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  • 1
    Series available for loan
    Series available for loan
    Factors affecting the recognition of faults exposed in exploratory trenches (1991)
    Washington, DC : United States Gov. Print. Off.
    Associated volumes
    Details Availability
    Call number: SR 90.0001(1947)
    In: U.S. Geological Survey bulletin
    Type of Medium: Series available for loan
    Pages: V, 54 S. + 1 Microfich
    Series Statement: U.S. Geological Survey bulletin 1947
    Language: English
    Location: Lower compact magazine
    Branch Library: GFZ Library
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  • 2
    Electronic Resource
    Electronic Resource
    Implications for prediction and hazard assessment from the 2004 Parkfield earthquake (2005)
    [s.l.] : Nature Publishing Group
    Nature 437 (2005), S. 969-974 
    Details
    ISSN: 1476-4687
    Source: Nature Archives 1869 - 2009
    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
    Notes: [Auszug] Obtaining high-quality measurements close to a large earthquake is not easy: one has to be in the right place at the right time with the right instruments. Such a convergence happened, for the first time, when the 28 September 2004 Parkfield, California, earthquake occurred on the San Andreas fault ...
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1038/nature04067
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  • 3
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    The Greenville Fault: Preliminary Estimates of Its Long-Term Creep Rate and Seismic Potential (2013)
    Seismological Society of America (SSA)
    Details
    Publication Date: 2013-10-01
    Description: Once assumed to be locked, we show that the northern third of the Greenville fault (GF) creeps at 2 mm/yr, based on 47 yr of trilateration net data. This northern GF creep rate equals its 11 ka slip rate, suggesting a low strain accumulation rate. In 1980, the GF, easternmost strand of the San Andreas fault system east of San Francisco Bay, produced an M w  5.8 earthquake with a 6 km surface rupture and dextral slip growing to ≥2 cm on cracks over a few weeks. Trilateration shows a 10 cm post-1980 transient slip ending in 1984. Analysis of 2000–2012 crustal velocities on continuous Global Positioning System stations, allows creep rates of ~2 mm/yr on the northern GF, 0–1 mm/yr on the central GF, and ~0 mm/yr on its southern third. Modeled depth ranges of creep along the GF allow 5%–25% aseismic release. Greater locking in the southern two-thirds of the GF is consistent with paleoseismic evidence there for large late Holocene ruptures. Because the GF lacks large (〉1 km) discontinuities likely to arrest higher (~1 m) slip ruptures, we expect full-length (54 km) ruptures to occur that include the northern creeping zone. We estimate sufficient strain accumulation on the entire GF to produce M w  6.9 earthquakes with a mean recurrence of ~575 yr. While the creeping 16 km northern part has the potential to produce an M w  6.2 event in 240 yr, it may rupture in both moderate (1980) and large events. These two-dimensional-model estimates of creep rate along the southern GF need verification with small aperture surveys. Online Material: Green net data file.
    Print ISSN: 0037-1106
    Electronic ISSN: 1943-3573
    Topics: Geosciences , Physics
    Published by Seismological Society of America (SSA)
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  • 4
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    Using Surface Creep Rate to Infer Fraction Locked for Sections of the San Andreas Fault System in Northern California from Alignment Array and GPS Data (2014)
    Seismological Society of America (SSA)
    Details
    Publication Date: 2014-12-05
    Description: Surface creep rate, observed along five branches of the dextral San Andreas fault system in northern California, varies considerably from one section to the next, indicating that so too may the depth at which the faults are locked. We model locking on 29 fault sections using each section’s mean long-term creep rate and the consensus values of fault width and geologic slip rate. Surface creep rate observations from 111 short-range alignment and trilateration arrays and 48 near-fault, Global Positioning System station pairs are used to estimate depth of creep, assuming an elastic half-space model and adjusting depth of creep iteratively by trial and error to match the creep observations along fault sections. Fault sections are delineated either by geometric discontinuities between them or by distinctly different creeping behaviors. We remove transient rate changes associated with five large ( M ≥5.5) regional earthquakes. Estimates of fraction locked, the ratio of moment accumulation rate to loading rate, on each section of the fault system provide a uniform means to inform source parameters relevant to seismic-hazard assessment. From its mean creep rates, we infer the main branch (the San Andreas fault) ranges from only 20%±10% locked on its central creeping section to 99%–100% on the north coast. From mean accumulation rates, we infer that four urban faults appear to have accumulated enough seismic moment to produce major earthquakes: the northern Calaveras ( M  6.8), Hayward ( M  6.8), Rodgers Creek ( M  7.1), and Green Valley ( M  7.1). The latter three faults are nearing or past their mean recurrence interval. Online Material: High-resolution fault system map, and tables of creep observations and geographic coordinates of fault model.
