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Alaska’s Pavlof Volcano: NASA’s View from Space | by NASA Goddard Photo and Video
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Alaska’s Pavlof Volcano: NASA’s View from Space

Astronauts aboard the International Space Station (ISS) photographed these striking views of Pavlof Volcano on May 18, 2013. The oblique perspective from the ISS reveals the three dimensional structure of the ash plume, which is often obscured by the top-down view of most remote sensing satellites.

Situated in the Aleutian Arc about 625 miles (1,000 kilometers) southwest of Anchorage, Pavlof began erupting on May 13, 2013. The volcano jetted lava into the air and spewed an ash cloud 20,000 feet (6,000 meters) high. When photograph ISS036-E-2105 (top) was taken, the space station was about 475 miles south-southeast of the volcano (49.1° North latitude, 157.4° West longitude). The volcanic plume extended southeastward over the North Pacific Ocean. Image Credits: ISS Crew Earth Observations experiment and Image Science & Analysis Laboratory, Johnson Space Center.

 

Caption by Robert Simmon, NASA Earth Observatory, and G. M. Gentry, DB Consulting Group at NASA-JSC.

 

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The Pavlof volcano, located in the Alaska Peninsula National Wildlife Refuge has been producing steam and gas plumes since May 13. The volcano's plumes were captured by NASA satellite imagery and photographs taken by the astronauts aboard the International Space Station. The Pavlof volcano is located about 625 miles (1,000 kilometers) southwest of Anchorage, Alaska.

 

Astronauts aboard the International Space Station captured stunning photos of Pavlof’s eruption on May 18, and the next day, the Moderate Resolution Imaging Spectroradiometer or MODIS instrument that flies aboard NASA’s Aqua and Terra satellites captured different views of the ash plume. The ASTER (Advanced Spaceborne Thermal Emission and Reflection Radiometer) instrument that also flies aboard NASA's Terra satellite, provided a look at the temperatures and lava flow from the eruption.

 

The Terra MODIS image was taken on May 19 at 2:10 p.m. AKDT local time (6:10 p.m. EDT) and showed the area of heat from the volcano as well as the ash plume. The ash plume appeared as a dark brown color, blowing in a northerly direction for about 30 miles. At that time the ash cloud was about 20,000 feet above sea level.

 

The ASTER instrument is a high resolution imaging instrument that is flying on the Terra satellite. ASTER captured a visible and near infrared image of Pavlof Volcano at 2:10 p.m. AKDT local time (6:10 p.m. EDT). The maximum brightness temperature in the ASTER image was near 900 degrees Celsius (1,600 Fahrenheit) at the volcano’s vent, and the lava flow appeared to be 4.8 kilometers (3 miles) long.

 

On Thursday, May 23 at 10:39 a.m. AKDT local time (2:39 p.m. EDT), the Alaska Volcano Observatory (AVO) reported that the Pavlof continued erupting at low levels. At that time, the Pavlof Volcano is under a “Watch” and the current aviation color code is “Orange.”

 

There are four levels of eruption: Green, Yellow, Orange and Red. Green is a non-eruptive state. Yellow means the volcano is exhibiting signs of elevated unrest. According to the AVO website, an Orange aviation code means that the volcano is exhibiting heightened or escalating unrest with increased potential of eruption, timeframe uncertain, or, the eruption is underway with no or minor volcanic-ash emissions. Red means and eruption is imminent or underway.

 

Small discrete events, likely indicative of small explosions continue to be detected on seismic and pressure sensor networks over the past 24 hours. According to the AVO website, imagery and pilot reports from May 23 showed a very weak steam and gas plume with little to no ash issuing from the vent. Imagery from the ASTER instrument aboard NASA’s Terra satellite indicated heightened surface temperatures through cloud cover, which is a sign that the activity continues.

 

So far, the Pavlof’s activity has been characterized by relatively low-energy lava fountaining and ash emission, but the AVO cautions that “more energetic explosions could occur without warning that could place ash clouds above 20,000 feet.” For future updates, visit the Ala

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Taken on May 18, 2013