what is a well constrained fault

The A Quaternary fault is one that has been recognized at the surface and that has moved in the past 1,600,000 years (1.6 million years). 5, 2=v2= 3082 (VR= 91.5 per cent, ), which is substantially smaller than the misfit we obtain for rigid-block motions without any strain accumulation, namely . Faults can be centimeters to thousands of kilometers long. Based on the inversion of GPS data only (Fig. When using a Kostrov (1974) summation as in Fig. Eventually enough stress builds up and the rocks slip suddenly, releasing energy in waves that travel through the rock to cause the shaking that we feel during an earthquake. Zoback 1992; Reinecker et al. Just as you snap your fingers with the whole area of your fingertip and thumb, earthquakes happen over an area of the fault, called the rupture surface. What that means in practice we know not, and the lesson from Christchurch particularly is . 4(a) shows C and i for a velocity-only inversion and = 0. 2(b) with earlier results by Hardebeck & Hauksson (2001a) shows that stress varies more smoothly in our new models, as expected. 9). 11 shows the stresses from a focal mechanism inversion and a = 1 block fault-slip model, if we include the whole catalogue data from 1992 up to 1999 in the stress inversion, and base our block model on this additional data set. This transition is sharper in the southern part of the study region than in the northern part, where it is smeared out over larger distances away from the main strand of the SAF. FTFA problem in [19]). Stick length and scale with the log et al. (2001) and to the Marmara sea by Meade et al. (2002) argue for at least 20 mm yr-1 along the northern SJF. With both normal and reverse faults, movement occurs vertically. 1); this is one realization of a local, North America fixed reference frame. Flesch et al. We list the Euler vectors, , and the best-fit rigid r solution for all blocks in the Appendix (Tables A1 and A2). There are very small areas described as "well defined zones" and colored purple. 2002). 1994) indicate intraplate strain accumulation (e.g. The bigger the mainshock, the bigger the largest aftershock, on average, though there are many more small aftershocks than large ones. We show that a joint inversion of geodetic velocities and stresses inverted from focal mechanisms can put further constraints on slip partitioning in this region. Another robust feature if we allowed for regional variations in dl was a shallow locking depth in the Salton Trough. High may be associated with fault zones that have a greater proportion of velocity-strengthening material (Marone et al., 1991; Perfettini & Avouac, . Do we really understand what seismologists are saying? Embrace the greens and . The stress orientations are fitted well by both the GPS-only and the joint inversions, with average angular misfits of 9.4 and 8.7, respectively, compared with the stress observation uncertainty of 15. Since this region has a large sediment layer, Fay & Humphreys (2003) compared the slip-rate predictions from a finite-element model with lateral material heterogeneities with those from a homogeneous Okada (1992)-type solution. Shaw & Shearer 1999; Plesch et al. Official websites use .gov The rupture keeps spreading until something stops it (exactly how this happens is a hot research topic in seismology). A synthetic seismicity model for the San Andreas fault, Geodetic detection of active faults in S. California, Holocene rate of slip and tentative recurrence interval for large earthquakes on the San Andreas Fault, Cajon Pass, Southern California, First- and second-order patterns of stress in the lithosphere: The World Stress Map project, A deep learning approach for suppressing noise in livestream earthquake data from a large seismic network, Magnitude Distribution and Clustering Properties of the 3D Seismicity in Central Apennines (Italy), Geodetic modeling of the 2022 Mw 6.6 Menyuan earthquake: Insight into the strain-partitioned northern Qilian Shan fault system and implications for regional tectonics and seismic hazards, A mass conserving filter based on diffusion for Gravity Recovery and Climate Experiment (GRACE) spherical harmonics solutions, Volume 233, Issue 2, May 2023 (In Progress), Volume 233, Issue 1, April 2023 (In Progress), Volume 232, Issue 3, March 2023 (In Progress), Geomagnetism, Rock Magnetism and Palaeomagnetism, Marine Geosciences and Applied Geophysics, https://doi.org/10.1111/j.1365-246X.2004.02528.x, Receive exclusive offers and updates from Oxford Academic, Copyright 2023 The Royal Astronomical Society. As discussed in Section 2.3, the fault locking depth, dl, is the major control on the width of the transition between vGPS and vp across faults. As the larger plates are pushed or pulled in different directions they build up strain against the adjacent plate until it finally fails. Monastero F.C. Faults allow the blocks to move relative to each other. If you continue to use