Publications
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Volcanic lightning and plume behavior reveal evolving hazards during the April 2015 eruption of Calbuco volcano, Chile Volcanic lightning and plume behavior reveal evolving hazards during the April 2015 eruption of Calbuco volcano, Chile
Soon after the onset of an eruption, model forecasts of ash dispersal are used to mitigate the hazards to aircraft, infrastructure and communities downwind. However, it is a significant challenge to constrain the model inputs during an evolving eruption. Here we demonstrate that volcanic lightning may be used in tandem with satellite detection to recognize and quantify changes in...
Authors
Alexa R. Van Eaton, Alvaro Amigo, Daniel Bertin, Larry G. Mastin, Raul E Giacosa, Jeronimo Gonzalez, Oscar Valderrama, Karen Fontijn, Sonja A Behnke
Publications of the Volcano Hazards Program 2014 Publications of the Volcano Hazards Program 2014
The Volcano Hazards Program of the U.S. Geological Survey (USGS) is part of the Natural Hazards activity, as funded by Congressional appropriation. Investigations are carried out by the USGS and with cooperators at the Alaska Division of Geological and Geophysical Surveys, University of Alaska Fairbanks Geophysical Institute, University of Hawaiʻi Mānoa and Hilo, University of Utah, and...
Authors
Manuel Nathenson
Volcano deformation source parameters estimated from InSAR: Sensitivities to uncertainties in seismic tomography Volcano deformation source parameters estimated from InSAR: Sensitivities to uncertainties in seismic tomography
The eruption cycle of a volcano is controlled in part by the upward migration of magma. The characteristics of the magma flux produce a deformation signature at the Earth's surface. Inverse analyses use geodetic data to estimate strategic controlling parameters that describe the position and pressurization of a magma chamber at depth. The specific distribution of material properties...
Authors
Timothy Masterlark, Theodore Donovan, Kurt L. Feigl, Matthew M. Haney, Clifford H. Thurber, Sui Tung
Evidence for partial melt in the crust beneath Mt. Paektu (Changbaishan), Democratic People’s Republic of Korea and China Evidence for partial melt in the crust beneath Mt. Paektu (Changbaishan), Democratic People’s Republic of Korea and China
Mt. Paektu (also known as Changbaishan) is an enigmatic volcano on the border between the Democratic People’s Republic of Korea (DPRK) and China. Despite being responsible for one of the largest eruptions in history, comparatively little is known about its magmatic evolution, geochronology, or underlying structure. We present receiver function results from an unprecedented seismic...
Authors
Ri Kyong-Song, James O. S. Hammond, Ko Chol-Nam, Kim Hyok, Yun Yong-Gun, Pak Gil-Jong, Ri Chong-Song, Clive Oppenheimer, Kosima W. Liu, Kayla D. Iacovino, Ryu Kum-Ran
Erratum to Surface‐wave green’s tensors in the near field Erratum to Surface‐wave green’s tensors in the near field
Haney and Nakahara (2014) derived expressions for surface‐wave Green’s tensors that included near‐field behavior. Building on the result for a force source, Haney and Nakahara (2014) further derived expressions for a general point moment tensor source using the exact Green’s tensors. However, it has come to our attention that, although the Green’s tensors were correct, the resulting...
Authors
Matthew M. Haney, Hisashi Nakahara
An interface for simulating radiative transfer in and around volcanic plumes with the Monte Carlo radiative transfer model McArtim An interface for simulating radiative transfer in and around volcanic plumes with the Monte Carlo radiative transfer model McArtim
This report describes two software tools that, when used as front ends for the three-dimensional backward Monte Carlo atmospheric-radiative-transfer model (RTM) McArtim, facilitate the generation of lookup tables of volcanic-plume optical-transmittance characteristics in the ultraviolet/visible-spectral region. In particular, the differential optical depth and derivatives thereof (that...
Authors
Christoph Kern
Structure of the Hat Creek graben region: Implications for the structure of the Hat Creek graben and transfer of right-lateral shear from the Walker Lane north of Lassen Peak, northern California, from gravity and magnetic anomalies Structure of the Hat Creek graben region: Implications for the structure of the Hat Creek graben and transfer of right-lateral shear from the Walker Lane north of Lassen Peak, northern California, from gravity and magnetic anomalies
Interpretation of magnetic and new gravity data provides constraints on the geometry of the Hat Creek Fault, the amount of right-lateral offset in the area between Mt. Shasta and Lassen Peak, and confirmation of the influence of pre-existing structure on Quaternary faulting. Neogene volcanic rocks coincide with short-wavelength magnetic anomalies of both normal and reversed polarity...
