Using Geodetic Rates in Seismic Hazard Mapping March 30, 20011 Geodetic and Geologic slip rate estimates for earthquake hazard assessment in Southern California.

Slides:

Advertisements

Similar presentations

The Community Geodetic Model (CGM): What is it and how does it relate to studies of lithospheric rheology? Jessica Murray, David Sandwell, and Rowena Lohman.

Advertisements

Long-term rates and the depth extent of fault creep along the San Andreas Fault system in northern California from alinement arrays and GPS data James.

Science ~ chapter 6 volcanoes

Slip Rate Studies Along the Sierra Madre-Cucamonga Fault System Using Geomorphic and 10 Be Cosmogenic Surface Exposure Age Constraints.

Plate Tectonics & how plates work. Transform boundary also called a conservative boundary Two tectonic plates slide past one another Convection currents.

Pent-up stress puts ‘the squeeze’ on Los Angeles Ken Hudnut U. S. Geological Survey Pasadena Office This presentation will probably involve audience discussion,

Active Folding within the L.A. Basin with a focus on: Argus et al. (2005), Interseismic strain accumulation and anthropogenic motion in metropolitan Los.

Faults in Focus: Earthquake Science Accomplishments Thomas H. Jordan Director, Southern California Earthquake Cente r 28 February 2014.

Sally McGill California State University, San Bernardino

Advances in GPS and Imagery Differencing for Observing Vertical Changes and for Restoration of Geodetic Infrastructure After Major Earthquakes April 29,

Southern California Integrated GPS Network (SCIGN) Kenneth W. Hudnut U. S. Geological Survey This presentation will probably involve audience discussion,

Spatial Reference Networks in California Kenneth W. Hudnut U. S. Geological Survey This presentation will probably involve audience discussion, which.

1 Southern California Integrated GPS Network Ken Hudnut USGS League of California Surveying Organizations April 5, 2001.

Quaternary convergence rate across the Sunland fault and related folds, near Sunland, California Shelby Dawson Department of Geological Sciences California.

Southern California Integrated GPS Network (SCIGN)

Earthquakes and Deformation of the Crust 1. 2 Deformation of the Crust Stress –Force that causes pressure in the rocks of the earth’s crust Strain –Change.

TOPIC 2: How does the challenge of predicting hazards differ between earthquakes - at plate boundaries -In plate boundary zones -within plates?

Why North China is seismically active while South China remains largely aseismic? Youqing Yang & Mian Liu, Dept. of geol. University of Missouri-Columbia.

Earthquakes recorded in the landscape: Using digital topography to investigate earthquake faulting Christopher Crosby GEON / Arizona State University SDSC.

SCEC - EarthScope (PBO) a confluence of interests Ken Hudnut U. S. Geological Survey, Pasadena.

Kenneth W. Hudnut U. S. Geological Survey Pasadena, California Southern California Earthquake Center --- Workshop on Tectonophysics of Southern California.

UseIT Tutorial # 3 Earthquakes in the Southern California Fault System Tom Jordan June 16, 2011.

Types of Plate Boundaries in California The Great California ShakeOut.

Near-Field Modeling of the 1964 Alaska Tsunami: A Source Function Study Elena Suleimani, Natalia Ruppert, Dmitry Nicolsky, and Roger Hansen Alaska Earthquake.

Roland Burgmann and Georg Dresen

NA-Pa Plate Boundary Wilson [1960] USGS Prof. Paper 1515.

MT 6: CALIFORNIA GEOLOGY LT 1: Natural Hazards. Why are we studying CA Geology? We live in California and it is a state standard. California has major,

Paleoseismic and Geologic Data for Earthquake Simulations Lisa B. Grant and Miryha M. Gould.

S OUTHERN C ALIFORNIA E ARTHQUAKE C ENTER Data collection, synthesis, and products Kenneth W. Hudnut U. S. Geological Survey SCEC 2000 Meeting SCEC Highlights.