this site we will assume that you are happy with it. We show the largest, (arrows), and smallest, (sticks), eigenvectors of the horizontal components of . Concealed fault zones or fault trend zones formed in the cap rocks of sedimentary basin, which is influenced by the regional or local stress field, and activities in the basement rift system. A normal fault's vertical slip rate requires constraints from the hanging wall and footwall. Decreasing formal uncertainties therefore do not necessarily mean a better solution, but we prefer the damped inversion as it has a smaller model norm. Comparison of the stress inversion in Fig. Available . A fault is a fracture or zone of fractures between two blocks of rock. The ECSZ takes up somewhat less total slip in the = 1 model, so again slip must be transferred from the Indio SAF to the Mojave SAF. For a homogeneous elastic medium, the strain rates from GPS velocities correspond to tectonic loading stresses, which appear to be aligned with the stress from seismicity for the study region. If we assume movement on the San Andreas has cut off that streambed within the last 2,500 years, then the average slip rate on the fault is 33 millimeters (1.3 inches) per year. USGS Earthquake Hazards Program, responsible for monitoring, reporting, and researching earthquakes and earthquake hazards This indicates that the system does not depend critically on details, and that the inversion is robust for the damping we have chosen. Lucy Jones on Twitter: [emailprotected] A well-constrained fault has a clear expression at Earths surface, not covered by sediment, so we know just where it is. If the seismicity inversions find the stressing rate (Smith & Heaton 2003), we could expect a regionally modified loading signal after Landers while the stressing state returns to normal. Using this method, much of the velocity field can be explained regionally, such as by introducing an Aegean subdivision to the Anatolian microplate (McClusky et al. Faults can extend deep into the earth and may or may not extend up to the earth's surface. USGS Earthquake Hazards Program, responsible for monitoring, reporting, and researching earthquakes and earthquake hazards (4). The uncertainties in the fault slip rates based solely on the GPS input data are much lower, of the order of a few mm yr-1. Other differences include a larger extensional component for the Basin and Range. Individual faults in the proximity of SBM show modified slip rates; for example, compressive motion is now shifted towards the northern SBM region. Am., Cordilleran Section, Abstracts with Programs, How regularly do earthquakes recur? Based on previous work, 2D magnetotelluric (MT) parallel-constrained-inversion, based on an artificial-fish-swarm algorithm is further developed. The SAF fault segment south of the San Bernardino mountains (no. The trade-off between fit to the GPS and stress data is quantified in Fig. Wells S.G. Simpson R.W.. Lee J. Rubin C. Miller M. Spencer J. Lewis O. Dixon T.. McClusky S.C. Bjornstad S.C. Hager B.H. South Fault Rupture Block: Construction Forell/Elsesser Engineers, Inc. (Friedman, Vignos, et al.) However, unlike your fingers, the whole fault plane does not slip at once. Detection and control aims can be expressed either as a part of an objective function or as a constraint. In palaeoseismology, dated offsets of sedimentary strata are used to unravel the time dependence of slip events, and the overall fault slip rate at isolated trench sites (e.g. For = 0 models, the 2v could be reduced to by treating dl for 50-km-length subdivisions of faults as a free parameter (Fig. This feature was previously found to be a stable result of smaller-scale stress inversions; it is consistent with a stress release effect, if the stress drop is of the order of the background deviatoric stress (Hardebeck & Hauksson 2001a). Fine lines denote the fault trace of the Landers 1992 event (243.5E/34.3N, see Figs 2 and 11). (4); scale stress data to the amplitudes predicted initially by the block model; solve eq. Argus D.F. Previous studies have shown that fault-trap integrity is strongly influenced by the state of stress resolved on the reservoir bounding faults, suggesting that careful construction of a geomechanical model may reduce the risk of encountering breached reservoirs in . For example, a streambed that crosses the San Andreas fault near Los Angeles is now offset 83 meters (91 yards) from its original course. The chance of this happening dies off quickly with time just like aftershocks. If you continue to use this site we will assume that you are happy with it. CONCLUSIONS Surface faulting is affected by: fault characteristics overlying soil foundation & structure Effects of surface fault rupture can be acceptable or unacceptable Surface fault rupture can be analyzed and Geodetic results support this model; the slip rate on the SJF is larger than on the SAF in Johnson's (1993) initial inversion and the more comprehensive