Mount St. Helens' new growth and plume. The red on the lower right is sun glare.
Images
Volcano Hazard Program images.
Mount St. Helens' new growth and plume. The red on the lower right is sun glare.
Plume from November 11, 2004 eruption of Mount St. Helens, looking into the sun.
Plume from November 11, 2004 eruption of Mount St. Helens, looking into the sun.
USGS scientists examine new rock samples from the new growth on Mount St. Helens' dome.
USGS scientists examine new rock samples from the new growth on Mount St. Helens' dome.
Night shot (approximately 7:30 PM PST) of new growth on Mount St. Helens' lava dome, as seen from Johnston Ridge Observatory (JRO).
Night shot (approximately 7:30 PM PST) of new growth on Mount St. Helens' lava dome, as seen from Johnston Ridge Observatory (JRO).
USGS scientist Cynthia Gardner examines new rock samples from the new growth on Mount St. Helens' dome.
USGS scientist Cynthia Gardner examines new rock samples from the new growth on Mount St. Helens' dome.
Mount St. Helens crater and dome as seen from Johnston Ridge Observatory (JRO). October 2005
Mount St. Helens crater and dome as seen from Johnston Ridge Observatory (JRO). October 2005
Mount St. Helens crater and dome as seen from Johnston Ridge Observatory (JRO). October 2005
Mount St. Helens crater and dome as seen from Johnston Ridge Observatory (JRO). October 2005
Mount St. Helens dome and new growth as seen from the northwest. October 2005
Mount St. Helens dome and new growth as seen from the northwest. October 2005
Mount St. Helens new growth, closein, from the west-northwest.
Mount St. Helens new growth, closein, from the west-northwest.
Dome growth at the top of Mount St. Helens with vent area, and broken glacier ice, as seen from the west.
Dome growth at the top of Mount St. Helens with vent area, and broken glacier ice, as seen from the west.
Mount St. Helens dome and new uplift as seen from the south. October 2005
Mount St. Helens dome and new uplift as seen from the south. October 2005
Picking up MID9 GPS spider for final sling to Opus, on the south of the old dome.
Picking up MID9 GPS spider for final sling to Opus, on the south of the old dome.
USGS scientist (left of helicopter) collects new rock samples from the new growth on Mount St. Helens' dome.
USGS scientist (left of helicopter) collects new rock samples from the new growth on Mount St. Helens' dome.
West side of Mount St. Helens' dome (left) and steamy new growth (right).
West side of Mount St. Helens' dome (left) and steamy new growth (right).
Mount St. Helens crater floor, developing glacier (lower left), dome, and uplift with new growth, as seen from the northeast. October 2005
Mount St. Helens crater floor, developing glacier (lower left), dome, and uplift with new growth, as seen from the northeast. October 2005
Dome within Mount St. Helens' crater viewed from the west December 2004.
Dome within Mount St. Helens' crater viewed from the west December 2004.
Mount St. Helens dome and glacier uplift from the east. October 2005
Mount St. Helens dome and glacier uplift from the east. October 2005
Near-vertical view of Mount St. Helens crater, dome, and uplift with new growth, as seen from NNW.
Near-vertical view of Mount St. Helens crater, dome, and uplift with new growth, as seen from NNW.
Mount St. Helens crater, dome, and uplift with new growth, as seen from the west. October 2005
Mount St. Helens crater, dome, and uplift with new growth, as seen from the west. October 2005
Mount St. Helens dome and uplift with new growth, as seen from the west. October 2005
Mount St. Helens dome and uplift with new growth, as seen from the west. October 2005
Glacier uplift caused by intrusion of magma underneath, cracked pattern on ash-covered glacier as seen from the southwest. Mount St. Helens crater.
Glacier uplift caused by intrusion of magma underneath, cracked pattern on ash-covered glacier as seen from the southwest. Mount St. Helens crater.