New papers on paleoseismology, active tectonics, and archaeoseismology (June 2022)

As Francesca has reported in her latest post, a lot of trenching is currently going on all around the world. Here you can read about previous trenching results that have now made it through review. Enjoy reading and have a great field season!

• Dodds, N., Begenjev, G., Bezmenov, Y., Gruetzner, C., Mirzin, R., Rhodes, E., Walker, R. T., & Wordsworth, P. (2022). A Major Medieval Earthquake on the Main Köpetdag (Kopeh Dagh) Fault, Turkmenistan. Bulletin of the Seismological Society of America.
• Dodds, N., Daout, S., Walker, R. T., Begenjev, G., Bezmenov, Y., Mirzin, R., & Parsons, B. (2022). Interseismic deformation and strain-partitioning along the main Köpetdag fault, Turkmenistan, with Sentinel-1 InSAR time-series. Geophysical Journal International, 230(3), 1612-1629.
• Naik, S. P., Gwon, O., Park, K., Bae, S. Y., Shin, H. C., Choi, J. H., & Kim, Y. S. (2022). Localization and characterization of the southern Ulsan fault (UF) using geo-electrical imaging: Implication for seismic hazard assessment in an urbanized area. Journal of Geodynamics, 151, 101919.
• Aati, S., Milliner, C., & Avouac, J. P. (2022). A new approach for 2-D and 3-D precise measurements of ground deformation from optimized registration and correlation of optical images and ICA-based filtering of image geometry artifacts. Remote Sensing of Environment, 277, 113038.
• Lei, Q., Yu, J., Zhang, P., Zheng, W., Zhang, Z., Du, P., & Wang, Y. (2022). Tectonic geomorphology and prehistoric earthquakes of the West Helanshan fault, West Ordos, and its implications for regional tectonics and seismic hazard. Tectonophysics, 229375.
• Guang-xue, R. E. N., Chuan-you, L. I., & Kai, S. U. N. (2022). Late Quaternary Activity and Transpressional Deformation of the Karlik Tagh North Fault, Easternmost Tianshan. Seismology and Geology, 44(1), 46. (in Chinese).
• Akciz, S. O., & Rockwell, T. K. (2022). Holocene Faulting and Earthquake Recurrence along the Northern Agua Tibia–Earthquake Valley Fault Zone and Implications for Slip Distribution in Southern California. Bulletin of the Seismological Society of America.
• Livio, F. A., Zerboni, A., Ferrario, M. F., Mariani, G. S., Martinelli, E., & Amit, R. (2022). Triggering processes of deep-seated gravitational slope deformation (DSGSD) in an un-glaciated area of the Cavargna Valley (Central Southern Alps) during the Middle Holocene. Landslides, 1-17.
• Stiros, S. C. (2022). The 373 BC Helike (Gulf of Corinth, Greece) Earthquake and Tsunami, Revisited. Seismological Society of America, 93(1), 444-457.
• Katsonopoulou, D., & Koukouvelas, I. (2022). Comment on “The 373 BC Helike (Gulf of Corinth, Greece) Earthquake and Tsunami, Revisited” by Stiros (2022). Seismological Research Letters.
• Stiros, S. C. (2022). Reply to “Comment on ‘The 373 BC Helike (Gulf of Corinth, Greece) Earthquake and Tsunami, Revisited’by” by Dora Katsonopoulou and Ioannis Koukouvelas. Seismological Research Letters.
• Gemignani, L., Mittelbach, B. V., Simon, D., Rohrmann, A., Grund, M. U., Bernhardt, A., … & Handy, M. R. (2022). Response of Drainage Pattern and Basin Evolution to Tectonic and Climatic Changes Along the Dinarides-Hellenides Orogen. Frontiers in Earth Science, 10, 821707.
• Li, X., Pierce, I. K., Ai, M., Luo, Q., Li, C., Zheng, W., & Zhang, P. (2022). Active tectonics and landform evolution in the Longxian-Baoji Fault Zone, Northeast Tibet, China, determined using combined ridge and stream profiles. Geomorphology, 108279.
• Corbi, F., Bedford, J., Poli, P., Funiciello, F., & Deng, Z. (2022). Probing the seismic cycle timing with coseismic twisting of subduction margins. Nature Communications, 13(1), 1-8.
• Liu, C., Chang, Z., & Li, J. (2022). Characteristics of Ground Cracks Caused by the MS 6.4 Yangbi Earthquake and the Corresponding Tectonic Significance. Earthquake Research Advances, 100142.
• Itoh, Y., Aoki, Y., & Fukuda, J. (2022). Imaging evolution of Cascadia slow-slip event using high-rate GPS. Scientific Reports, 12(1), 1-12.
• Rashidi, A., & Derakhshani, R. (2022). Strain and Moment Rates from GPS and Seismological Data in Northern Iran: Implications for an Evaluation of Stress Trajectories and Probabilistic Fault Rupture Hazard. Remote Sensing 14, no. 9: 2219.
• Pratt, T. L., Shah, A. K., Counts, R. C., Horton, J. W., & Chapman, M. C. (2022). Shallow Faulting and Folding in the Epicentral Area of the 1886 Charleston, South Carolina, Earthquake. Bulletin of the Seismological Society of America.
