Malcolm J. S. Johnston
The focus of my research has been on the mechanics of failure of active faults and volcanoes.
My research focuses on the physical processes occurring prior to, during, and following earthquakes and volcanic eruptions and their implications in observations of ground displacement, strain, tilt, electric and magnetic fields using data from state-of-the-art borehole instrumentation. These data show the details of aseismic fault failure, preseismic, coseismic and postseismic deformation, earthquake nucleation, volcanic deformation and volcanic processes. Theoretical modeling of these processes suggests testable physical explanations in term of physics of failure, the role of fluids in the crust, strain redistribution, and likely properties of fault zone materials. Very near-field data on slow slip, earthquakes and dynamic rupture were obtained in fault zones at 3.6 km depth in South Africa, a few 10’s of meters from earthquakes from M=-4.5 to M=2.
Professional Experience
Research Geophysicist Emeritus - U.S. Geological Survey
1970-1972: Assistant Professor, Dept. Geology and Mineralogy, University of Michigan
1972: Visiting Lecturer (Assist Prof.), Department of Physics, University of Newcastle, England
1991-1996: Consulting Professor, Dept. of Geophysics, Stanford University
1983-Visiting Professor, University of Trieste, Trieste, Italy
1972-2013: Project Chief/Research Geophysicist U.S. Geological Survey, Menlo Park, CA
1979–1999: Visiting Scientist, US/China Exchange Program, Continuous Magnetic Field and Geodetic Arrays Along Active Faults in Yunnan and Near Beijing, China
2002: Visiting Scientist, Hawaii Volcano Observatory
Education and Certifications
Ph.D. (1970) Geophysics/Physics, University of Queensland, Australia
B.Sc(Hons) (1967) Physics/Geophysics, University of Queensland, Australia
B.Sc. (1965) Physics, University of Queensland, Australia
Affiliations and Memberships*
2001-present: Co-chairman and Executive Committee of International Union of Geology and Geophysics (IUGG) Working Group on Electromagnetic Studies of Earthquakes and Volcanoes (EMSEV)
1996 - Fellow, Japanese Society for Promotion of Science (JSPS), University of Tokyo
Science and Products
Filter Total Items: 70
Local magnetic field measurements, fault creep observations and local earthquakes on the San Andreas fault Local magnetic field measurements, fault creep observations and local earthquakes on the San Andreas fault
Simultaneous records of local variations in magnetic field, fault creep and the occurrence times of local earthquakes have been obtained for the period early 1974 through mid-1977 along the San Andreas fault between the most southern extent of the 1906 earthquake fault break and the most northern extent of the 1857 break. The data utilized are primarily from stations located near the two...
Authors
M.J.S. Johnston, B.E. Smith, Robert Mueller
Continuous tilt, strain, and magnetic field measurements near four earthquakes (ML = 3.6 to 3.8) on the San Andreas fault, California Continuous tilt, strain, and magnetic field measurements near four earthquakes (ML = 3.6 to 3.8) on the San Andreas fault, California
Four moderate earthquakes (M = 3.6 to 3.8) have occurred on the San Andreas fault in central California since October, 1977. These earthquakes are the first since 1974 to occur at this magnitude level within the array of tilt, strain, and magnetic instruments between Chalome (35.726N, 12.249 W) and San Francisco (37.79N, 122.23W) shown in Figure 1. They offer, therefore, one of the few
Authors
M.J.S. Johnston, A.C. Jones, C.E. Mortensen, B.E. Smith
A multi-channel digital telemetry system for low frequency geophysical data A multi-channel digital telemetry system for low frequency geophysical data
No abstract available.
Authors
J. Roger, M.J.S. Johnston, C. Mortensen, G. Myren
USGS tiltmeter networks: operation and maintenance USGS tiltmeter networks: operation and maintenance
No abstract available.
Authors
Carl Mortensen, E.Y. Iwatsubo, M.J.S. Johnston, G.D. Myren, V.G. Keller, T.L. Murray
Normal electromagnetic variations, tectono-magnetic effects, earthquakes, and animal behavior Normal electromagnetic variations, tectono-magnetic effects, earthquakes, and animal behavior
No abstract available.
Authors
Malcolm Johnston
On simultaneous tilt and creep observations on the San Andreas Fault On simultaneous tilt and creep observations on the San Andreas Fault
THE installation of an array of tiltmeters along the San Andreas Fault1 has provided an excellent opportunity to study the amplitude and spatial scale of the tilt fields associated with fault creep. We report here preliminary results from, and some implications of, a search for interrelated surface tilts and creep event observations at four pairs of tiltmeters and creepmeters along an...
Authors
M.J.S. Johnston, S. McHugh, S. Burford
A magnetic method for determining the geometry of hydraulic fractures A magnetic method for determining the geometry of hydraulic fractures
We propose a method that may be used to determine the spatial orientation of the fracture plane developed during hydraulic fracture. In the method, magnetic particles are injected into the crack with the fracturing fluid so as to generate a sheet of magnetized material. Since the magnetization of a body with extreme dimension ratios, such as a crack, exceeds that of an equidimensional...
Authors
J.D. Byerlee, M.J.S. Johnston
The nature of surface tilt along 85 km of the San Andreas fault-preliminary results form a 14-instrument array The nature of surface tilt along 85 km of the San Andreas fault-preliminary results form a 14-instrument array
The continuous monitoring of surface deformation near active faults is clearly necessary for an understanding of elastic strain accumulation and elastic and anelastic strain release associated with earthquakes. Fourteen 2-component tiltmeters have been installed in shallow boreholes along 85 km of the currently most active section of the San Andreas fault in the western United States...
