Coping with Tectonic Motion

Coping with Tectonic Motion

Coping with sing GPS technology, relative to the stable interior of CONUS. surveyors can easily Measurable tectonic motion also extends measure positional coor- well beyond California. As seen in dinates with centimeter- Figure 1, parts of Washington, Oregon, level accuracy. As a and Nevada are also moving in excess of consequence of this 4 mm (0.013 ft) per year relative to stable capability, surveyors are now exposed to CONUS. Such motions demonstrate coordinates that change over time due to that Earth’s outer shell, called the crust, is plate tectonics. In the contiguous United deformable. It is difficult to imagine rock States (CONUS), the fastest changes in deforming; however, if we can imagine coordinates occur in California, because clamping one end of a kilometer-long the state lies almost entirely within rod of solid rock into an unmovable vice, the boundary zone between the with Superman himself positioned at the Pacific plate and the North America opposite end, the Man of Steel would be plate. Some locations in coastal able to flex the rod by displacing his end California move approximately several millimeters (or several parts per 48 mm (0.16 ft) per year million) before the rod would break. >> By Richard Snay and Chris Pearson Displayed with permission • The American Surveyor • Vol. 7 No. 9 • Copyright 2010 Cheves Media • www.Amerisurv.com The flow of molten rock within Earth’s interior and other forces drive the various figure 1 plates to move in different directions from one another. This motion of the plates across Earth’s surface is retarded by fric- tion within the boundary zones between the plates. As a result, the plate boundary zones will gradually deform, and in doing so, elastic restoring forces will accumulate within these zones over time. When these restoring forces overcome the friction, an earthquake occurs with associated slip on a geologic fault, and within a few minutes the area near the earthquake returns somewhat to its original shape. The boundary between two plates is not simply a major geologic fault (like California’s San Andreas fault), but rather it includes a zone of deformation that may extend several hundred kilometers in width. Inside this zone, a system of geologic faults is likely to exist where, during past earthquakes, Earth’s crust fractured when the elastic restoring forces (due to crustal deformation) exceeded the strength of the local rock. The Pacific and North America plates are not the only tectonic plates contribut- ing to crustal deformation in western CONUS. Extending from California’s Cape Mendocino northward to British Columbia, a collection of three smaller tectonic plates–the Gorda plate, the Juan de Fuca plate, and the Explorer plate–is colliding with the North America plate at a rate of approximately 4 cm (0.13 Horizontal velocities in western CONUS relative to NAD 83 (CORS96) as ft) per year (Figure 2). Because each of estimated using HTDP 3.0. Colors indicate velocity magnitudes and arrows these three plates is composed of rocks of indicate velocity directions. greater density than the rocks that form the North America plate, these three plates to estimate horizontal velocities on on one date to those that would have been actually subduct or are driven beneath the Earth’s surface anywhere in CONUS, measured on another date. NGS recently North America plate. The primary inter- as well as in parts of Alaska. used this capability to update two decades’ face between the combined three plates HTDP also incorporates numerical worth of interstation GPS vectors and the North America plate intersects models for most of the recent U.S. observed in California, to corresponding Earth’s surface several tens of kilometers earthquakes of magnitude greater than values as if these GPS vectors had all been west of the Washington-Oregon-northern 6.0 on the Richter scale. These models observed on January 1, 2007. The “time- California coastline, and this interface dips enable HTDP users to estimate the homogenized” GPS observations were downward to the east (Figure 3). Similar crustal displacements associated with the then adjusted simultaneously to obtain subduction zones occur off the coast of earthquakes. Taken together, the crustal coordinates for the survey monuments Chile, the east coast of Japan, and the velocity models and the earthquake referenced to the realization of the North south coast of the Aleutian Islands. Such models enable HTDP users to update American Datum of 1983 known as NAD subduction zones experience some of the (or backdate) horizontal coordinates 83 (NSRS2007). The resulting coordinates largest earthquakes that have occurred measured on one date to corresponding thus correspond to the locations of the around the globe. coordinates that would have been survey monuments on January To help surveyors and others cope measured on another date. These models 1, 2007, denoted as 2007.00 with tectonic motion, NOAA’s National also enable HTDP users to update (or when expressed in Geodetic Survey (NGS) has