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25 Years Monitoring Alaska Volcanoes


25 Years Monitoring Alaska Volcanoes

Twenty-five years of monitoring and studying Alaska’s volcanoes by the Alaska Volcano Observatory have improved global understanding of how volcanoes work and how to live safely with volcanic eruptions. Timely warnings from AVO throughout its 25-year history have helped reduce the impact of erupting volcanoes, protecting lives, property, and economic well-being.

On April 1, the Alaska Volcano Observatory, a cooperative program of the U.S. Geological Survey, the University of Alaska Fairbanks Geophysical Institute, and the Alaska Division of Geological and Geophysical Surveys, will mark its 25th anniversary.

“Since 1988, AVO has responded to over 70 eruptive events from Alaska’s 52 historically active volcanoes,” said John Power, USGS geophysicist and scientist-in-charge of AVO.  “Many of these eruptions affected local and international air traffic, oil production, the fishing industry, municipalities, businesses, and citizens.”

The primary volcano hazard in Alaska is airborne ash that endangers aircraft flying the busy North Pacific air routes connecting North America and Asia.  The hazard played out dramatically on December 15, 1989 when a wide-body passenger jet encountered an ash cloud from Redoubt Volcano and lost power in all four engines over the Talkeetna Mountains.  Fortunately, after more than 4 harrowing minutes of descent, engines were restarted and the plane landed safely in Anchorage. This near-tragedy prompted renewed international efforts to more effectively address the hazards of airborne volcanic ash.

In addition to endangering aircraft, volcanoes near population centers can pose significant hazards to infrastructure and communities from ash fall, lahars, and other rapidly flowing mixtures of hot rock fragments, fluids, and gases.

AVO has developed a far-reaching volcano monitoring program in Alaska and partnered with federal, state and municipal agencies, to improve warnings of volcanic eruptions. AVO led the development of the standard Aviation Color Code to communicate hazards in a simple, consistent manner; this warning system is now endorsed by the International Civil Aviation Organization for use by volcano observatories worldwide.  AVO pioneered cooperative programs with volcanologists in the Russian Far East, also home to dozens of explosive volcanoes that threaten aircraft, to create a system to warn the aviation industry of eruptions in Kamchatka and the Kuriles.

Over 25 years, AVO expanded from an early focus on just Cook Inlet volcanoes to a current monitoring and research program that includes daily observations of all 52 historically active volcanoes in Alaska. To address the aviation hazard, AVO expanded ground-based monitoring networks from Cook Inlet to volcanoes on the Alaska Peninsula and Aleutian Islands.  Throughout the years, AVO and its colleagues developed innovative ways to track earthquake activity, ground deformation, and volcanic gas output, and analyze satellite imagery in the harsh Alaskan environment.  Geologic studies of volcanoes and eruptions by AVO scientists provide insights into eruptive histories, information needed to assess future hazards and inform planning efforts.

AVO issues daily and weekly updates of volcanic activity in Alaska.  The most recent information along with a wide range of volcano information, real-time data, and images is available on the AVO website.  Volcanic activity notices are also served through Twitter @alaska_avo.

The University of Alaska Fairbanks Geophysical Institute turns observations into information, from the center of the Earth, to the center of the Sun. Visit the UAFGI website for more information.

The Alaska Division of Geological and Geophysical Surveys determines the potential of Alaskan land for resources, groundwater, and geologic hazards. More information is available online.

USGS Newsroom


More information

Parameter Value Description
Magnitude mb The magnitude for the event.
Longitude ° East Decimal degrees longitude. Negative values for western longitudes.
Latitude ° North Decimal degrees latitude. Negative values for southern latitudes.
Depth km Depth of the event in kilometers.
Place Textual description of named geographic region near to the event. This may be a city name, or a Flinn-Engdahl Region name.
Time 1970-01-01 00:00:00 Time when the event occurred. UTC/GMT
Updated 1970-01-01 00:00:00 Time when the event was most recently updated. UTC/GMT
Timezone offset Timezone offset from UTC in minutes at the event epicenter.
Felt The total number of felt reports
CDI The maximum reported intensity for the event.
MMI The maximum estimated instrumental intensity for the event.
Alert Level The alert level from the PAGER earthquake impact scale. Green, Yellow, Orange or Red.
Review Status Indicates whether the event has been reviewed by a human.
Tsunami This flag is set to "1" for large events in oceanic regions and "0" otherwise. The existence or value of this flag does not indicate if a tsunami actually did or will exist.
SIG A number describing how significant the event is. Larger numbers indicate a more significant event.
Network The ID of a data contributor. Identifies the network considered to be the preferred source of information for this event.
Sources A comma-separated list of network contributors.
Number of Stations Used The total number of Number of seismic stations which reported P- and S-arrival times for this earthquake.
Horizontal Distance Horizontal distance from the epicenter to the nearest station (in degrees).
Root Mean Square sec The root-mean-square (RMS) travel time residual, in sec, using all weights.
Azimuthal Gap The largest azimuthal gap between azimuthally adjacent stations (in degrees).
Magnitude Type The method or algorithm used to calculate the preferred magnitude for the event.
Event Type Type of seismic event.
Event ID Id of event.
Event Code An identifying code assigned by, and unique from, the corresponding source for the event.
Event IDS A comma-separated list of event ids that are associated to an event.

