Peter J Haeussler, Ph.D. (Former Employee)
Science and Products
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Combined high-resolution LIDAR topography and multibeam bathymetry for northern Resurrection Bay, Seward, Alaska Combined high-resolution LIDAR topography and multibeam bathymetry for northern Resurrection Bay, Seward, Alaska
A new Digital Elevation Model was created using the best available high-resolution topography and multibeam bathymetry surrounding the area of Seward, Alaska. Datasets of (1) LIDAR topography collected for the Kenai Watershed Forum, (2) Seward harbor soundings from the U.S. Army Corp of Engineers, and (3) multibeam bathymetry from the National Oceanic and Atmospheric Administration...
Authors
Keith A. Labay, Peter Haeussler
Neogene exhumation of the Tordrillo Mountains, Alaska, and correlations with Denali (Mount McKinley) Neogene exhumation of the Tordrillo Mountains, Alaska, and correlations with Denali (Mount McKinley)
No abstract available.
Authors
Peter J. Haeussler, Paul O’Sullivan, Aaron L Berger, James Spotila
Geological and geophysical evaluation of the mechanisms of the great 1899 Yakutat Bay earthquakes Geological and geophysical evaluation of the mechanisms of the great 1899 Yakutat Bay earthquakes
We have used tectonic, geologic, and seismologic observations to reevaluate the mechanisms and seismotectonic significance of the two great (Mw = 8.1 and 8.2) September 1899 Yakutat Bay earthquakes. In their comprehensive study of these earthquakes between 1905 and 1910, Tarr and Martin (1912) showed that these events were accompanied by shoreline changes in Yakutat Bay that ranged from...
Authors
George Plafker, Wayne Thatcher
Paleoseismicity and neotectonics of the Aleutian subduction zone — An overview Paleoseismicity and neotectonics of the Aleutian subduction zone — An overview
The Aleutian subduction zone is one of the most seismically active plate boundaries and the source of several of the world’s largest historic earthquakes. The structural architecture of the subduction zone varies considerably along its length. At the eastern end is a tectonically complex collision zone where the allochthonous Yakutat terrane is moving northwest into mainland Alaska. West...
Authors
Gary Carver, George Plafker
Does a boundary of the Wrangell Block extend through southern Cook Inlet and Shelikof Strait, Alaska? Does a boundary of the Wrangell Block extend through southern Cook Inlet and Shelikof Strait, Alaska?
In southcentral Alaska, the boundaries of two different tectonic blocks extend southwestward from the Denali Fault toward Cook Inlet and Shelikof Strait. We use offshore multichannel seismic reflection data and oil-well stratigraphy to evaluate whether local geologic structures are compatible with boundaries of either tectonic block and with the relative motion expected across the block...
Authors
Michael Fisher, Ray Sliter, Florence Wong
Toward a time-dependent probabilistic seismic hazard analysis for Alaska Toward a time-dependent probabilistic seismic hazard analysis for Alaska
We report on a time-dependent seismic hazard analysis for Alaska and the Aleutians to complement our recently completed time-independent map. Whereas the time-independent map treats all sources as statistically independent, the time-dependent analysis is based on calculations of the conditional probability of occurrence for the next 50 years by using a Brownian Passage Time model for the...
Authors
Oliver Boyd, Yuehua Zeng, Charles Bufe, Robert Wesson, Frederick Pollitz, Jeanne Hardebeck
3D Visualization of Earthquake Focal Mechanisms Using ArcScene 3D Visualization of Earthquake Focal Mechanisms Using ArcScene
We created a new tool, 3D Focal Mechanisms (3DFM), for viewing earthquake focal mechanism symbols three dimensionally. This tool operates within the Environmental Systems Research Institute (ESRI®) GIS software ArcScene® 9.x. The program requires as input a GIS point dataset of earthquake locations containing strike, dip, and rake values for a nodal plane of each earthquake. Other...
Authors
Keith A. Labay, Peter Haeussler
Reassessment of seismically induced, tsunamigenic submarine slope failures in Port Valdez, Alaska, USA Reassessment of seismically induced, tsunamigenic submarine slope failures in Port Valdez, Alaska, USA
The M9.2 Alaska earthquake of 1964 caused major damage to the port facilities and town of Valdez, most of it the result of submarine landslide and the consequent tsunamis. Recent bathymetric multibeam surveys, high-resolution subbottom profiles, and dated sediment cores in Port Valdez supply new information about the morphology and character of the landslide deposits. A comparison of pre...
Authors
H.J. Lee, H. Ryan, Peter Haeussler, R. Kayen, M. Hampton, Jacques Locat, E. Suleimani, C. Alexander
Submarine slope failures near Seward, Alaska, during the M9.2 1964 earthquake Submarine slope failures near Seward, Alaska, during the M9.2 1964 earthquake
Following the 1964 M9.2 megathrust earthquake in southern Alaska, Seward was the only town hit by tsunamis generated from both submarine landslides and tectonic sources. Within 45 seconds of the start of the earthquake, a 1.2-km-long section of waterfront began sliding seaward, and soon after, ~6-8-m high waves inundated the town. Studies soon after the earthquake concluded that...
