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1. Geothermal production and reduced seismicity: Correlation and proposed mechanism

Author

Cardiff, Michael, Lim, David D, Patterson, Jeremy R, Akerley, John, Spielman, Paul, Lopeman, Janice, Walsh, Patrick, Singh, Ankit, Foxall, William, Wang, Herbert F, Lord, Neal E, Thurber, Clifford H, Fratta, Dante, Mellors, Robert J, Davatzes, Nicholas C, and Feigl, Kurt L

Subjects
Earth Sciences, Geology, Geophysics, microseismicity, geothermal field, effective stress, correlation, Physical Sciences, Geochemistry & Geophysics, Earth sciences, Physical sciences
Abstract

At Brady Hot Springs, a geothermal field in Nevada, heated fluids have been extracted, cooled, and re-injected to produce electrical power since 1992. Analysis of daily pumping records and catalogs of microseismicity between 2010 and 2015 indicates a statistically significant correlation between days when the daily volume of production was at or above its long-term average rate and days when no seismic event was detected. Conversely, shutdowns in pumping for plant maintenance correlate with increased microseismicity. We hypothesize that the effective stress in the subsurface has adapted to the long-term normal operations (deep extraction) at the site. Under this hypothesis, extraction of fluids inhibits fault slip by increasing the effective stress on faults; in contrast, brief pumping cessations represent times when effective stress is decreased below its long-term average, increasing the likelihood of microseismicity.

Published
2018

3. Intrusion triggering of the 2010 Eyjafjallajokull explosive eruption

Author

Sigmundsson, Freysteinn, Hreinsdottir, Sigrun, Hooper, Andrew, Arnadottir, Thora, Pedersen, Rikke, Roberts, Matthew J., Oskarsson, Niels, Auriac, Amandine, Decriem, Judicael, Einarsson, Pail, Geirsson, Halldor, Hensch, Martin, Ofeigsson, Benedikt G., Sturkell, Erik, Hjorleifur, Sveinbjornsson, and Feigl, Kurt L.

Subjects
Eyjafjallajökull Eruption, 2010 -- Research -- Analysis, Volcanoes -- Iceland -- Research, Magma chambers -- Research -- Analysis, Basalt -- Analysis -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Gradual inflation of magma chambers often precedes eruptions at highly active volcanoes. During such eruptions, rapid deflation occurs as magma flows out and pressure is reduced (1-3). Less is known about the deformation style at moderately active volcanoes, such as Eyjafjallajokull, Iceland, where an explosive summit eruption of trachyandesite beginning on 14 April 2010 caused exceptional disruption to air traffic, closing airspace over much of Europe for days. This eruption was preceded by an effusive flank eruption of basalt from 20 March to 12 April 2010. The 2010 eruptions are the culmination of 18 years of intermittent volcanic unrest (4-9). Here we show that deformation associated with the eruptions was unusual because it did not relate to pressure changes within a single magma chamber. Deformation was rapid before the first eruption (>5 mm per day after 4 March), but negligible during it. Lack of distinct co-eruptive deflation indicates that the net volume of magma drained from shallow depth during this eruption was small; rather, magma flowed from considerable depth. Before the eruption, a ~0.05 [km.sup.3] magmatic intrusion grew over a period of three months, in a temporally and spatially complex manner, as revealed by GPS (Global Positioning System) geodetic measurements and interferometric analysis of satellite radar images. The second eruption occurred within the ice-capped caldera of the volcano, with explosivity amplified by magma-ice interaction. Gradual contraction of a source, distinct from the pre-eruptive inflation sources, is evident from geodetic data. Eyjafjallajokull's behaviour can be attributed to its off-rift setting with a 'cold' subsurface structure and limited magma at shallow depth, as may be typical for moderately active volcanoes. Clear signs of volcanic unrest signals over years to weeks may indicate reawakening of such volcanoes, whereas immediate short-term eruption precursors may be subtle and difficult to detect., Volcanic processes leading to eruptions can be investigated by monitoring a variety of phenomena, including increased earthquake activity and uplift of volcanoes due to magma accumulation, as well as variations [...]

Published
2010
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7. A scheme for reducing the effect of selective availability on precise geodetic measurements from the Global Positioning System

Author

Feigl, Kurt L, King, Robert W, Herring, Thomas A, and Rothacher, Markus

Subjects
Geophysics
Abstract

From March to August 1990, the signals transmitted by the Block II satellites of the GPS were dithered under a policy of 'Selective Availability' (SA). The dithering appears as an about 10 to the -10th deviation of the satellite oscillator frequency, which, when accumulated over several minutes, can produce an error of about 100 cycles in the model for carrier beat phase. Differencing between simultaneously sampling receivers minimizes the error. If, however, the receivers do not sample simultaneously, it is necessary to model the frequency deviation. Such a model is here applied to data collected in March 1990 by TI4100 and Minimac receivers sampling at times separated by 0.92 s. Applying the algorithm significantly improves the rms scatter of the estimated relative position vectors. The rms scatter from a data set including dithered satellites is similar for both simultaneously and nonsimultaneously sampling receivers, a result which indicates that SA can be adequately modeled.

