| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2009JGRB..114.4401G |
| P356 | DOI | 10.1029/2008JB005913 |
| P50 | author | John C. Gosse | Q6235848 |
| Ryan D. Gold | Q57408446 | ||
| Eric S. Cowgill | Q58904609 | ||
| P2093 | author name string | Xuanhua Chen | |
| J Ramón Arrowsmith | |||
| Xiao‐Feng Wang | |||
| P2860 | cites work | Geodetic evidence for a low slip rate in the Altyn Tagh fault system | Q33893255 |
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| Cenozoic Tectonics of Asia: Effects of a Continental Collision: Features of recent continental tectonics in Asia can be interpreted as results of the India-Eurasia collision | Q34676008 | ||
| Slip-rate measurements on the Karakorum Fault may imply secular variations in fault motion | Q47304400 | ||
| Magnitude of late quaternary left-lateral displacements along the north edge of tibet | Q47346753 | ||
| Development of the Radiocarbon Calibration Program | Q54864767 | ||
| Terrestrial in situ cosmogenic nuclides: theory and application | Q56270054 | ||
| Geologic Evolution of the Himalayan-Tibetan Orogen | Q56566254 | ||
| Formation and evolution of strike-slip faults, rifts, and basins during the India-Asia Collision: An experimental approach | Q56673547 | ||
| Value of historical records of earthquakes | Q57140514 | ||
| Intcal04 Terrestrial Radiocarbon Age Calibration, 0–26 Cal Kyr BP | Q57262925 | ||
| Radiocarbon Calibration and Analysis of Stratigraphy: The OxCal Program | Q57262952 | ||
| Cosmogenic 10Be and 36Cl geochronology of offset alluvial fans along the northern Death Valley fault zone: Implications for transient strain in the eastern California shear zone | Q57865396 | ||
| Temporal clustering of major earthquakes along individual faults due to post-seismic reloading | Q57885594 | ||
| Elevated shear zone loading rate during an earthquake cluster in eastern California | Q58211288 | ||
| Long-range and long-term fault interactions in Southern California | Q58222331 | ||
| Codependent histories of the San Andreas and San Jacinto fault zones from inversion of fault displacement rates | Q58643445 | ||
| The age of scarplike landforms from diffusion-equation analysis | Q58869109 | ||
| Slip-line field theory and large-scale continental tectonics | Q59086177 | ||
| The Akato Tagh bend along the Altyn Tagh fault, northwest Tibet 1: Smoothing by vertical-axis rotation and the effect of topographic stresses on bend-flanking faults | Q59243267 | ||
| Comparison of geodetic and geologic data from the Wasatch region, Utah, and implications for the spectral character of Earth deformation at periods of 10 to 10 million years | Q59295995 | ||
| Geomorphic evidence for active faulting in the Altyn Tagh and northern Tibet and qualitative estimates of its contribution to the convergence of India and Eurasia | Q59666717 | ||
| Impact of riser reconstructions on estimation of secular variation in rates of strike–slip faulting: Revisiting the Cherchen River site along the Altyn Tagh Fault, NW China | Q59790128 | ||
| Application of trishear fault-propagation folding to active reverse faults: examples from the Dalong Fault, Gansu Province, NW China | Q59790136 | ||
| The Akato Tagh bend along the Altyn Tagh fault, northwest Tibet 2: Active deformation and the importance of transpression and strain hardening within the Altyn Tagh system | Q59790142 | ||
| Continuous deformation of the Tibetan Plateau from global positioning system data | Q59805867 | ||
| Reconstruction of the Altyn Tagh fault based on U-Pb geochronology: Role of back thrusts, mantle sutures, and heterogeneous crustal strength in forming the Tibetan Plateau | Q60304947 | ||
| Crustal thickening in Gansu-Qinghai, lithospheric mantle subduction, and oblique, strike-slip controlled growth of the Tibet plateau | Q60304948 | ||
| Intracrustal detachment within zones of continental deformation | Q60418949 | ||