approach of Meade et al. The mean weighted deviation, , is given in the legend. what is a well constrained fault. We therefore introduce a damping vector, Late Quaternary history of the Owens Valley fault zone, eastern California, and surface rupture associated with the 1872 earthquake (abstract), Earthquake recurrence time variations with and without fault zone interactions, Global Positioning System constraints on fault slip rates in southern California and northern Baja, Present-day pattern of cordilleran deformation in the western United States, Effects induced by an earthquake on its fault plane: a boundary element study, On the existence of a periodic dislocation cycle in horizontally layered viscoelastic model, The motion of crustal blocks driven by flow of the lower lithosphere and implications for slip rates of continental strike-slip faults, Quaternary geology and seismic hazard of the Sierra Madre and associated faults, western San Gabriel Mountains, Recent Reverse Faulting in the Transverse Ranges, California, Effect of recent revisions to the geomagnetic reversal time scale on estimates of current plate motions, Viscoelastic flow in the lower crust after the 1992 Landers, California, earthquake, Paleoseismology and Global Positioning System; earthquake-cycle effects and geodetic versus geologic fault slip rates in the Eastern California shear zone, Role of the eastern California shear zone in accomodating PacificNorth American plate motion, Prospects for larger or more frequent earthquakes in the Los Angeles metropolitan region, Late Quaternary activity and seismic potential of the Santa Monica fault system, Los Angeles, California, Stratigraphic record of Pleistocene initiation and slip on the Coyote Creek Fault, lower Coyote Creek, Southern California, Contributions to Crustal Evolution of the Southwestern United States, Late pleistocene slip rate on the Coachella Valley segment of the San Andreas fault and implications for regional slip partitioning (abstract), 99th Ann. Posted by ; On Maj 26, 2022; Sometimes, the chance that an event is a foreshock seems higher than average - usually because of its proximity to a major fault. Mtg, Geol. However, both plots show that the slip rate of the fault is less well constrained, which may contribute to the relatively high slip rate in the best-fitting fault model. Rockwell T.K. 1) takes up about 18 mm yr-1 of right-lateral slip, with the rest distributed on the western faults, including the Mojave segment of the SAF. Most faults produce repeated displacements over geologic time. North of the SBM, the Mojave segment of the SAF accommodates 9-16 mm yr-1, while the ECSZ also has 15-18 mm yr-1 rates. Miller M.M. Then the original earthquake is considered a foreshock. You are here: the ranch radio station charlie o in the morning; lovers' lane murders solved; what is a well constrained faulthow much to pay rabbi for baby naming. LEARN MORE: See the web resources listed here. FTYPE is one of three allowable choices provided in a pull-down menu: Well constrained (FCODE 1), Moderately constrained (FCODE 2), and Inferred (FCODE 3) MAPPEDSCALE is one of four allowable choices provided in a pull-down menu. Shading of the extensional vectors scales with the mean horizontal strain rate, , positive values indicating extension. How is the risk of an earthquake determined? 's interpretation in that a significant part of the plate boundary motion in the centre and northern regions is taken up on the ECSZ and the Basin and Range faults. This broadening would be interpreted as a large dl in our half-space model. Make sure your jacket and ski pants are actually waterproof - and bring your goggles, you'll want them if you should need to ski through that manmade but glorious storm. But what do these terms mean? (2002b). Fay & Humphreys (2003) have also used Shen's (2003) velocity solution to evaluate the partitioning of slip between SAF Indio, SJF, and Elsinore in the Salton Trough region. Most often asked questions related to bitcoin. In the problem, we are given a set of sites equipped with an unconstrained number of facilities as resources, and a set of clients with set \mathcal {R} as corresponding connection requirements, where every facility belonging to . Indicated ranges are conservative estimates of systematic uncertainties; they are the standard deviations from the mean obtained by randomizing using from (7). Given the different objective of their model, Smith & Sandwell's fault geometry in southern California is much simpler than ours, and the only additional segment besides the main strand of the SAF in Smith & Sandwell's geometry is the San Jacinto fault. Kamb B. Payne C.M. En cet endroit, rien n'indique que la faille de Fraser dcale verticalement le Moho, lequel est bien cal une profondeur uniforme de 34 km l'est de la faille de Harrison. 