q <TITLE>Volcano Topography and Volcanic Hazards</TITLE>
<p>
<h1>Volcano Topography and Volcanic Hazards:  Topographic Characterization
and Monitoring of Volcanoes</h1>
<hr size=10><img src=MSHreflection.gif align=middle>Photo of Mt. St. Helens from the collection of the fCascade Volcano Observatory.<hr>

<h2>The Players</h2>
<ul>
<li> <a href="../../personal_pages/garvin.html"> James B.Garvin</a>
</ul><hr><p>

<h2>The Motivation</h2>

Monitoring the topography of potentially <a href="http://www.geo.mtu.edu/eos/education/slide_set3/slides.captions.3b.html">
hazardous</a>
volcanoes is important both for documenting past activity and recognizing
the potential for future activity. Many volcanoes are capable of causing 
floods, mudflows, and landslides, as well as volcanic plumes and flows.
Besides being life-threatening, all of these catastrophic events can cost
agriculture, government, private property owners and industry millions of
dollars.  Volcanoes such as Mt. Saint Helens and Mt. Rainier are located 
near highly populated, urban areas.  Mt. Saint Helens, once thought to
be dormant, reawakened in 1980.  Thus declaring it's hazard potential and
proving that long term monitoring of Cascade volcanoes is necessary.  In
the past Mt. Rainier has produced enormous mud flows, some of which
reached the Seattle-Tacoma metropolitan area.  Topographic monitoring of
summit areas could reveal pre-eruption indicators, such as; large scale
tilts and bulges over active magma chambers, subsidence of glacial ice due 
to near-surface magma, or the appearance of a new crater or vent.<p><hr><img src=RuizLahar.gif align=middle><p>
Armero, Colombia was destroyed by mud flows on November 13, 1985. 
More than 23,000 people were killed when mud flows swept down from the erupting Nevado del Ruiz volcano. Photo from Cascade Volcano Observatory, by R.J. Janda.
  
<hr><p>

<h2>The Research</h2><p>
Topography is an important parameter used to describe volcanic
landforms.  However, high precision methods
for rapidly determining the complex topography of volcanoes, to the 
resolution necessary for remote monitoring and hazard prediction, have
only recently emerged.  Since the middle 1980's, a small group of scientists
and engineers at NASA's Goddard Space Flight Center (GSFC) have been 
developing airborne and spaceborn laser altimeter methods for measurement 
of elevations of terrestrial surfaces, including volcanic landforms. 
<p>

These technological developments have enabled scientists to
gather very accurate topographical information for the study of several
active and potentially hazardous volcanoes, including:
    
<p><h3><a href=Helens.gif><img src=Helens.sm.gif , align=middle></a><a href="http://vulcan.wr.usgs.gov/Volcanoes/MSH/framework.html">
Mt. Saint Helens</a></h3>This photo shows Mt. Saint Helens' mudflows
 triggered by the March 1982 eruption.  Photo from Casade Volcano Observatory, by Thomas Casadevall.<p>  Mt. Saint Helens is located in the Cascade range, in Washington state.
It's last major eruption occured in 1980; since then numerous smaller 
eruptions have occured.  Topographic cross-sections of the summit region
(including the dacite lava dome) have been aquired with airborn laser
altimeter systems since 1987, with continuously improving reliability 
and accuracy.  In September 1993, cross-sections of the Mt. Saint 
Helens' central dome were aquired with no more than a few tens of cm 
vertical error.  This data can serve as the basis for continued monitoring
of the changing topography of the dome as well as the entire edifice.
         
<p>
<h3><a href=Adams.gif><img src=Adams.sm.gif , align=middle></a><a href="http://volcano.und.nodak.edu/vwdocs/volc_images/img_adams.html">
Mt. Adams</a></h3>
Another member of the Cascade range in Washington, Mt. Adams has been
inactive in historical times.  Multiple topographical cross-sections of 
Mt. Adams were aquired during the airborne laser altimeter surveys of 1993.
In contrast to more recently active Cascade volcanoes, Mt. Adams shows 
rather gradual slopes, with 80% of local slopes less than 60 degrees.<p>Photo from the collection of the Cascade Volcano Observatory.