developed backdate) the values of certain types decimal years. the horizontal time-dependent positioning of surveying observations–including (HTDP) software. This software interstation GPS vectors (also called incorporates numerical models for plate GPS baselines), distances, angles, and motion allowing users to apply HTDP azimuths–from the values measured Displayed with permission • The American Surveyor • Vol. 7 No. 9 • Copyright 2010 Cheves Media • www.Amerisurv.com Satellite imagery of the northeast Pacific figure 2 Ocean. The Explorer, Juan de Fuca, and Gorda Ridges constitute part of the boundary between the Pacific plate and the Juan de Fuca/Explorer/Gorda plates. The Cascadia Subduction Zone is also highlighted, which is the area where the oceanic crust of these three small plates is subducting beneath the North America plate, causing significant crustal defor- mation in British Columbia, Washington, Oregon, and northern California. Image courtesy of Submarine Ring of Fire 2002, NOAA’s Office of Ocean Exploration and Research (oceanexplorer.noaa.gov/ explorations/02fire/background/plan/ media/nepac.html). the NAD 83 (CORS96) coordinates referred to the midpoint of the observing session, to corresponding NAD 83 (CORS96) coordinates that would have been observed on January 1, 2002 (or 2002.00), except in Alaska (where 2003.00 is used) due to large displace- ments associated with the November 2002 Denali earthquake (Figure 4). NGS plans to update OPUS in the near future to process all GPS data so that the computed coordinates are referred to the newly derived terrestrial reference frame known as ITRF2008. The updated OPUS utility will then apply HTDP to convert these ITRF2008 coordinates, referred to the midpoint of the GPS observing session, to corresponding NAD 83 coordinates, probably referred to 2010.00 (decision pending). Note that published NAD 83 (NSRS2007) coordinates for passive reference stations (as archived in the NGS Integrated Data Base) are referred to 2007.00. Thus, before HTDP also enables its users to data set and then computes coordinates comparing these coordinates with coor- rigorously transform positional for the location where these data were dinates generated by OPUS, surveyors coordinates and velocities between the collected. Internal to OPUS, the software and others should apply HTDP to realization of the North American Datum currently processes all GPS data so the bring all coordinates to a common of 1983 known as NAD 83 (CORS96) computed coordinates are referred to the date of reference. The use and other popular terrestrial reference International Terrestrial Reference Frame of HTDP to synchronize frames, including all realizations of the of 2000 (ITRF2000). Moreover, these coordinates is especially International Terrestrial Reference System computed coordinates are referred to recommended for (ITRS) and all realizations of the World the midpoint of the GPS observing time survey work Geodetic System of 1984 (WGS84). interval. Firstly, OPUS applies HTDP performed in It should be mentioned that NAD 83 to convert the ITRF2000 coordinates to (NSRS2007) is a close approximation to corresponding NAD 83 (CORS96) coor- NAD 83 (CORS96). Thus, HTDP treats dinates, both referred to the midpoint of these two frames as equivalent. the observing session. Secondly, NGS’ Online Positioning User OPUS applies HTDP Service (OPUS) uses HTDP in two to convert ways. OPUS is a Web-based utility that accepts a user-supplied GPS Displayed with permission • The American Surveyor • Vol. 7 No. 9 • Copyright 2010 Cheves Media • www.Amerisurv.com Every few years, NGS than 2 mm (0.006 ft) per year in each upgrades HTDP to incorporate horizontal dimension, north-south and newer numerical models for horizontal east-west. McCaffrey’s models yield velocities as well as numerical models more accurate velocities, but some of for recent earthquakes. In June 2008, the model’s accuracy was lost when his NGS released version 3.0 incorporat- results were gridded within HTDP to ing a model for horizontal velocity a rectangular array of points spanning developed by Robert McCaffrey of Troy western CONUS. HTDP’s grid size Geophysics, for the region of CONUS ranges from 15' by 15' in areas where California, Oregon, extending from the Rockies westward to velocities change slowly with location, Washington, or Alaska. the Pacific Coast. Unlike velocity models to 3.75' by 3.75' in areas where velocities NGS also uses HTDP to contained in previous HTDP versions, change rapidly with location; such as in estimate both the ITRF2000 and McCaffrey’s model includes physically California, Oregon, and Washington. the NAD 83 (CORS96) horizontal meaningful parameters that characterize HTDP 3.0 also introduced a numerical velocities for newly established con- the locations of major geologic faults and model for the magnitude 7.9 Denali tinuously operating reference stations the slip occurring on these faults, among earthquake that occurred in central (CORS). HTDP-estimated vertical other quantities.

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