires multiple helicopter sling loads to the site and many hours to assemble by people working on the ground.

Then, CVO scientists designed and built self-contained, portable units that could be slung into place — and even moved or retrieved — by helicopter, without needing people to work at the site. These units were designed with non-rechargeable batteries to eliminate the solar panels and avoid problems with snow and ice during winter conditions.

Nicknamed “spiders” because of their long-legged framework, several were placed on the old dome only 11 days after the start of earthquake activity. The spiders quickly showed the old dome was moving northward as much as two centimeters (3/4 inch) per day. The massive dome was being shouldered aside by a mass of magma ascending beneath its south side.

Lava finally erupted onto the crater floor about a week later and continued erupting through early 2008 to form a new dome nearly equal in volume to the 1980-86 dome.

During the 3.5-year eruption, nearly three dozen spiders were used to successfully monitor the dome’s activity.

The spiders were made possible in such a short period of time because CVO scientists started developing a prototype GPS-based system for monitoring ground movement in 2000.

The system was designed to be low-cost, require minimal power, and transmit data reliably and repeatedly. Fortuitously, the critical electronic, telemetry and data-processing parts of the system proved to work well by the time Mount St. Helens reawakened in 2004.

For more information, see this publication: http://pubs.usgs.gov/pp/1750/chapters/pp2008-1750_chapter16.pdf)

More recently, a portable instrument package was developed at the Hawaiian Volcano Observatory (HVO) to quickly and easily deploy webcams for recording activity at new eruptive vents and tracking the location and advancement of lava flows in real time.

Like spiders, they can be slung by helicopter to remote sites, but they require scientists on the ground to set up the cameras, install and align the radio antennas and connect the final wiring.

Still, the new platforms greatly reduce the time and effort needed to deploy webcams and other monitoring stations.

The core of HVO’s portable unit is an aluminum framework strong enough to be slung by helicopter while also supporting the power system (solar panels and batteries), camera tripod and the electronics needed to acquire, store and transmit data to the observatory.

With the help of long-term volunteer Frank Box, HVO now has several of these units ready for deployment when the eruption of Kilauea changes or activity ramps up at one of the other active volcanoes in Hawaii. The prefabrication will save many days of preparation time and reduce the number of sling loads needed to quickly install several new, temporary monitoring stations with minimal impact to a site.

Kilauea activity update

A lava lake within Halema‘uma‘u produced nighttime glow visible via HVO’s webcam during the past week. The deflation phase of a large deflation-inflation (DI) event, which began April 10, caused the lava level to drop about 25 meters (82 feet) during the next several days.

Inflation started April 14, and as of Thursday, April 17, the lava level had risen 20 meters (66 feet) and was about 42 meters (138 feet) below the rim of the Overlook Crater.

On Kilauea’s East Rift Zone, the Kahauale‘a 2 flow continued to be active northeast of Pu‘u ‘O‘o.

The active flow front was 8.3 kilometers (5.2 miles) northeast of the vent on Pu‘u ‘O‘o on Wednesday, April 9, based on satellite imagery.

Webcam images indicate small, lava-sparked forest fires continue to burn.

There were no felt earthquakes in the past week on the Island of Hawaii.

Visit the HVO website at http://hvo.wr.usgs.gov for past Volcano Awareness Month articles and current Kilauea, Mauna Loa and Hualalai activity updates, recent volcano photos, recent earthquakes and more; call 967-8862 for a Kilauea summary; and email questions to askHVO@usgs.gov.

Volcano Watch (http://hvo.wr.usgs.gov/volcanowatch/) is a weekly article and activity update written by scientists at the U.S. Geological Survey`s Hawaiian Volcano Observatory.

 

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