<p>
<h3><a href=Rainier.gif><img src=Rainier.sm.gif , align=middle></a><a href="http://volcano.und.nodak.edu/vwdocs/volc_images/img_rainier.html>
Mt. Rainier</a></h3>
Mt. Rainier, which last erupted approximitly one hundred and fifty years 
ago, is also a member of the Cascade mountain range, close to 
the Seattle-Tacoma metropolitan area.  As part of the airborne laser 
altimeter surveys of 1993, multiple topographic cross-sections
of Mt. Rainier were aquired.  Mt. Rainier is relatively steep; 80%
of it's local slopes are less than 30 degrees.  This slope curve
suggests that Rainier is transitional between the long-period dormancy 
of Mt. Adams, and the recent eruptive activity of Mt. Saint Helens.<p>
The laser altimetry, in combination with other methods, could provide
the basis for characterizing changes in hazardous volcanoes in terms of
their topographic characteristics. This approach has been adopted for a
NASA-supported multi-year study of the topography of the summit region
of Mt. Rainier,scheduled to commence in 1995.<p>Photo from the collection of the Cascade Volcano Observatory. 

   
<p> 
<h3>Skjaldbrudur</h3>
Located in <a href="http://norvol.hi.is/iceland.gif">
Iceland</a>, Skjaldbrudur is a classic lava shield.  
Skjaldbrudur will be  monitored by RADARSTAT, an orbital remote
sensor.  RADARSTAT will aquire monthly SAR images of Skjaldbrudur,
which will then be analyzed in an attempt to measure the spacial
and areal changes associated with the volcano.

<p>
<h3>Pico</h3>
Pico is located in the Azores Islands, an island chain west of Spain 
of the Atlantic Ocean.  Uncharacteristicly quiet during the past few decades,
Pico last erupted in 1963.
<p>

<h3><a href="http://volcano.und.nodak.edu/vwdocs/current_volcs/fogo/fogo.html">
Fogo</a></h3>
Fogo, located in the Cape Verde Islands, is a major mid-Atlantic volcano 
which was last active in 1951.  Fogo previously displayed a long period of
semi-continuous eruptive activity between 1500 and 1761.  Today, scientists
are studying Fogo island with hopes of understanding the ongoing eruptive
activity and the nature of any human hazards it might pose.  A SPOT Pilot 
Project focusing on monitoring and documenting the results of the ongoing
volcanic eruption of Fogo is imminent.  In addition, efforts are afoot to 
overfly the Fogo volcano with NASA aircraft for the purpose of airborne laser 
topographic observations using either NASA airborne laser altimeter or SAR
interferometer sensors.  Data will also be used to guide field studies of 
the eruption, and as a basis for future volcano monitoring studies.<p><img SRC="/icon2.gif" ,align=middle>Don't miss these amazing <a href="http://www.publico.com/portfolio/>images of Fogo</a> in eruption, by Daniel Rocha.<img SRC="/icon2.gif" ,align=middle><hr><p>

 
<h2>Related volcanology research:</h2>

<ul>
<li><h3><a href="http://www.geo.mtu.edu/eos/">The Earth 
Observing System Volcanology Interdisciplinary Science
 Team</a></h2><p>
<li><h3><a href="http://www.rspac.ivv.nasa.gov/space/hawaii/">Virtually
 Hawaii, a NASA Cooperative Agreement</a></h2><p>
<li><h3><a href="http://www.geo.mtu.edu/eos/education/slide_set2/>Volcano Topography</a></h2><p>
</ul>
<hr><p>

<h2>Other interesting volcano pages:</h2><p>

<ul>
<li> <a href="http://www.geo.mtu.edu/volcanoes"> Michigan Tech. University:   
	Information of Volcanoes</a>
<li> <a href="http://volcano.und.nodak.edu/"> Volcano World</a>
<li> <a href="http://nmnhwww.si.edu/gopher-menus/BulletinoftheGlobalVolcanismNetwork.html"> Bulletin of the Global Volcanism Network</a>
<li> <a href="http://www.avo.alaska.edu/"> Alaska Volcano Observatory</a>
<li> <a href="http://vulcan.wr.usgs.gov/home.html"> Cascades
	Volcano Observatory</a>
<li> <a href="http://www.soest.hawaii.edu/hvo/"> Volcano 
	Watch weekly newsletter of the Hawaiian Volcano Observatory</a>
	
</ul><p>
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page created by: Lisha McCormick
		 :Goddard Space Flight Center
		 
		 <p>National Space Club Scholars
		 7/27/95