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

Happy New Year everyone! May 2022 bring you health and joy, and may you always encounter nice reviewers and great outcrops. Enjoy reading our latest selection of active tectonics & paleoseismology papers.

• Abbas, W., Ali, S., & Reicherter, K. (2021). Seismicity and landform development of the dextral Kalabagh Fault Zone, Pakistan: Implications from morphotectonics and paleoseismology. Tectonophysics, 229182.
• Galli, P., Galderisi, A., Messina, P., & Peronace, E. (2021). The Gran Sasso fault system: Paleoseismological constraints on the catastrophic 1349 earthquake in Central Italy. Tectonophysics, 229156.
• Galli, P., Peronace, E., & Messina, P. (2021). Archaeoseismic Evidence of Surface Faulting in 1703 Norcia Earthquake (Central Italian Apennines, Mw 6.9). Geosciences, 12(1), 14.
• Iezzi, F., Roberts, G., Faure Walker, J., Papanikolaou, I., Ganas, A., Deligiannakis, G., Beck, J., Wolfers, S., & Gheorghiu, D. (2021). Temporal and spatial earthquake clustering revealed through comparison of millennial strain-rates from ³⁶Cl cosmogenic exposure dating and decadal GPS strain-rate. Sci Rep 11, 23320.
• Jackson, J., & McKenzie, D. (2022). The exfoliation of cratonic Australia in earthquakes. Earth and Planetary Science Letters, 578, 117305.
• Steffen, H., Olesen, O., & Sutinen, R. (eds.) (2021). Glacially-triggered faulting. Cambridge University Press.
• Velázquez-Bucio, M.M., Ferrario, M.F., Muccignato, E., Porfido, S., Sridharan, A., Chunga, K., Livio, F., Gopalan, S., Michetti, A.M., (2021). Environmental effects caused by the Mw 8.2, September 8, 2017, and Mw 7.4, June 23, 2020, Chiapas-Oaxaca (Mexico) subduction events: Comparison of large intraslab and interface earthquakes. Quaternary International.
• Cui, Y., Ma, Z., Aoki, Y., Liu, J., Yue, D., Hu, J., … & Li, Z. (2021). Refining slip distribution in moderate earthquakes using Sentinel-1 burst overlap interferometry: A case study over May 15, 2020 Mw6.5 Monte Cristo range earthquake. Geophysical Journal International.
• Reitman, N. G., Mueller, K. J., & Tucker, G. E. (2021). Surface slip variability on strike‐slip faults. Earth Surface Processes and Landforms.
• Zou, Y., Qi, S., Guo, S., Zheng, B., Zhan, Z., He, N., … & Liu, H. (2021). Factors controlling the spatial distribution of coseismic landslides triggered by the Mw 6.1 Ludian earthquake in China. Engineering Geology, 106477.
• Dura, T., Garner, A.J., Weiss, R. et al. (2021). Changing impacts of Alaska-Aleutian subduction zone tsunamis in California under future sea-level rise. Nat Commun 12, 7119
• Irmak, T. S., Toker, M., Yavuz, E., Şentürk, E. & Güvenaltın, M. A. (2021). New insight into the 24 January 2020, Mw 6.8 Elazığ earthquake (Turkey): An evidence for rupture-parallel pull-apart basin activation along the East Anatolian Fault Zone constrained by Geodetic and Seismological data. Annals of Geophysics, 64, 4, RS439.
• Zou, J., He, H., Yokoyama, Y., Sproson, A. D., Shirahama, Y., Zhou, Y., … & Geng, S. (2021). Identification of Paleoearthquakes and Coseismic Slips on a Normal Fault Using High-Precision Quantitative Morphology: Application to the Jiaocheng Fault in the Shanxi Rift, China. Lithosphere, 2021(Special 2), 2550879.
• Buchner, E., Sach, V.J. & Schmieder, M. (2021). Sand spikes pinpoint powerful palaeoseismicity. Nat Commun 12, 6731.
• Padilla, A. M. R., Oskin, M. E., Rockwell, T. K., Delusina, I., & Singleton, D. M. (2021). Joint earthquake ruptures of the San Andreas and San Jacinto faults, California, USA. Geology.
• Martín-González, F. (2021). Review and Proposed Method to Study the Damage Orientation of Earthquake Effects in Pre-Instrumental Earthquakes. Izvestiya, Physics of the Solid Earth, 57(6), 980-993.
• Wu, C., Wang, W., Zheng, W., Zhang, P., & Yu, Z. (2021). Opposite sense of strike‐slip faulting and crustal rotation accommodating left‐lateral shear between the Tianshan Mountains and Kazakh Platform. Geophysical Research Letters, e2021GL096442.
• Wu, C., Ren, G., Wang, S., Yang, X., Chen, G., Duan, L., … & Zhang, D. (2021). Late Quaternary active faulting on the inherited Baoertu basement fault within the eastern Tian Shan orogenic belt: Implications for regional tectonic deformation and slip partitioning, NW China. GSA Bulletin.
• Lü, L., Li, T., Chen, Z., Chen, J., Jobe, J. T., & Fang, L. (2021). Active structural geometries and their correlation with moderate (M 5.5‐7.0) earthquakes in the Jiashi‐Keping region, Tian Shan southwestern front. Tectonics, e2021TC006760.
• Delcaillau, B., Graveleau, F., Saint Carlier, D., Rao, G., Le Béon, M., Charreau, J., & Nexer, M. (2021). Geomorphic analysis of active fold growth and landscape evolution in the central Qiulitage fold belt, southern Tian Shan, China. Geomorphology, 108063.