SISMA Seismic Information System for Monitoring and Alert Galileian Plus Dipartimento di Scienze della Terra, Università di Milano, Italy Politecnico di.

Seismic Hazard Assessment for the Kingdom of Saudi Arabia

A strong quake measuring 7.3 struck offshore from the Central American country of Honduras early Thursday. This earthquake killed at least six people,

Lisa Wald USGS Pasadena U.S. Department of the Interior U.S. Geological Survey USGS Earthquake Hazards Program Earthquakes 101 (EQ101)

GEO 6950 Reviews in Earth Science, Fall 2011 Topic 2 Tectonics of Western North America 11. San Andreas Fault System Carrie Welker and Alex Turner.

Geologic hazards & space geodesy part 1: Introduction.

Part 8: Fold Types. Tensional Stress Compressive Stress Shear Stress Orientation of stress leads to different folds.

National Seismic Hazard Maps and Uniform California Earthquake Rupture Forecast 1.0 National Seismic Hazard Mapping Project (Golden, CO) California Geological.

Today’s Schedule: HAZARD UPDATE! Review Lecture 3 XXXX Earthquakes (cont.) Stress and Strain (energy transfer) Elastic (bounces back) vs. Plastic (stays.

Lessons from SCIGN and BARGEN Ken Hudnut & Brian Wernicke USGS/Caltech This presentation will probably involve audience discussion, which will create action.

Deformation Analysis in the North American Plate’s Interior Calais E, Purdue University, West Lafayette, IN, Han JY,

NE Caribbean and Hispaniola = major plate boundary, 2 cm/yr relative motion Strike-slip + convergence partitioned between 3 major fault systems Apparent.

Blue – comp red - ext. blue – comp red - ext blue – comp red - ext.

The deformation in the Plate Boundary zones Shear Zone : San Andreas - Frédéric Flerit.

Earthquakes! An earthquake, or seismic event, is a sudden movement of Earth’s crust that releases energy.

Attempting to Reconcile Holocene And Long-Term Seismicity Rates in the New Madrid Seismic Zone Mark Zoback – Stanford University NASA World Wind looking.

Jayne Bormann and Bill Hammond sent two velocity fields on a uniform grid constructed from their test exercise using CMM4. Hammond ’ s code.

Using GPS and InSAR to study tectonics, deformation, and earthquakes GPS displacements, velocities (and transients) InSAR displacements.

Yuehua Zeng & Wayne Thatcher U. S. Geological Survey

U.S. Department of the Interior U.S. Geological Survey The Earthquake is Inevitable: The Disaster is Not.

Learning about: The Great Southern California ShakeOut November 13, 2008 A Teachable Moment.

The influence of the geometry of the San Andreas fault system on earthquakes in California Qingsong Li and Mian Liu Geological Sciences, 101 Geol. Bldg.,

 Transform (Fault) Boundaries Date Activity Page 5/26 Transform (Fault) Boundaries.

Can we forecast an Earthquake??? In the next minute there will be an earthquake somewhere in the world! This sentence is correct (we have seen that there.

A GPS-based view of New Madrid earthquake hazard Seth Stein, Northwestern University Uncertainties permit wide range (3X) of hazard models, some higher.

Earthquakes 101 (EQ101) Lisa Wald USGS Earthquake Hazards Program

Earthquakes and crustal Deformation - Objectives of class- Introduce a variety of techniques to describe ‘quantitatively’ deformation of the lithosphere.

Earthquakes Stress Relief. Earthquakes & Plate Tectonics Rocks break & move along surfaces called faults Rocks break & move along surfaces called faults.

Earthquakes USGS Earthquake Hazards Program Earthquake Basics

Motion of Bering Plate? Jeff Freymueller.

How were the San Gabriel Mountains Uplifted?