Published
1991

14. Ground motion response to an ML 4.3 earthquake using co-located distributed acoustic sensing and seismometer arrays.

Author

Wang, Herbert F., Xiangfang Zeng, Miller, Douglas E., Fratta, Dante, Feigl, Kurt L., Thurber, Clifford H., and Mellors, Robert J.

Subjects
SEISMIC response, SEISMIC arrays, ACOUSTIC emission, GEOTHERMAL engineering, FIBER optic cables, SEISMOGRAMS
Abstract

The PoroTomo research team deployed two arrays of seismic sensors in a natural laboratory at Brady Hot Springs, Nevada in March 2016. The 1500 m (length) x 500 m (width) x 400 m (depth) volume of the laboratory overlies a geothermal reservoir. The distributed acoustic sensing (DAS) array consisted of about 8400 m of fiber-optic cable in a shallow trench and 360 m in a well. The conventional seismometer array consisted of 238 shallowly buried three-component geophones. The DAS cable was laid out in three parallel zig-zag lines with line segments approximately 100 m in length and geophones were spaced at approximately 60 m intervals. Both DAS and conventional geophones recorded continuously over 15 d during which a moderate-sized earthquake with a local magnitude of 4.3 was recorded on 2016 March 21. Its epicentre was approximately 150 km south-southeast of the laboratory. Several DAS line segments with co-located geophone stations were used to compare signal-to-noise ratios (SNRs) in both time and frequency domains and to test relationships between DAS and geophone data. The ratios were typically within a factor of five of each other with DAS SNR often greater for P-wave but smaller for S-wave relative to geophone SNR. The SNRs measured for an earthquake can be better than for active sources because the earthquake signal contains more low-frequency energy and the noise level is also lower at those lower frequencies. Amplitudes of the sum of several DAS strain-rate waveforms matched the finite difference of two geophone waveforms reasonably well, as did the amplitudes of DAS strain waveforms with particle-velocity waveforms recorded by geophones. Similar agreement was found between DAS and geophone observations and synthetic strain seismograms. The combination of good SNR in the seismic frequency band, high-spatial density, large N and highly accurate time control among individual sensors suggests that DAS arrays have potential to assume a role in earthquake seismology. [ABSTRACT FROM AUTHOR]

Published
2018
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16. Dynamics of a large, restless, rhyolitic magma system at Laguna del Maule, southern Andes, Chile

Author

Singer, Brad S., primary, Andersen, Nathan L., additional, Le Mével, Hélène, additional, Feigl, Kurt L., additional, DeMets, Charles, additional, Tikoff, Basil, additional, Thurber, Clifford H., additional, Jicha, Brian R., additional, Cardona, Carlos, additional, Córdova, Loreto, additional, Gil, Fernando, additional, Unsworth, Martyn J., additional, Williams-Jones, Glyn, additional, Miller, Craig, additional, Fierstein, Judy, additional, Hildreth, Wes, additional, and Vazquez, Jorge, additional

Published
2014
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18. Mouvements actuels des blocs tectoniques dans l'arc Bético-Rifain à partir des mesures GPS entre 1999 et 2005 (Present-day movements of tectonic blocks in the Betic-Rif Arc from GPS measurements 1999-2005)

Author

Tahayt, Abdelilah, Mourabit, Taoufik, Rigo, Alexis, Feigl, Kurt L., Fadil, Abdeladi, McClusky, Simon, Reilinger, Robert, Serroukh, Mostafa, Ouazzani-Touhami, Abdelouahed, Ben Sari, Driss, Vernant, Philippe, Tahayt, Abdelilah, Mourabit, Taoufik, Rigo, Alexis, Feigl, Kurt L., Fadil, Abdeladi, McClusky, Simon, Reilinger, Robert, Serroukh, Mostafa, Ouazzani-Touhami, Abdelouahed, Ben Sari, Driss, and Vernant, Philippe

Abstract

GPS velocities and seismicity across the Betic-Rif Arc structural domains (Morocco and Iberia) provide a basis to evaluate present-day seismotectonic processes between different deformation belts. The results show asymmetric movements in the complex Alboran system accommodating the convergence between the African (Nubian) and Eurasian plates. While the Betic Mountains are attached to Iberia, moving toward the southeast with respect to Africa, the Rif is divided into three blocks with distinct displacements relative to Nubia: (1) the Tangier block moving southeastward, (2) the Central Rif block moving SSW, and (3) the Oriental Rif block undergoing clockwise rotation. GPS-derived motions decrease in rate from the Rif nappes complex to the foreland.