Authors
Peter Haeussler, H.J. Lee, H. Ryan, Keith A. Labay, R. Kayen, M. Hampton, E. Suleimani
Holocene slip rate for the western segment of the Castle Mountain fault, Alaska Holocene slip rate for the western segment of the Castle Mountain fault, Alaska
The western segment of the Castle Mountain fault poses a significant seismic hazard to the most populated region of south-central Alaska. We identify a previously unrecognized margin of a postglacial outwash channel that is offset right laterally 36 ± 4 m across the western segment of the Castle Mountain fault. This offset occurred after glaciers withdrew from the lowland 11,300–15,380...
Authors
J.B. Willis, Peter Haeussler, R.L. Bruhn, G.C. Willis
Holocene slip rate and revised characteristic earthquake parameters for the western segment of the Castle Mountain fault, Alaska Holocene slip rate and revised characteristic earthquake parameters for the western segment of the Castle Mountain fault, Alaska
The western segment of the Castle Mountain fault poses a significant seismic hazard to the most populated region of south-central Alaska. We identify a previously unrecognized margin of a postglacial outwash channel that is offset right laterally 36 ± 4 m across the western segment of the Castle Mountain fault. This offset occurred after glaciers withdrew from the lowland 11,300–15,380...
Authors
Julie Willis, Peter Haeussler, Ronald Bruhn, Grant Willis
Studies by the U.S. Geological Survey in Alaska, 2005 Studies by the U.S. Geological Survey in Alaska, 2005
Summary The collection of papers that follows continues the series of U.S. Geological Survey (USGS) investigative reports in Alaska under the broad umbrella of the geologic sciences. This series represents new and sometimes-preliminary findings that are of interest to Earth scientists in academia, government, and industry; to land and resource managers; and to the general public. The...
Authors
David W. Houseknecht, Kenneth J. Bird, Michelle L. Coombs, Christina A. Neal, Rick L. Wessels, Robert G. McGimsey, John F. Slack, W.C. Pat Shanks, Susan M. Karl, Pamela A. Gemery, Peter E. Bittenbender, W. Ian Ridley, W. Matthew Burns, Daniel O. Hayba, Elisabeth L. Rowan, Robert A. Ayuso, Peter J. Haeussler, Gregory A. Wandless, Anna Colvin
Science and Products
Filter Total Items: 25
No Result Found
Filter Total Items: 150
Combined high-resolution LIDAR topography and multibeam bathymetry for northern Resurrection Bay, Seward, Alaska Combined high-resolution LIDAR topography and multibeam bathymetry for northern Resurrection Bay, Seward, Alaska
A new Digital Elevation Model was created using the best available high-resolution topography and multibeam bathymetry surrounding the area of Seward, Alaska. Datasets of (1) LIDAR topography collected for the Kenai Watershed Forum, (2) Seward harbor soundings from the U.S. Army Corp of Engineers, and (3) multibeam bathymetry from the National Oceanic and Atmospheric Administration...
Authors
Keith A. Labay, Peter Haeussler
Neogene exhumation of the Tordrillo Mountains, Alaska, and correlations with Denali (Mount McKinley) Neogene exhumation of the Tordrillo Mountains, Alaska, and correlations with Denali (Mount McKinley)
No abstract available.
Authors
Peter J. Haeussler, Paul O’Sullivan, Aaron L Berger, James Spotila
Geological and geophysical evaluation of the mechanisms of the great 1899 Yakutat Bay earthquakes Geological and geophysical evaluation of the mechanisms of the great 1899 Yakutat Bay earthquakes
We have used tectonic, geologic, and seismologic observations to reevaluate the mechanisms and seismotectonic significance of the two great (Mw = 8.1 and 8.2) September 1899 Yakutat Bay earthquakes. In their comprehensive study of these earthquakes between 1905 and 1910, Tarr and Martin (1912) showed that these events were accompanied by shoreline changes in Yakutat Bay that ranged from...
Authors
George Plafker, Wayne Thatcher
Paleoseismicity and neotectonics of the Aleutian subduction zone — An overview Paleoseismicity and neotectonics of the Aleutian subduction zone — An overview
The Aleutian subduction zone is one of the most seismically active plate boundaries and the source of several of the world’s largest historic earthquakes. The structural architecture of the subduction zone varies considerably along its length. At the eastern end is a tectonically complex collision zone where the allochthonous Yakutat terrane is moving northwest into mainland Alaska. West...
Authors
Gary Carver, George Plafker
Does a boundary of the Wrangell Block extend through southern Cook Inlet and Shelikof Strait, Alaska? Does a boundary of the Wrangell Block extend through southern Cook Inlet and Shelikof Strait, Alaska?