Authors
C.E. Mortensen, M.J.S. Johnston
Preliminary results from a search for regional tectonomagnetic effects in California and western Nevada Preliminary results from a search for regional tectonomagnetic effects in California and western Nevada
Physical theory and laboratory experiments both indicate that tectonomagnetic effects in seismically active areas should be detected with highly sensitive drift-free differential magnetometers. By using a pair of synchronized 0.25 7 absolute magnetometers to measure precisely field differences between 70 adjacent sites with a 10–15 km separation, more than 1,000 km of faults in...
Authors
M.J.S. Johnston
Tilt precursors before earthquakes on the San Andreas fault, California Tilt precursors before earthquakes on the San Andreas fault, California
An array of 14 biaxial shallow-borehole tiltmeters (at 10-7 radian sensitivity) has been installed along 85 kilometers of the San Andreas fault during the past year. Earthquake-related changes in tilt have been simultaneously observed on up to four independent instruments. At earthquake distances greater than 10 earthquake source dimensions, there are few clear indications of tilt change...
Authors
M.J.S. Johnston, C.E. Mortensen
Science and Products
Filter Total Items: 70
Local magnetic field measurements, fault creep observations and local earthquakes on the San Andreas fault Local magnetic field measurements, fault creep observations and local earthquakes on the San Andreas fault
Simultaneous records of local variations in magnetic field, fault creep and the occurrence times of local earthquakes have been obtained for the period early 1974 through mid-1977 along the San Andreas fault between the most southern extent of the 1906 earthquake fault break and the most northern extent of the 1857 break. The data utilized are primarily from stations located near the two...
Authors
M.J.S. Johnston, B.E. Smith, Robert Mueller
Continuous tilt, strain, and magnetic field measurements near four earthquakes (ML = 3.6 to 3.8) on the San Andreas fault, California Continuous tilt, strain, and magnetic field measurements near four earthquakes (ML = 3.6 to 3.8) on the San Andreas fault, California
Four moderate earthquakes (M = 3.6 to 3.8) have occurred on the San Andreas fault in central California since October, 1977. These earthquakes are the first since 1974 to occur at this magnitude level within the array of tilt, strain, and magnetic instruments between Chalome (35.726N, 12.249 W) and San Francisco (37.79N, 122.23W) shown in Figure 1. They offer, therefore, one of the few
Authors
M.J.S. Johnston, A.C. Jones, C.E. Mortensen, B.E. Smith
A multi-channel digital telemetry system for low frequency geophysical data A multi-channel digital telemetry system for low frequency geophysical data
No abstract available.
Authors
J. Roger, M.J.S. Johnston, C. Mortensen, G. Myren
USGS tiltmeter networks: operation and maintenance USGS tiltmeter networks: operation and maintenance
No abstract available.
Authors
Carl Mortensen, E.Y. Iwatsubo, M.J.S. Johnston, G.D. Myren, V.G. Keller, T.L. Murray
Normal electromagnetic variations, tectono-magnetic effects, earthquakes, and animal behavior Normal electromagnetic variations, tectono-magnetic effects, earthquakes, and animal behavior
No abstract available.
Authors
Malcolm Johnston
On simultaneous tilt and creep observations on the San Andreas Fault On simultaneous tilt and creep observations on the San Andreas Fault
THE installation of an array of tiltmeters along the San Andreas Fault1 has provided an excellent opportunity to study the amplitude and spatial scale of the tilt fields associated with fault creep. We report here preliminary results from, and some implications of, a search for interrelated surface tilts and creep event observations at four pairs of tiltmeters and creepmeters along an...
Authors
M.J.S. Johnston, S. McHugh, S. Burford
A magnetic method for determining the geometry of hydraulic fractures A magnetic method for determining the geometry of hydraulic fractures
We propose a method that may be used to determine the spatial orientation of the fracture plane developed during hydraulic fracture. In the method, magnetic particles are injected into the crack with the fracturing fluid so as to generate a sheet of magnetized material. Since the magnetization of a body with extreme dimension ratios, such as a crack, exceeds that of an equidimensional...
Authors
J.D. Byerlee, M.J.S. Johnston
The nature of surface tilt along 85 km of the San Andreas fault-preliminary results form a 14-instrument array The nature of surface tilt along 85 km of the San Andreas fault-preliminary results form a 14-instrument array
The continuous monitoring of surface deformation near active faults is clearly necessary for an understanding of elastic strain accumulation and elastic and anelastic strain release associated with earthquakes. Fourteen 2-component tiltmeters have been installed in shallow boreholes along 85 km of the currently most active section of the San Andreas fault in the western United States...
Authors
C.E. Mortensen, M.J.S. Johnston
Preliminary results from a search for regional tectonomagnetic effects in California and western Nevada Preliminary results from a search for regional tectonomagnetic effects in California and western Nevada
Physical theory and laboratory experiments both indicate that tectonomagnetic effects in seismically active areas should be detected with highly sensitive drift-free differential magnetometers. By using a pair of synchronized 0.25 7 absolute magnetometers to measure precisely field differences between 70 adjacent sites with a 10–15 km separation, more than 1,000 km of faults in...
Authors
M.J.S. Johnston
Tilt precursors before earthquakes on the San Andreas fault, California Tilt precursors before earthquakes on the San Andreas fault, California
An array of 14 biaxial shallow-borehole tiltmeters (at 10-7 radian sensitivity) has been installed along 85 kilometers of the San Andreas fault during the past year. Earthquake-related changes in tilt have been simultaneously observed on up to four independent instruments. At earthquake distances greater than 10 earthquake source dimensions, there are few clear indications of tilt change...
Authors
M.J.S. Johnston, C.E. Mortensen
*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