    Print ISSN: 0037-1106
    Electronic ISSN: 1943-3573
    Topics: Geosciences , Physics
    Published by Seismological Society of America (SSA)
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  • 5
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    Rates and patterns of surface deformation from laser scanning following the South Napa earthquake, California (2015)
    Geological Society of America (GSA)
    In: Geosphere
    Details
    Publication Date: 2015-12-02
    Description: The A.D. 2014 M6.0 South Napa earthquake, despite its moderate magnitude, caused significant damage to the Napa Valley in northern California (USA). Surface rupture occurred along several mapped and unmapped faults. Field observations following the earthquake indicated that the magnitude of postseismic surface slip was likely to approach or exceed the maximum coseismic surface slip and as such presented ongoing hazard to infrastructure. Using a laser scanner, we monitored postseismic deformation in three dimensions through time along 0.5 km of the main surface rupture. A key component of this study is the demonstration of proper alignment of repeat surveys using point cloud–based methods that minimize error imposed by both local survey errors and global navigation satellite system georeferencing errors. Using solid modeling of natural and cultural features, we quantify dextral postseismic displacement at several hundred points near the main fault trace. We also quantify total dextral displacement of initially straight cultural features. Total dextral displacement from both coseismic displacement and the first 2.5 d of postseismic displacement ranges from 0.22 to 0.29 m. This range increased to 0.33–0.42 m at 59 d post-earthquake. Furthermore, we estimate up to 0.15 m of vertical deformation during the first 2.5 d post-earthquake, which then increased by ~0.02 m at 59 d post-earthquake. This vertical deformation is not expressed as a distinct step or scarp at the fault trace but rather as a broad up-to-the-west zone of increasing elevation change spanning the fault trace over several tens of meters, challenging common notions about fault scarp development in strike-slip systems. Integrating these analyses provides three-dimensional mapping of surface deformation and identifies spatial variability in slip along the main fault trace that we attribute to distributed slip via subtle block rotation. These results indicate the benefits of laser scanner surveys along active faults and demonstrate that fine-scale variability in fault slip has been missed by traditional earthquake response methods.
    Electronic ISSN: 1553-040X
    Topics: Geosciences
    Published by Geological Society of America (GSA)
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  • 6
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    Afterslip Behavior following the 2014 M 6.0 South Napa Earthquake with Implications for Afterslip Forecasting on Other Seismogenic Faults (2016)
    Seismological Society of America (SSA)
    Details
    Publication Date: 2016-04-28
    Description: The 24 August 2014 M  6.0 South Napa, California, earthquake exhibited unusually large slip for a California strike-slip event of its size with a maximum coseismic surface slip of 40–50 cm in the north section of the 15-km-long rupture. Although only minor (〈10 cm) surface slip occurred coseismically in the southern 9 km section of the rupture, considerable postseismic slip occurred, so that the maximum total slip one year after the event approached 40–50 cm, approximately equal to the coseismic maximum in the north. We measured the accumulation of postseismic surface slip on four ~100-m-long alignment arrays for one year following the event. Because prolonged afterslip can delay reconstruction of fault-damaged buildings and infrastructure, we analyzed its gradual decay to estimate when significant afterslip would likely end. This forecasting of Napa afterslip suggests how we might approach the scientific and engineering challenges of afterslip from a much larger M ~7 earthquake anticipated on the nearby urban Hayward fault. However, we expect its afterslip to last much longer than one year.
    Print ISSN: 0895-0695
    Electronic ISSN: 1938-2057
    Topics: Geosciences
    Published by Seismological Society of America (SSA)
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  • 7
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    Long-Term Afterslip of the 2004 M 6.0 Parkfield, California, Earthquake--Implications for Forecasting Amount and Duration of Afterslip on Other Major Creeping Faults (2017)
    Seismological Society of America (SSA)
    Details
    Publication Date: 2017-05-31
    Description: We present the longest record of surface afterslip on a continental strike-slip fault for the 2004 M  6.0 Parkfield, California, earthquake, from which we can derive critical information about the duration and predictability of afterslip relevant to urban displacement hazard applications. Surface slip associated with this event occurred entirely postseismically along the interseismically creeping (0.6–1.5 cm/yr) main trace of the San Andreas fault. Using the first year of afterslip data, the program AFTER correctly predicted the cumulative surface afterslip (maximum ~35 cm) eventually attained. By 1 yr postearthquake, observed afterslip had accumulated to only ~74% of its modeled final value u f in units of length. The 6-yr data suggested final slip would be reached everywhere by ~6–12 yrs. Parkfield’s afterslip lasted much longer (~6–12 yrs) than afterslip following a 2014 M  6.0 event in Napa, California, where no interseismic creep was known, and its afterslip neared completion (~97% of u f ) by 1 yr. The uncertainty in u f for the Napa event fell to ≤2 cm in only three months, versus in 2 yrs for the Parkfield event, mostly because duration of the power-law stage of afterslip at Parkfield is much longer, ~1000 (493–1666) days versus ~100 (35–421) days for Napa. Because the urban Hayward fault near San Francisco, California, like the Parkfield section, exhibits interseismic creep in a similar geological regime, significant afterslip might last for up to a decade following an anticipated M ≥6.7 earthquake, potentially delaying postearthquake recovery. Electronic Supplement: Tables of afterslip observations and coefficients for computing afterslip.