In southcentral Alaska, the boundaries of two different tectonic blocks extend southwestward from the Denali Fault toward Cook Inlet and Shelikof Strait. We use offshore multichannel seismic reflection data and oil-well stratigraphy to evaluate whether local geologic structures are compatible with boundaries of either tectonic block and with the relative motion expected across the block...
Authors
Michael Fisher, Ray Sliter, Florence Wong
Toward a time-dependent probabilistic seismic hazard analysis for Alaska Toward a time-dependent probabilistic seismic hazard analysis for Alaska
We report on a time-dependent seismic hazard analysis for Alaska and the Aleutians to complement our recently completed time-independent map. Whereas the time-independent map treats all sources as statistically independent, the time-dependent analysis is based on calculations of the conditional probability of occurrence for the next 50 years by using a Brownian Passage Time model for the...
Authors
Oliver Boyd, Yuehua Zeng, Charles Bufe, Robert Wesson, Frederick Pollitz, Jeanne Hardebeck
3D Visualization of Earthquake Focal Mechanisms Using ArcScene 3D Visualization of Earthquake Focal Mechanisms Using ArcScene
We created a new tool, 3D Focal Mechanisms (3DFM), for viewing earthquake focal mechanism symbols three dimensionally. This tool operates within the Environmental Systems Research Institute (ESRI®) GIS software ArcScene® 9.x. The program requires as input a GIS point dataset of earthquake locations containing strike, dip, and rake values for a nodal plane of each earthquake. Other...
Authors
Keith A. Labay, Peter Haeussler
Reassessment of seismically induced, tsunamigenic submarine slope failures in Port Valdez, Alaska, USA Reassessment of seismically induced, tsunamigenic submarine slope failures in Port Valdez, Alaska, USA
The M9.2 Alaska earthquake of 1964 caused major damage to the port facilities and town of Valdez, most of it the result of submarine landslide and the consequent tsunamis. Recent bathymetric multibeam surveys, high-resolution subbottom profiles, and dated sediment cores in Port Valdez supply new information about the morphology and character of the landslide deposits. A comparison of pre...
Authors
H.J. Lee, H. Ryan, Peter Haeussler, R. Kayen, M. Hampton, Jacques Locat, E. Suleimani, C. Alexander
Submarine slope failures near Seward, Alaska, during the M9.2 1964 earthquake Submarine slope failures near Seward, Alaska, during the M9.2 1964 earthquake
Following the 1964 M9.2 megathrust earthquake in southern Alaska, Seward was the only town hit by tsunamis generated from both submarine landslides and tectonic sources. Within 45 seconds of the start of the earthquake, a 1.2-km-long section of waterfront began sliding seaward, and soon after, ~6-8-m high waves inundated the town. Studies soon after the earthquake concluded that...
Authors
Peter Haeussler, H.J. Lee, H. Ryan, Keith A. Labay, R. Kayen, M. Hampton, E. Suleimani
Holocene slip rate for the western segment of the Castle Mountain fault, Alaska Holocene slip rate for the western segment of the Castle Mountain fault, Alaska
The western segment of the Castle Mountain fault poses a significant seismic hazard to the most populated region of south-central Alaska. We identify a previously unrecognized margin of a postglacial outwash channel that is offset right laterally 36 ± 4 m across the western segment of the Castle Mountain fault. This offset occurred after glaciers withdrew from the lowland 11,300–15,380...
Authors
J.B. Willis, Peter Haeussler, R.L. Bruhn, G.C. Willis
Holocene slip rate and revised characteristic earthquake parameters for the western segment of the Castle Mountain fault, Alaska Holocene slip rate and revised characteristic earthquake parameters for the western segment of the Castle Mountain fault, Alaska
The western segment of the Castle Mountain fault poses a significant seismic hazard to the most populated region of south-central Alaska. We identify a previously unrecognized margin of a postglacial outwash channel that is offset right laterally 36 ± 4 m across the western segment of the Castle Mountain fault. This offset occurred after glaciers withdrew from the lowland 11,300–15,380...
Authors
Julie Willis, Peter Haeussler, Ronald Bruhn, Grant Willis
Studies by the U.S. Geological Survey in Alaska, 2005 Studies by the U.S. Geological Survey in Alaska, 2005
Summary The collection of papers that follows continues the series of U.S. Geological Survey (USGS) investigative reports in Alaska under the broad umbrella of the geologic sciences. This series represents new and sometimes-preliminary findings that are of interest to Earth scientists in academia, government, and industry; to land and resource managers; and to the general public. The...
Authors
David W. Houseknecht, Kenneth J. Bird, Michelle L. Coombs, Christina A. Neal, Rick L. Wessels, Robert G. McGimsey, John F. Slack, W.C. Pat Shanks, Susan M. Karl, Pamela A. Gemery, Peter E. Bittenbender, W. Ian Ridley, W. Matthew Burns, Daniel O. Hayba, Elisabeth L. Rowan, Robert A. Ayuso, Peter J. Haeussler, Gregory A. Wandless, Anna Colvin
*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government