• Pierce, I. K. D., Wesnousky, S. G., Saha, S., & Moon, S. (2021). Testing the Synchronicity of Splay‐Fault Ruptures in Carson Valley, Nevada, United States. Bulletin of the Seismological Society of America
• Hocking, E. P., Garrett, E., Aedo, D., Carvajal, M., & Melnick, D. (2021). Geological evidence of an unreported historical Chilean tsunami reveals more frequent inundation. Communications Earth & Environment, 2(1), 1-10.
• McCalpin, J. P., & Jones, L. C. (2021). The Stillwater Scarp, Central Nevada, USA; Coseismic Gravitational Failure on a 1.200-M-High Range-Front Escarpment. Environmental & Engineering Geoscience, 27(4), 377-393.
• Whitney, B., Hengesh, J., & Clark, D. (2021). Age constraints on surface deformation recorded by fossil shorelines at Cape Range, Western Australia: Comment. GSA Bulletin.
• Sandstrom, M. R., O’Leary, M. J., Barham, M., Cai, Y., Rasbury, E. T., Wooton, K. M., & Raymo, M. E. (2021). Age constraints on surface deformation recorded by fossil shorelines at Cape Range, Western Australia: Reply. GSA Bulletin.
• Dougherty, A. J. (2021). Comment on “Relative sea-level records preserved in Holocene beach-ridge strandplains–An example from tropical northeastern Australia” by Brooke, BP, Huang, Z., Nicholas, WA, Oliver, TSN, Tamura, T., Woodroffe, CD, Nichol, SL. Marine Geology, 106700.
• Okuwaki, R., Hicks, S. P., Craig, T. J., Fan, W., Goes, S., Wright, T. J., & Yuji, Y. (2021). Illuminating a Contorted Slab with a Complex Intraslab Rupture Evolution during the 2021 Mw 7.3 East Cape, New Zealand Earthquake. GRL.
• Marconato, L., Leloup, P. H., Lasserre, C., Jolivet, R., Caritg, S., Grandin, R., … & Audin, L. (2021). Insights on fault reactivation during the November 11, 2019, Mw4. 9 Le Teil earthquake in south-eastern France, from a joint 3D geological model and InSAR time series analysis. Geophysical Journal International.
• Priestley, K., Sobouti, F., Mokhtarzadeh, R., Ahmadzadeh‐Irandoust, M., Ghods, R., Motaghi, K., & Ho, T. (2021). New constraints for the on‐shore Makran Subduction Zone crustal structure. Journal of Geophysical Research: Solid Earth, e2021JB022942.
• Nigg, V., Bacigaluppi, P., Vetsch, D. F., Vogel, H., Kremer, K., & Anselmetti, F. S. (2021). Shallow‐Water Tsunami Deposits: Evidence from Sediment Cores and Numerical Wave Propagation of the 1601 CE Lake Lucerne Event. Geochemistry, Geophysics, Geosystems, e2021GC009753.
• Guerra, J. M. T., Cartdineau, C. A., Luengo, I. N., Aguilar, L. P., Neogi, S., Taylor, S., Flores, C. N., Abril, F. T., & Alcántara-Carrió, J. (2021). Sedimentological, Geoarchaelogical and Historical Evidences of the 881 AD Earthquake and Tsunami in the Western Mediterranean Sea (Estepona, Málaga). Science of Tsunami Hazards 40, 4.
• Plattner, C., Parizzi, A., Carena, S., Rieger, S. M., Friedrich, A. M., Abolghasem, A. M., & DeZan, F. (2021). Long-lived afterslip of the 2013 Mw 6.1 Minab earthquake detected by Persistent Scatterer Interferometry along the Irer fault (western Makran-Zagros transition zone, Iran). Geophysical Journal International.
• Givler, R. W., Baldwin, J., & Bloszies, C. (2021). Paleoseismology in Wine Country: Paleoseismic Investigations along the Rodgers Creek Fault in Sonoma County, California. AEG NEWS, 64(3), 35.
• Mathey, M., Doin, M. P., André, P., Walpersdorf, A., Baize, S., & Sue, C. (2021). Spatial Heterogeneity of Uplift Pattern in the Western European Alps Revealed by InSAR Time‐Series Analysis. Geophysical Research Letters, e2021GL095744.
• Alsop, G. I., Marco, S., & Levi, T. (2021). Recognising surface versus sub-surface deformation of soft-sediments: Consequences and considerations for palaeoseismic studies. Journal of Structural Geology, 104493.
• Nomikou, P., Evangelidis, D., Papanikolaou, D., Lampridou, D., Litsas, D., Tsaparas, Y., … & Petroulia, M. (2021). Morphotectonic Structures along the Southwestern Margin of Lesvos Island, and Their Interrelation with the Southern Strand of the North Anatolian Fault, Aegean Sea, Greece. GeoHazards, 2(4), 415-429.
• Srinivasa Kumar, T., & Manneela, S. (2021). A Review of the Progress, Challenges and Future Trends in Tsunami Early Warning Systems. Journal of the Geological Society of India, 97(12), 1533-1544.
• Reynolds, L. C., Simms, A. R., Rockwell, T. K., Yokoyama, Y., Miyairi, Y., & Hangsterfer, A. (2021). Sedimentary response of a structural estuary to Holocene coseismic subsidence. GSA Bulletin.
• Lundgren, P., Liu, Z., & Ali, S. T. (2021). San Andreas fault stress change due to groundwater withdrawal in California’s Central Valley, 1860‐2010. Geophysical Research Letters, e2021GL095975.
• Alessandri, L., Cardello, G. L., Attema, P. A. J., Baiocchi, V., De Angelis, F., Del Pizzo, S., … & Troisi, S. (2021). Reconstructing the Late Pleistocene–Anthropocene interaction between the neotectonic and archaeological landscape evolution in the Apennines (La Sassa cave, Italy). Quaternary Science Reviews, 265, 107067.

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