• Williams, J. N., Wedmore, L. N. J., Scholz, C. A., Kolawole, F., Wright, L. J. M., Shillington, D. J., et al. (2022). The Malawi Active Fault Database: An onshore-offshore database for regional assessment of seismic hazard and tectonic evolution. Geochemistry, Geophysics, Geosystems, 23, e2022GC010425
• Lavecchia, G., Bello, S., Andrenacci, C., Cirillo, D., Ferrarini, F., Vicentini, N., … & Brozzetti, F. (2022). QUaternary fault strain INdicators database-QUIN 1.0-first release from the Apennines of central Italy. Scientific Data, 9(1), 1-16.
• Bello, S., Andrenacci, C., Cirillo, D., Scott, C. P., Brozzetti, F., Arrowsmith, J. R., … & Ao, S. (2022). High-Detail Fault Segmentation: Deep Insight into the Anatomy of the 1983 Borah Peak Earthquake Rupture Zone (Mw 6.9, Idaho, USA). Lithosphere, 2022(1).
• Pousse-Beltran, L., Benedetti, L., Fleury, J., Boncio, P., Guillou, V., Pace, B., … & Socquet, A. (2022). ³⁶Cl exposure dating of glacial features to constrain the slip rate along the Mt. Vettore Fault (Central Apennines, Italy). Geomorphology, 108302.
• Wieler, N., Mushkin, A., Zhang, H., Sagy, A., Porat, N., Shmilovitz, Y., … & Shelef, E. (2022). Geomorphic dating of across‐fault gully incision reveals time‐invariant late Quaternary slip‐rates at the eastern termination of the Altyn Tagh Fault. Geophysical Research Letters, e2021GL096933.
• Liu, X., Xu, W., Radziminovich, N. A., Fang, N., & Xie, L. (2022). Transtensional coseismic fault slip of the 2021 Mw 6.7 Turt Earthquake and heterogeneous tectonic stress surrounding the Hovsgol Basin, Northwest Mongolia. Tectonophysics, 229407.
• Ortiz, G., Saez, M., Alvarado, P., Rivas, C., García, V., Alonso, R., & Zullo, F. M. (2022). Seismotectonic characterization of the 1948 (MW 6.9) Anta earthquake, Santa Bárbara System, central Andes broken foreland of northwestern Argentina. Journal of South American Earth Sciences, 116, 103822.
• Materazzi, M., Bufalini, M., Dramis, F., Pambianchi, G., Gentili, B., & Di Leo, M. (2022). Active tectonics and paleoseismicity of a transverse lineament in the Fabriano valley, Umbria-Marche Apennine (central Italy). International Journal of Earth Sciences, 1-11.
• Sánchez-Sánchez, Y., Elez, J., Silva, P. G., Santos-Delgado, G., Giner-Robles, J. L., & Reicherter, K. (2022). 3D Modelling of Archaeoseismic Damage in the Roman Site of Baelo Claudia (Gibraltar Arc, South Spain). Applied Sciences, 12(10), 5223.
• He, X., Xu, C., Xu, X., & Yang, Y. (2022). Advances on the avoidance zone and buffer zone of active faults. Natural Hazards Research.
• van Rijsingen, E. M., Calais, E., Jolivet, R., de Chabalier, J. B., Robertson, R., Ryan, G. A., & Symithe, S. (2022). Ongoing tectonic subsidence in the Lesser Antilles subduction zone. Geophysical Journal International.
• Štěpančíková, P., Rockwell, T. K., Stemberk, J., Rhodes, E. J., Hartvich, F., Luttrell, K., … & Hók, J. (2022). Acceleration of Late Pleistocene activity of a Central European fault driven by ice loading. Earth and Planetary Science Letters, 591, 117596.
• Pang, L., Lu, H., Lü, Y., Jiang, Y., Wu, D., Wu, M., … & Li, Y. (2022). 10Be dating of the Kuitun River terraces in the northern Chinese Tian Shan foreland: Insights into fluvial evolution and tectonic shortening pattern. Geomorphology, 108317.
• Porras, D., Carrasco, J., Carrasco, P., & González, P. J. (2022). Imaging extensional fault systems using deep electrical resistivity tomography: A case study of the Baza fault, Betic Cordillera, Spain. Journal of Applied Geophysics, 202, 104673.
• Patricelli, G., Poli, M. E., & Cheloni, D. (2022). Structural Complexity and Seismogenesis: The Role of the Transpressive Structures in the 1976 Friuli Earthquakes (Eastern Southern Alps, NE Italy). Geosciences, 12(6), 227.
• Horton, B. K., Capaldi, T. N., & Perez, N. D. (2022). The role of flat slab subduction, ridge subduction, and tectonic inheritance in Andean deformation. Geology.
• Parvaiz, S., Ali, A., Javed, F., & Shah, M. A. (2022). Deformational pattern and seismogenic potential of the eastern Makran subduction zone. Journal of Asian Earth Sciences, 105298.
• Piña‐Valdés, J., Socquet, A., Beauval, C., Doin, M. P., D’Agostino, N., & Shen, Z. K. (2022). 3D GNSS Velocity Field sheds light on the Deformation Mechanisms in Europe: Effects of the vertical crustal motion on the distribution of seismicity. Journal of Geophysical Research: Solid Earth, e2021JB023451.

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