    Print ISSN: 0037-1106
    Electronic ISSN: 1943-3573
    Topics: Geosciences , Physics
    Published by Seismological Society of America (SSA)
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  • 8
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    The Earthquake Cycle in the San Francisco Bay Region: A.D. 1600-2012 (2014)
    Seismological Society of America (SSA)
    Details
    Publication Date: 2014-06-12
    Description: Stress changes produced by the 1906 San Francisco earthquake had a profound effect on the seismicity of the San Francisco Bay region (SFBR), dramatically reducing it in the twentieth century. Whether the SFBR is still within or has emerged from this seismic quiescence is an issue of debate with implications for earthquake mechanics and seismic hazards. Historically, the SFBR has not experienced one complete earthquake cycle (i.e., the accumulation of stress, its release primarily as coseismic slip during surface-faulting earthquakes, its re-accumulation in the interval following, and its subsequent rerelease). The historical record of earthquake occurrence in the SFBR appears to be complete at about M  5.5 back to 1850 ( Bakun, 1999 ). For large events, the record may be complete back to 1776, which represents about half a cycle. Paleoseismic data provide a more complete view of the most recent pre-1906 SFBR earthquake cycle, extending it back to about 1600. Using these, we have developed estimates of magnitude and seismic moment for alternative sequences of surface-faulting paleoearthquakes occurring between 1600 and 1776 on the region’s major faults. From these we calculate seismic moment and moment release rates for different time intervals between 1600 and 2012. These show the variability in moment release and suggest that, in the SFBR regional plate boundary, stress can be released on a single fault in great earthquakes such as that in 1906 and in multiple ruptures distributed on the regional plate boundary fault system on a decadal time scale.
    Print ISSN: 0037-1106
    Electronic ISSN: 1943-3573
    Topics: Geosciences , Physics
    Published by Seismological Society of America (SSA)
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  • 9
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    A Record of Large Earthquakes during the Past Two Millennia on the Southern Green Valley Fault, California (2013)
    Seismological Society of America (SSA)
    Details
    Publication Date: 2013-08-01
    Description: We document evidence for surface-rupturing earthquakes (events) at two trench sites on the southern Green Valley fault, California (SGVF). The 75–80 km long dextral SGVF creeps ~1–4 mm/yr. We identify stratigraphic horizons disrupted by upward-flowering shears and infilled fissures unlikely to have formed from creep alone. The Mason Rd site exhibits four events from ~1013 CE to the present. The Lopes Ranch site (LR, 12 km to the south) exhibits three events from 18 BCE to present including the most recent event (MRE), 1610±52 yr CE (1 ) and a two-event interval (18 BCE–238 CE) isolated by a millennium of low deposition. Using OxCal to model the timing of the four-event earthquake sequence from radiocarbon data and the LR MRE yields a mean recurrence interval (RI or μ ) of 199±82 yr (1 ) and ±35 yr (standard error of the mean), the first based on geologic data. The time since the most recent earthquake (open window since MRE) is 402 yr±52 yr, well past μ ~200 yr. The shape of the probability density function (PDF) of the average RI from OxCal resembles a Brownian passage time (BPT) PDF (i.e., rather than normal) that permits rarer longer ruptures potentially involving the Berryessa and Hunting Creek sections of the northernmost GVF. The model coefficient of variation (cv, / μ ) is 0.41, but a larger value (cv~0.6) fits better when using BPT. A BPT PDF with μ of 250 and cv of 0.6 yields 30 yr rupture probabilities of 20%–25% versus a Poisson probability of 11%–17%. Online Material: OxCal model for ages of paleoearthquakes, Lopes site 1998 logs, and description of a model for estimation of rupture frequency.
    Print ISSN: 0037-1106
    Electronic ISSN: 1943-3573
    Topics: Geosciences , Physics
    Published by Seismological Society of America (SSA)
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  • 10
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    The Mw 6.0 24 August 2014 South Napa Earthquake (2015)
    Seismological Society of America (SSA)
    Details
    Publication Date: 2015-03-05
    Print ISSN: 0895-0695
    Electronic ISSN: 1938-2057
    Topics: Geosciences
    Published by Seismological Society of America (SSA)
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