1 for GPS-only ( = 0, Fig. Data source: USGS. The alternative geometry has two additional, hypothetical, faults in the SBM region, which were inferred based on topography (northern addition) and from seismicity (northwesterly trending structure). Nearly all of what is shown for Waikanae is in the hills or in Reikorangi and described as "uncertain/poorly constrained zones" and coloured as mustard or pale blue. (1996) and our block model, Fay & Humphreys found higher slip rates along the SAF Indio segment than along the SJF. The fault surface can be vertical, horizontal, or at some angle to the surface of the earth. Furthermore, we removed all VLBI and most EDM data because the latter show trends significantly different from surrounding GPS measurements in the Parkfield area. Euler solution vectors for the long-term motion, i, of all blocks as shown in Fig. Including stresses in the inversion for = 1 models leads to similar behaviour for ?2v, while the minimum in ?2t for both = 0 and = 1 is smeared out, indicating insufficient resolution of the stress data for locking depths (Fig. What is a fault and what are the different types? 5 at SBM to slip right-laterally (results not shown), the surrounding fault slip rates are not modified significantly from the solution shown in Fig. 1989; Ward & Goes 1993; Rockwell et al. This indicates that the deforming model explains the data much better than a pure subdivision of the study area into rigid blocks, at the same number of free parameters. Past fault movement has brought together rocks that used to be farther apart; Earthquakes on the fault have left surface evidence, such as surface ruptures or fault scarps (cliffs made by earthquakes); Earthquakes recorded by seismographic networks are mapped and indicate the location of a fault. mouse-over each fault to get a pop-up window An online map of faults (Quaternary Fault and Fold Database of the United States) that includes California is in the Faults section of the Earthquake Hazards Program website. In particular, we determine 15 mm yr-1 and 23 mm yr-1 of long-term slip on the SJF and the Indio segment of the SAF, respectively, accompanied by a low slip rate on the San Bernardino segment of the SAF. Whether the fault of the writers or not, it's not spelled out in-game and there is no evidence for what he did. There are several simplifications inherent in the locked-fault approach (e.g. 10a). Also, just as smaller earthquakes can continue to occur a year or more after a mainshock, there is still a chance for a large aftershock long after an earthquake. Share sensitive information only on official, secure websites. Strong ground motion may, in turn, cause ground failureslumps, landslides, liquefaction, and lateral spreaddepending on shaking intensity (usually stronger nearer the source) and local site conditions. We strive to minimize the effect of curvature in our half-space representation by evaluating displacements in a fault-local oblique Mercator system (Meade et al. Surface features that have been broken and offset by the movement of faults are used to determine how fast the faults move and thus how often earthquakes are likely to occur. There are several potential difficulties with the interpretation of interseismic moment release as a strain-rate field, or as being indicative of stress. Second, we find clockwise rotation of the observed compressive axes with respect to the pre-Landers data set in a region on and south of the Landers surface rupture. We realize that our basic model does not completely capture the geometrical and geological complexity of the plate boundary system in southern California. What are the potential hazards in case of an earthquake event? 2001), leading us to expect significant viscoelastic effects (cf.McClusky et al. Our method is different in that we include stress data for the first time and use a different parametrization. These surface velocities can be described by a number of approaches, as reviewed by Pollitz (2003), who also gives an alternative description. The stress field changes with time (Hardebeck & Hauksson 2001a, and Section 4.4) and is not necessarily identical to the long-term loading rates over several million years, or the loading rates predicted by our block model. 1997), respectively; (7) Weldon & Sieh (1985); (8) and (9) Dokka & Travis (1990); (10) Sieh & Jahns (1984); (11) McGill & Sieh (1993); (12) Combination of Deep springs: 1 mm yr-1 normal (Lee et al. Lahontan Gold Corp. (TSX.V:LG)(OTCQB:LGCXF)(the "Company" or "Lahontan") is pleased to announce the maiden Mineral Resource Estimate ("MRE") for its flagship Santa Fe Mine, a past-producing open . After three days the risk is almost gone. These correlations among block motion vectors are expected, given their small geometrical aperture and proximity to one another. All fault segments are vertical (90 dip). Bill Hammond, Jim Savage and Duncan Agnew provided helpful comments on an earlier version of this manuscript. Hence, we include a priori information about strain localization at known geological structures and steep velocity gradients across faults (cf. These uncertainties are based on from (7). Hardebeck & Hauksson (2001a) give a detailed description of the temporal dependence of stress in southern California. 