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Geological news

25 Years Monitoring Alaska Volcanoes


25 Years Monitoring Alaska Volcanoes

Twenty-five years of monitoring and studying Alaska’s volcanoes by the Alaska Volcano Observatory have improved global understanding of how volcanoes work and how to live safely with volcanic eruptions. Timely warnings from AVO throughout its 25-year history have helped reduce the impact of erupting volcanoes, protecting lives, property, and economic well-being.

On April 1, the Alaska Volcano Observatory, a cooperative program of the U.S. Geological Survey, the University of Alaska Fairbanks Geophysical Institute, and the Alaska Division of Geological and Geophysical Surveys, will mark its 25th anniversary.

“Since 1988, AVO has responded to over 70 eruptive events from Alaska’s 52 historically active volcanoes,” said John Power, USGS geophysicist and scientist-in-charge of AVO.  “Many of these eruptions affected local and international air traffic, oil production, the fishing industry, municipalities, businesses, and citizens.”

The primary volcano hazard in Alaska is airborne ash that endangers aircraft flying the busy North Pacific air routes connecting North America and Asia.  The hazard played out dramatically on December 15, 1989 when a wide-body passenger jet encountered an ash cloud from Redoubt Volcano and lost power in all four engines over the Talkeetna Mountains.  Fortunately, after more than 4 harrowing minutes of descent, engines were restarted and the plane landed safely in Anchorage. This near-tragedy prompted renewed international efforts to more effectively address the hazards of airborne volcanic ash.

In addition to endangering aircraft, volcanoes near population centers can pose significant hazards to infrastructure and communities from ash fall, lahars, and other rapidly flowing mixtures of hot rock fragments, fluids, and gases.

AVO has developed a far-reaching volcano monitoring program in Alaska and partnered with federal, state and municipal agencies, to improve warnings of volcanic eruptions. AVO led the development of the standard Aviation Color Code to communicate hazards in a simple, consistent manner; this warning system is now endorsed by the International Civil Aviation Organization for use by volcano observatories worldwide.  AVO pioneered cooperative programs with volcanologists in the Russian Far East, also home to dozens of explosive volcanoes that threaten aircraft, to create a system to warn the aviation industry of eruptions in Kamchatka and the Kuriles.

Over 25 years, AVO expanded from an early focus on just Cook Inlet volcanoes to a current monitoring and research program that includes daily observations of all 52 historically active volcanoes in Alaska. To address the aviation hazard, AVO expanded ground-based monitoring networks from Cook Inlet to volcanoes on the Alaska Peninsula and Aleutian Islands.  Throughout the years, AVO and its colleagues developed innovative ways to track earthquake activity, ground deformation, and volcanic gas output, and analyze satellite imagery in the harsh Alaskan environment.  Geologic studies of volcanoes and eruptions by AVO scientists provide insights into eruptive histories, information needed to assess future hazards and inform planning efforts.

AVO issues daily and weekly updates of volcanic activity in Alaska.  The most recent information along with a wide range of volcano information, real-time data, and images is available on the AVO website.  Volcanic activity notices are also served through Twitter @alaska_avo.

The University of Alaska Fairbanks Geophysical Institute turns observations into information, from the center of the Earth, to the center of the Sun. Visit the UAFGI website for more information.

The Alaska Division of Geological and Geophysical Surveys determines the potential of Alaskan land for resources, groundwater, and geologic hazards. More information is available online.

USGS Newsroom


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