Published
2008

26. Rapid uplift in Laguna del Maule volcanic field of the Andean Southern Volcanic zone (Chile) 2007–2012.

Author

Feigl, Kurt L., Le Mével, Hélène, Tabrez Ali, S., Córdova, Loreto, Andersen, Nathan L., DeMets, Charles, and Singer, Bradley S.

Subjects
*VOLCANIC fields, *VELOCITY, *DEFORMATIONS (Mechanics), *SIGNALS & signaling, *GLOBAL Positioning System
Abstract

The Laguna del Maule (LdM) volcanic field in Chile is an exceptional example of postglacial rhyolitic volcanism in the Southern Volcanic Zone of the Andes. By interferometric analysis of synthetic aperture radar (SAR) images acquired between 2007 and 2012, we measure exceptionally rapid deformation. The maximum vertical velocity exceeds 280 mm yr–1. Although the rate of deformation was negligible from 2003 January to 2004 February, it accelerated some time before 2007 January. Statistical testing rejects, with 95 per cent confidence, four hypotheses of artefacts caused by tropospheric gradients, ionospheric effects, orbital errors or topographic relief, respectively. The high rate of deformation is confirmed by daily estimates of position during several months in 2012, as measured by analysis of signals transmitted by the Global Positioning System (GPS) and received on the ground at three stations around the reservoir forming the LdM. The fastest-moving GPS station (MAU2) has a velocity vector of [–180 ± 4, 46 ± 2, 280 ± 4] mm yr–1 for the northward, eastward and upward components, respectively, with respect to the stable interior of the South America Plate. The observed deformation cannot be explained by changes in the gravitational load caused by variations in the water level in the reservoir. For the most recent observation time interval, spanning 44 d in early 2012, the model that best fits the InSAR observations involves an inflating sill at a depth of 5.2 ± 0.3 km, with length 9.0 ± 0.3 km, width 5.3 ± 0.4 km, dip 20 ± 3° from horizontal and strike 14 ± 5° clockwise from north, assuming a rectangular dislocation in a half-space with uniform elastic properties. During this time interval, the estimated rate of tensile opening is 1.1 ± 0.04 m yr–1, such that the rate of volume increase in the modelled sill is 51 ± 5 million m3 yr–1 or 1.6 ± 0.2 m3 s–1. From 2004 January to 2012 April the total increase in volume was at least 0.15 km3 over the 5.2-yr interval observed by InSAR. The inflating region includes most of the 16-km-by-14-km ring of rhyolitic domes and coulees. The similarity of high-silica rhyolite compositions on opposite sides of the ring and the concentration of rhyolitic eruptions since ∼20 ka suggest that processes within a large silicic magma chamber are responsible for the current deformation. [ABSTRACT FROM PUBLISHER]

Published
2014
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27. Geodetic Measurement of Tectonic Deformation in Central California

Author

MASSACHUSETTS INST OF TECH CAMBRIDGE DEPT OF EARTH ATMOSPHERIC AND PLANETARYSCIENCES, Feigl, Kurt L., MASSACHUSETTS INST OF TECH CAMBRIDGE DEPT OF EARTH ATMOSPHERIC AND PLANETARYSCIENCES, and Feigl, Kurt L.

Abstract

The object of this thesis is to measure directly the tectonic deformation in the Santa Maria Fold and Thrust Belt (SMFTB), northwest of Santa Barbara California. The principal measurement technique is space geodesy, using the signals transmitted by the satellites of the Global Positioning System (GPS). Beyond the introduction, the thesis contains three separate sections, concerning an improved model for drifting oscillators in the satellite and receiver, the analysis of historical surveying measurements, and finally an analysis of 5 years of GPS observations. From March to August 1990, the microwave signals transmitted by the Block II satellites of the Global Positioning System (GPS) were dithered under a policy of "Selective Availability". The dithering appears as a ^10 to the minus 9th power deviation of the satellite oscillator frequency, which, when accumulated over several minutes, can produce an error of ^100 cycles (^20 m) in the model for carrier beat phase. Difference between simultaneously sampling receivers minimizes the error. If, however, the receivers do not sample simultaneously, it is necessary to model the frequency deviation, which we estimate from the phase observed at a station with a stable local oscillator. We apply such a model to data collected in March 1990 by TI4100 and MiniMac receivers sampling at times separated by 0.92 s. Applying the algorithm significantly improves the root mean square (RMS) scatter of the estimated relative position vectors. The RMS scatter from a data set including dithered satellites is similar for both simultaneously and non-simultaneously sampling receivers, a result which indicates that SA can be adequately modeled. We have analyzed geodetic observations to resolve tectonic deformation across the SMFTB. The geodetic network forms a braced quadrilateral with ^40 km sides whose southwest corner is the Vandenberg very long baseline interferometry (VLBI) station., Doctoral thesis

Published
1991

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