9 shows 2 misfits versus regionally constant locking (or fault segment) depth. Small number labels with white background indicate segment codes as used in Table 1; larger letter labels denote block code. Discriminating between these scenarios is clearly important for estimating the seismic hazard arising from these faults. NATO Countries are targeting a substantial increase in Defence Budgets of 4-6% to reach the 2% GDP Target. It finishes with information we expect to learn after future earthquakes. The exploration of such deviations is one of the interesting outcomes of our study. Why are there no faults in the Great Valley of central California? Click on the fault lines for more information. 2000; Friedrich et al. Today's and tonight's Wexford, PA weather forecast, weather conditions and Doppler radar from The Weather Channel and Weather.com Fault-normal motion is characterized by thrust features in the San Fernando valley and Tejon Pass regions that are broadly consistent with geological observations. And, of course, the motion can cause bridges and buildings to collapse. (2001); (5) Harden & Matti (1989); (6) Santa Monica system: left-lateral: Treiman (1994), Dolan et al. For big earthquakes this might go on for decades. How long has Coney Island in Fort Wayne Open? Averaging is performed over all subdivisions of the main, straight segments shown in Fig. It also explains why the same earthquake can shake one area differently than another area. The sediments in the abandoned streambed are about 2,500 years old. However, we defer a refinement of the fault geometry to subsequent work and discuss the robustness of our results with the help of an example of an alternative geometry in Section 4.5. 6 shows the horizontal part of the predicted stress field in our model, both for the GPS-only inversion (Fig. Be centimeters to thousands of kilometers what is a well constrained fault S.G. Simpson R.W.. Lee Rubin. This site we will assume that you are happy with it part of the Landers 1992 (... Performed over all subdivisions of the horizontal part of an earthquake event they build up strain against the adjacent until. Et al. simplifications inherent in the Salton Trough this broadening would be interpreted as large. At once event ( 243.5E/34.3N, see Figs 2 and 11 ) Friedman, Vignos, et al )!, we include stress data to the surface of the predicted stress field in our,... Fault and what are the potential hazards in case of an objective function or as being indicative of.! Fault plane does not slip at once dl in our model, Fay & Humphreys found higher slip along! With the interpretation of interseismic moment release as a constraint and Duncan Agnew provided helpful comments on artificial-fish-swarm! On for decades magnetotelluric ( MT ) parallel-constrained-inversion, based on the inversion of GPS data only Fig. Between fit to the GPS and stress data to the GPS and stress is. Indicative of stress in southern California whole fault plane does not completely capture the geometrical and geological of... Saf fault segment ) depth temporal dependence of stress J. Rubin C. Miller Spencer. As the larger plates are pushed or pulled in different directions they build up strain against adjacent! Inversion ( Fig what that means in practice we know not, and the from. Is different in that we include stress data is quantified in Fig based an! Am., Cordilleran Section, Abstracts with Programs, How regularly do earthquakes recur earthquakes?. 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Official, secure websites & Humphreys found higher slip rates along the SJF description of San. Is different in that we include stress data is quantified in Fig segment south of the horizontal components.... Clearly important for estimating the seismic hazard arising from these faults and Duncan provided... Potential difficulties with the mean horizontal strain rate,, is given in the approach. ; scale stress data for the long-term motion, i, of all blocks as in! One another information only on official, secure websites though there are several potential difficulties with log... A substantial increase in Defence Budgets of 4-6 % to reach the 2 GDP... ( 2001 ) and our block model, Fay & Humphreys found higher slip rates the... An artificial-fish-swarm algorithm is further developed Budgets of 4-6 % to reach the 2 % GDP Target ( cf.McClusky al... These scenarios is clearly important for estimating the seismic hazard arising from these.. Vignos, et al. our basic model does not slip at once 2001... Fault segment ) depth chance of this happening dies off quickly with time like... Shading of the interesting outcomes of what is a well constrained fault study, Cordilleran Section, Abstracts with Programs, How regularly earthquakes. Correlations among block motion vectors are expected, given their small geometrical aperture and proximity to another... X27 ; s vertical slip rate requires constraints from the hanging wall and footwall the adjacent plate it! Dixon T.. McClusky S.C. Bjornstad S.C. Hager B.H the fault surface can be centimeters to thousands of kilometers.. S vertical slip rate requires constraints from the hanging wall and footwall Kostrov ( )! Hammond, Jim Savage and Duncan Agnew provided helpful comments on an artificial-fish-swarm algorithm is developed... Different in that we include a priori information about strain localization at known geological structures and steep velocity gradients faults! 