Uri ten Brink, PhD
My research focuses on quantifying tectonic and morphological processes and their impacts on the assessments of tsunami, landslide, and earthquake hazards. I am also interested in bridging gaps between disciplines in earth sciences. I am the Project Chief of the USGS Marine Geohazards Sources and Probability Project and in charge of the USGS Ocean Bottom Seismometers.
FIELD EXPERIENCE
41 cruises (26 as chief scientist)
3 over-ice land traverses, Antarctica (co-chief scientist)
4 Airborne magnetic, land gravity, and land seismic surveys (co-chief scientist)
Professional Experience
1991-present Research geophysicist, USGS, Woods Hole Coastal and Marine Science Center
2015-2019 Editor in Chief, Journal of Geophysical Research-Solid Earth
1999-present Adjunct Scientist, The Woods Hole Oceanographic Institution
2013-2016 Professor and Chairman, Department of Marine Geosciences, University of Haifa
2016-present Affiliate Professor, University of Haifa
Education and Certifications
1981-1986 Ph.D. Geological Sciences Lamont-Doherty Earth Observatory of Columbia University
1977-1980 B.Sc. Geology and Physics, The Hebrew University, Israel
1991-1996 Consulting Associate Professor, Stanford University
1987-1991 Post-doctoral scholar, Stanford University
1986-1987 Post-doctoral scholar, Tel Aviv University
Affiliations and Memberships*
Chairman, U.S.-Israel Bi-National Science Foundation panel for Earth and Atmospheric sciences, 2015
Member - Netherlands Science Foundation panel on Caribbean natural and social sciences, 2014
Member, ITU-WMO-UNESCO/IOC Joint Task Force on Submarine Cables for Tsunami Warnings and Scientific Research, 2013
Co-convenor, Workshop on landslide tsunami probability, 2011
Member, NSF panel evaluating the management structure of the ocean bottom seismometer facilities, 2011
Guest editor- Marine Geology "Assessment of tsunami hazards to the U.S. Atlantic coast", 2009
Honors and Awards
2016 – Fellow, American Geophysical Union
2010 – Senior Scientist (ST), Federal government
2007/8 – Distinguished Lecturer – Seismological Society of America/ IRIS
1996 - Fellow, Geological Society of America
1990 - Royal Society of New Zealand annual prize for Geophysics
Science and Products
Morphotectonics of the central Muertos thrust belt and Muertos Trough (northeastern Caribbean)
Multibeam bathymetry data acquired during the 2005 Spanish R/V Hesp??rides cruise and reprocessed multichannel seismic profiles provide the basis for the analysis of the morphology and deformation in the central Muertos Trough and Muertos thrust belt. The Muertos Trough is an elongated basin developed where the Venezuelan Basin crust is thrusted under the Muertos fold-and-thrust belt. Structural v
Size distribution of submarine landslides along the U.S. Atlantic margin
Geomorphology, stability and mobility of the Currituck slide
Far field tsunami simulations of the 1755 Lisbon earthquake: Implications for tsunami hazard to the U.S. East Coast and the Caribbean
The great Lisbon earthquake of November 1st, 1755 with an estimated moment magnitude of 8.5-9.0 was the most destructive earthquake in European history. The associated tsunami run-up was reported to have reached 5-15??m along the Portuguese and Moroccan coasts and the run-up was significant at the Azores and Madeira Island. Run-up reports from a trans-oceanic tsunami were documented in the Caribbe
Bivergent thrust wedges surrounding oceanic island arcs: Insight from observations and sandbox models of the northeastern caribbean plate
At several localities around the world, thrust belts have developed on both sides of oceanic island arcs (e.g., Java-Timor, Panama, Vanuatu, and the northeastern Caribbean). In these localities, the overall vergence of the backarc thrust belt is opposite to that of the forearc thrust belt. For example, in the northeastern Caribbean, a north-verging accretionary prism lies to the north of the Easte
Submarine landslide as the source for the October 11, 1918 Mona Passage tsunami: Observations and modeling
Preliminary results of the U.S. Nuclear Regulatory Commission collaborative research program to assess tsunami hazard for nuclear power plants on the Atlantic and gulf coasts
Magnetic character of a large continental transform: an aeromagnetic survey of the Dead Sea Fault
Revisiting submarine mass movements along the U.S. Atlantic Continental Margin: Implications for tsunami hazards
Sediment compaction rates and subsidence in deltaic plains: Numerical constraints and stratigraphic influences
The Northern end of the Dead Sea Basin: Geometry from reflection seismic evidence
Submarine slides north of Puerto Rico and their tsunami potential
New multibeam bathymetry of the entire Puerto Rico trench reveals numerous retrograde slope failures at various scales at the edge of the carbonate platform north of Puerto Rico and the Virgin Islands. The slumped material comprises carbonate blocks, which fail, at least in initial stages, as a coherent rock mass. This, combined with the fact that the edge of the carbonate platform is steeper than
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
Morphotectonics of the central Muertos thrust belt and Muertos Trough (northeastern Caribbean)
Multibeam bathymetry data acquired during the 2005 Spanish R/V Hesp??rides cruise and reprocessed multichannel seismic profiles provide the basis for the analysis of the morphology and deformation in the central Muertos Trough and Muertos thrust belt. The Muertos Trough is an elongated basin developed where the Venezuelan Basin crust is thrusted under the Muertos fold-and-thrust belt. Structural v
Size distribution of submarine landslides along the U.S. Atlantic margin
Geomorphology, stability and mobility of the Currituck slide
Far field tsunami simulations of the 1755 Lisbon earthquake: Implications for tsunami hazard to the U.S. East Coast and the Caribbean
The great Lisbon earthquake of November 1st, 1755 with an estimated moment magnitude of 8.5-9.0 was the most destructive earthquake in European history. The associated tsunami run-up was reported to have reached 5-15??m along the Portuguese and Moroccan coasts and the run-up was significant at the Azores and Madeira Island. Run-up reports from a trans-oceanic tsunami were documented in the Caribbe
Bivergent thrust wedges surrounding oceanic island arcs: Insight from observations and sandbox models of the northeastern caribbean plate
At several localities around the world, thrust belts have developed on both sides of oceanic island arcs (e.g., Java-Timor, Panama, Vanuatu, and the northeastern Caribbean). In these localities, the overall vergence of the backarc thrust belt is opposite to that of the forearc thrust belt. For example, in the northeastern Caribbean, a north-verging accretionary prism lies to the north of the Easte
Submarine landslide as the source for the October 11, 1918 Mona Passage tsunami: Observations and modeling
Preliminary results of the U.S. Nuclear Regulatory Commission collaborative research program to assess tsunami hazard for nuclear power plants on the Atlantic and gulf coasts
Magnetic character of a large continental transform: an aeromagnetic survey of the Dead Sea Fault
Revisiting submarine mass movements along the U.S. Atlantic Continental Margin: Implications for tsunami hazards
Sediment compaction rates and subsidence in deltaic plains: Numerical constraints and stratigraphic influences
The Northern end of the Dead Sea Basin: Geometry from reflection seismic evidence
Submarine slides north of Puerto Rico and their tsunami potential
New multibeam bathymetry of the entire Puerto Rico trench reveals numerous retrograde slope failures at various scales at the edge of the carbonate platform north of Puerto Rico and the Virgin Islands. The slumped material comprises carbonate blocks, which fail, at least in initial stages, as a coherent rock mass. This, combined with the fact that the edge of the carbonate platform is steeper than
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
*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