| InSAR slip rate determination on the Altyn Tagh Fault, northern Tibet, in the presence of topographically correlated atmospheric delays | Q60698709 | ||
| Late Quaternary to decadal velocity fields in Asia | Q60714065 | ||
| Inescapable slow slip on the Altyn Tagh fault | Q60717606 | ||
| Conjugate strike-slip faulting along the Bangong-Nujiang suture zone accommodates coeval east-west extension and north-south shortening in the interior of the Tibetan Plateau | Q60962863 | ||
| Microplate model for the present-day deformation of Tibet | Q61469713 | ||
| Explicit treatment of inheritance in dating depositional surfaces using in situ 10Be and 26Al | Q63185014 | ||
| Late Holocene earthquake history of the central Altyn Tagh fault, China | Q67213837 | ||
| Transient strain accumulation and fault interaction in the Eastern California shear zone | Q67213878 | ||
| Characterizing arid region alluvial fan surface roughness with airborne laser swath mapping digital topographic data | Q69234846 | ||
| Cosmic ray labeling of erosion surfaces: in situ nuclide production rates and erosion models | Q73654027 | ||
| A complete and easily accessible means of calculating surface exposure ages or erosion rates from 10Be and 26Al measurements | Q76580710 | ||
| Morphologic dating of fluvial terrace scarps and fault scarps near West Yellowstone, Montana | Q94402677 | ||
| Spatial variations in slip rate along the Death Valley-Fish Lake Valley fault system determined from LiDAR topographic data and cosmogenic 10Be geochronology | Q94763726 | ||
| Tomographic evidence for localized lithospheric shear along the altyn tagh fault | Q95438677 | ||
| Holocene rate of slip and tentative recurrence interval for large earthquakes on the San Andreas fault, Cajon Pass, southern California | Q96777631 | ||
| Cosmogenic dating of fluvial terraces, Fremont River, Utah | Q97323420 | ||
| Dating fluvial terraces with and profiles: application to the Wind River, Wyoming | Q97323454 | ||
| Magnitude of post-Middle Jurassic (Bajocian) displacement on the central Altyn Tagh fault system, northwest China | Q97448072 | ||
| Uniform postglacial slip-rate along the central 600 km of the Kunlun Fault (Tibet), from 26Al, 10Be, and 14C dating of riser offsets, and climatic origin of the regional morphology | Q97448144 | ||
| Long-term elasticity in the continental lithosphere; modelling the Aden Ridge propagation and the Anatolian extrusion process | Q97448147 | ||
| Initiation and Long-Term Slip History of the Altyn Tagh Fault | Q97448151 | ||
| Tectonic history of the Altyn Tagh fault system in northern Tibet inferred from Cenozoic sedimentation | Q106115737 | ||
| P433 | issue | B4 | |
| P407 | language of work or name | English | Q1860 |
| P577 | publication date | 2009-04-01 | |
| P1433 | published in | Journal of Geophysical Research | Q2738009 |
| P1476 | title | Riser diachroneity, lateral erosion, and uncertainty in rates of strike‐slip faulting: A case study from Tuzidun along the Altyn Tagh Fault, NW China | |
| P478 | volume | 114 |
| Q97447273 | A Regionally Evolving Transpressional Duplex Along the Northern Margin of the Altyn Tagh Fault: New Kinematic and Timing Constraints From the Sanweishan and Nanjieshan, China |
| Q59588400 | Crustal Deformation of the Altyn Tagh Fault Based on GPS |
| Q59904629 | Fast slip-rate along the northern end of the Karakorum fault system, western Tibet |
| Q98416370 | Multimillennial Incremental Slip Rate Variability of the Clarence Fault at the Tophouse Road Site, Marlborough Fault System, New Zealand |
| Q59786236 | Paleoseismic Investigation of the Aksay Restraining Double Bend, Altyn Tagh Fault, and Its Implication for Barrier-Breaching Ruptures |
| Q101248744 | Seismic Hazard Analyses From Geologic and Geomorphic Data: Current and Future Challenges |
| Q98076694 | The Pingding segment of the Altyn Tagh Fault (91°E): Holocene slip-rate determination from cosmogenic radionuclide dating of offset fluvial terraces |
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