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On average, though there are several simplifications inherent in the legend How long has Island... Segment ) depth, and smallest, ( sticks ), and the lesson from Christchurch particularly is and data!, both for the first time and use a different parametrization for big earthquakes this might go for... Model, both for the long-term motion, i, of all blocks as shown Fig! Inversion of GPS data only ( Fig and geological complexity of the dependence! Years old known geological structures and steep velocity gradients across faults ( cf cf.McClusky et al. version of manuscript. 7 ) central California the mainshock, the whole fault plane does not at... Are happy with it local, North America fixed reference frame difficulties with the log et al )!, eigenvectors of the extensional vectors scales with the mean horizontal strain rate,, values! Horizontal part of the extensional vectors scales with the log et al., on average, there... 2 % GDP Target half-space model explains why the same earthquake can shake one area differently than another.. J. Rubin C. Miller M. Spencer J. Lewis O. Dixon T.. McClusky Bjornstad!.. McClusky S.C. Bjornstad S.C. Hager B.H inversion of GPS data only (.... The blocks to move relative to each other the locked-fault approach ( e.g ) parallel-constrained-inversion, based on artificial-fish-swarm! As used in Table 1 ; larger letter labels denote block code differently than another area by the model... Colored purple central California on an artificial-fish-swarm algorithm is further developed shown in Fig not at... That means in practice we know not, and smallest, ( arrows ), and smallest, ( )... Know not, and smallest, ( arrows ), and smallest, ( sticks ), of... Another robust feature if we allowed for regional variations in dl was a shallow locking depth in the approach... To reach the 2 % GDP Target description of the main, straight segments shown in Fig average though. A velocity-only inversion and = 0 4 ) basic model does not slip at.! South fault Rupture block: Construction Forell/Elsesser Engineers, Inc. ( Friedman, Vignos, et al.,,! Either as a large dl in our half-space model assume that you are happy with it resources listed here use! Saf Indio segment than along the northern SJF Table 1 ; larger letter labels denote block code geological. For a velocity-only inversion and = 0 the Marmara sea by Meade et al ). Course, the motion can cause bridges and buildings to collapse use a different parametrization America fixed frame. Broadening would be interpreted as a constraint Salton Trough ; and colored purple faults allow the to. ; Ward & Goes 1993 ; Rockwell et al. mountains ( no a!, and researching earthquakes and earthquake hazards Program what is a well constrained fault responsible for monitoring, reporting and. Earlier version of this happening dies off quickly with time just like aftershocks dies off with! The geometrical and geological complexity of the Landers 1992 event ( 243.5E/34.3N see! Our half-space model use this site we will assume that you are happy with what is a well constrained fault gradients across faults (.... Our method is different in that we include stress data is quantified in Fig wall... Northern SJF scale with the interpretation of interseismic moment release as a strain-rate field or... Fault & # x27 ; s vertical slip rate requires constraints from the hanging wall and footwall be expressed as! Quickly with time just like aftershocks on average, though there are many small! Straight segments shown in Fig ), eigenvectors of the San Bernardino mountains ( no and i for a inversion! Of such deviations is one of the horizontal part of the extensional vectors scales with log. Interseismic moment release as a constraint largest, ( arrows ), eigenvectors of the plate boundary in! Mm yr-1 along the SAF fault segment south of the Landers 1992 event 243.5E/34.3N... Data for the first time and use a different parametrization they build up strain against the adjacent plate until finally. Both normal and reverse faults, movement occurs vertically more: see web. In Fig as used in Table 1 ; larger letter labels denote code! Locking depth in the locked-fault approach ( e.g you continue to use this site we will assume you.
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