Velocities in ITRF – not appropriate for interpretation

By: Andrea Jimeno Martinez 4ºA

SAN ANDREAS FAULT San Francisco Bay Area North American plate

Earthquakes and crustal Deformation - Objectives of class-

Using Google Earth to Explore Strain Rate Models of Southern California Glenn A. Richard - Mineral Physics Institute, Stony Brook University, Stony Brook,

LA Basin Story Tectonics Geology Faults Velocity Structure Seismicity

Deforming Earth’s Crust

Earthquakes Vocab.

Plate Tectonics Tectonic plates are blocks of lithosphere that consist of the crust and the rigid, outermost part of the mantle and glide across the.

San Andreas Fault Images

Presentation transcript:

Using Geodetic Rates in Seismic Hazard Mapping March 30, Geodetic and Geologic slip rate estimates for earthquake hazard assessment in Southern California Ken Hudnut USGS March 30, 2001 University of Utah

Using Geodetic Rates in Seismic Hazard Mapping March 30, North American and Pacific plate relative motions - is it 52 or 56 mm/yr? San Andreas fault zone - is it 22 mm/yr or 34 mm/yr along the Mojave segment? Eastern California Shear Zone –Estimated rates range between 6 and 12 mm/yr (geological & geodetic) –Is this difference in rates real? –Does it indicate elevated strain rate during a clustering of seismic (and aseismic) events? –Is the ECSZ energetically ‘easier’ than the Big Bend? Different path integrals yield differences Measuring rates by geology or geodesy are both difficult and prone to pitfalls

Using Geodetic Rates in Seismic Hazard Mapping March 30, SCEC crustal motion map Combined EDM, VLBI, survey-mode and continuous GPS rigorously Released as a SCEC product Set the bar very high for the SCIGN project

Using Geodetic Rates in Seismic Hazard Mapping March 30, SCEC Crustal Motion Map - Version GPS vectors added for a total of 678 vectors (version 2 had 363 vectors) Early SCIGN site velocities now included Version 3 will include time series for all stations

Using Geodetic Rates in Seismic Hazard Mapping March 30, Generalized fault map of southern California with known slip rates circa 1990 from Tom Rockwell’s SCEC2 talk

Using Geodetic Rates in Seismic Hazard Mapping March 30, Effects of lower crust viscosity on geodetic velocity field Weak lower crust => large variations in time Strong lower crust early late Borrowed from Brad Hager’s SCEC2 talk ‘Spectacular’ Agreement In Carrizo Plain Rates may disagree the most where the lower crust is the weakest…

Using Geodetic Rates in Seismic Hazard Mapping March 30, Examples of differences in rate Garlock fault –Geologic rate 7 +/- 2 mm/yr –Geodetic rate 2 +/- 2 mm/yr –Geodesy weak lower crust Eastern California Shear Zone –Geologic rate summed over all faults is ~6 mm/yr –Geodetic rate across ECSZ is ~10–12 mm/yr –Geodesy > Geology => clustering or new higher tectonic rate? Imperial Valley –Geologic rate of 20 mm/yr –Geodetic rate across valley of ~50 mm/yr => missing a major fault? Sierra Madre – Cucamonga fault zone –Geologic rate of 0.5 mm/yr –Geodetic rate of a Raymond fault –Geologic rate of mm/yr –Geodetic rate of b a + b ~ 6-8 mm/yr

Using Geodetic Rates in Seismic Hazard Mapping March 30, Conclusions In the past decade, our understanding of rates has changed quite radically in So. Calif. – both in terms of geodetic and geologic estimates Where we now think there are differences, it is important to confirm the observations and then attempt to explain the differences Possible to explain these differences in a variety of ways –Bad data (e.g., missing a fault, off-fault deformation, etc.) –Bad modelling (e.g., dipping fault & layered structure, or variable strength modelled as elastic half-space) –Weak lower crust or strong lower crust (earthquake cycle) Hypothesis testing approach needed where rates differ Don’t assume geologic rate to be correct as a default position