Use of digital aerophotogrammetry to determine rates of lava dome growth, Mount St. Helens, Washington, 2004-2005

Steve P. Schilling; Ren A. Thompson; James A. Messerich; Eugene Y. Iwatsubo

doi:10.3133/pp17508

Use of digital aerophotogrammetry to determine rates of lava dome growth, Mount St. Helens, Washington, 2004-2005: Chapter 8 in A volcano rekindled: the renewed eruption of Mount St. Helens, 2004-2006

Professional Paper 1750-8

This report is Chapter 8 in A volcano rekindled: the renewed eruption of Mount St. Helens, 2004-2006. For more information, see: Professional Paper 1750

By: Steve P. Schilling, Ren A. Thompson, James A. Messerich, and Eugene Y. Iwatsubo

Edited by: David R. Sherrod, William E. Scott, and Peter H. Stauffer

https://doi.org/10.3133/pp17508

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Abstract

Beginning in October 2004, a new lava dome grew on the glacier-covered crater floor of Mount St. Helens, Washington, immediately south of the 1980s lava dome. Seventeen digital elevation models (DEMs) constructed from vertical aerial photographs have provided quantitative estimates of extruded lava volumes and total volume change. To extract volumetric changes and calculate volumetric extrusion rates (magma discharge rates), each DEM surface was compared to preeruption DEM reference surfaces from 1986 and 2003. Early in the 2004-5 eruption, DEMs documented deforming glacier ice and crater floor that formed a prominent “welt” having a volume of 10×10⁶ m³ and a growth rate of 8.9 m³/s before dacite lava first appeared at the surface on October 11, 2004. Afterward, the rate was initially 5.9 m³/s but slowed to 2.5 m³/s by the beginning of January 2005. During 2005, the extrusion rate declined gradually to about 0.7 m³/s. By December 15, 2005, the new dome complex was about 900 m long and 625 m wide and reached 190 m above the 2003 surface. More than 73×10⁶ m³ of dacite lava had extruded onto the crater floor. Successful application of aerophotogrammetry was possible during the critical earliest parts of the eruption because we had baseline data and photogrammetric infrastructure in place before the eruption began. The vertical aerial photographs, including the DEMs and calculations derived from them, were one of the most widely used data sets collected during the 2004-5 eruption, as evidenced in numerous contributions to this volume. These data were used to construct photogeologic maps, deformation vector fields, and profiles of the evolving dome and glacier. Extruded volumes and rates proved to be critical parameters to constrain models and hypotheses of eruption dynamics and thus helped to assess volcano hazards.

Suggested Citation

Schilling, S.P., Thompson, R.A., Messerich, J.A., and Iwatsubo, E.Y., 2008, Use of digital aerophotogrammetry to determine rates of lava dome growth, Mount St. Helens, Washington, 2004-2005: U.S. Geological Survey Professional Paper 1750-8, 23 p., https://doi.org/10.3133/pp17508.

ISSN: 2330-7102 (online)

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Additional publication details
Publication type	Report
Publication Subtype	USGS Numbered Series
Title	Use of digital aerophotogrammetry to determine rates of lava dome growth, Mount St. Helens, Washington, 2004-2005
Series title	Professional Paper
Series number	1750-8
DOI	10.3133/pp17508
Year Published	2008
Language	English
Publisher	U.S. Geological Survey
Publisher location	Reston, VA
Contributing office(s)	Volcano Hazards Program
Description	23 p.
Larger Work Type	Report
Larger Work Subtype	USGS Numbered Series
Larger Work Title	A volcano rekindled: the renewed eruption of Mount St. Helens, 2004-2006 (Professional Paper 1750)
First page	145
Last page	167
Country	United States
State	Washington
Other Geospatial	Mount St. Helens