Authors
Victoria E. Langenheim, Robert C. Jachens, Michael A. Clynne, L.J. Patrick Muffler
By
Geology, Energy, and Minerals Mission Area, Energy Resources Program, Mineral Resources Program, National Laboratories Program, Science and Decisions Center, Groundwater and Streamflow Information Program, Volcano Hazards Program, Volcano Science Center, Geology, Minerals, Energy, and Geophysics Science Center
Asthenosphere–lithosphere interactions in Western Saudi Arabia: Inferences from 3He/4He in xenoliths and lava flows from Harrat Hutaymah Asthenosphere–lithosphere interactions in Western Saudi Arabia: Inferences from 3He/4He in xenoliths and lava flows from Harrat Hutaymah
Extensive volcanic fields on the western Arabian Plate have erupted intermittently over the last 30 Ma following emplacement of the Afar flood basalts in Ethiopia. In an effort to better understand the origin of this volcanism in western Saudi Arabia, we analyzed3He/4He, and He, CO2 and trace element concentrations in minerals separated from xenoliths and lava flows from Harrat Hutaymah
Authors
Kevin Konrad, David W. Graham, Carl Thornber, Robert A. Duncan, Adam J. R. Kent, Abdulla Al-Amri
Dome growth at Mount Cleveland, Aleutian Arc, quantified by time-series TerraSAR-X imagery Dome growth at Mount Cleveland, Aleutian Arc, quantified by time-series TerraSAR-X imagery
Synthetic aperture radar imagery is widely used to study surface deformation induced by volcanic activity; however, it is rarely applied to quantify the evolution of lava domes, which is important for understanding hazards and magmatic system characteristics. We studied dome formation associated with eruptive activity at Mount Cleveland, Aleutian Volcanic Arc, in 2011–2012 using TerraSAR...
Authors
Teng Wang, Michael P. Poland, Zhong Lu
Post-eruptive inflation of Okmok Volcano, Alaska, from InSAR, 2008–2014 Post-eruptive inflation of Okmok Volcano, Alaska, from InSAR, 2008–2014
Okmok, a ~10-km wide caldera that occupies most of the northeastern end of Umnak Island, is one of the most active volcanoes in the Aleutian arc. The most recent eruption at Okmok during July-August 2008 was by far its largest and most explosive since at least the early 19th century. We investigate post-eruptive magma supply and storage at the volcano during 2008–2014 by analyzing all...
Authors
Feifei Qu, Zhong Lu, Michael P. Poland, Jeffrey T. Freymueller, Qin Zhang, Hyung-Sup Jung
The 2014-2015 Pāhoa lava flow crisis at Kīlauea Volcano, Hawai‘i: Disaster avoided and lessons learned The 2014-2015 Pāhoa lava flow crisis at Kīlauea Volcano, Hawai‘i: Disaster avoided and lessons learned
Lava flow crises are nothing new on the Island of Hawai‘i, where their destructive force has been demonstrated repeatedly over the past several hundred years. The 2014–2015 Pāhoa lava flow crisis, however, was unique in terms of its societal impact and volcanological characteristics. Despite low effusion rates, a long-lived lava flow whose extent reached 20 km (the longest at Kīlauea...
Authors
Michael P. Poland, Tim R. Orr, James P. Kauahikaua, Steven R. Brantley, Janet L. Babb, Matthew R. Patrick, Christina A. Neal, Kyle R. Anderson, Loren Antolik, Matthew K. Burgess, Tamar Elias, Steven Fuke, Pauline Fukunaga, Ingrid A. Johanson, Marian Kagimoto, Kevan P. Kamibayashi, Lopaka Lee, Asta Miklius, William Million, Cyril J. Moniz, Paul G. Okubo, Andrew Sutton, T. Jane Takahashi, Weston A. Thelen, Willam Tollett, Frank A. Trusdell
Dimensionless erosion laws for cohesive sediment Dimensionless erosion laws for cohesive sediment
A method of achieving a dimensionless collapse of erosion-rate data for cohesive sediments is proposed and shown to work well for data collected in flume-erosion tests on mixtures of sand and mud (silt plus clay sized particles) for a wide range of mud fraction. The data collapse corresponds to a dimensional erosion law of the form E∼(τ−τc)mE∼(τ−τc)m, where EE is erosion rate, ττ is...
Authors
Joseph S. Walder