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

This is the latest list of papers on paleoseismology and related fields. This time we have a lot of new studies on Eastern and Central Asia – very interesting reads! Enjoy reading and let me know if I have missed something.

• D’Agostino, N., Copley, A., Jackson, J., Koçi, R., Hajrullai, A., Duni, L., & Kuka, N. (2022). Active tectonics and fault evolution in the Western Balkans. Geophysical Journal International.
• Puliti, I., Pucci, S., Villani, F., Porreca, M., Benedetti, L., Robustelli, G., … & Stella, G. (2022). Quantitative estimate of long-term slip rate active normal faults: The case of the Paganica Fault (Central Apennines, Italy). Geomorphology, 108411.
• Xu, W., Liu, X., Bürgmann, R., Xie, L., Feng, G., Li, Z., & Wu, L. (2022). Space geodetic evidence of basement‐involved thick‐skinned orogeny and fault frictional heterogeneity of the Papuan Fold Belt, Papua New Guinea. Journal of Geophysical Research: Solid Earth, e2022JB024227.
• Heidarzadeh, M., Gusman, A. R., Patria, A., & Widyantoro, B. T. (2022). Potential Landslide Origin of the Seram Island Tsunami in Eastern Indonesia on 16 June 2021 Following an Mw 5.9 Earthquake. Bulletin of the Seismological Society of America.
• Xiao, L., Zheng, R., & Zou, R. (2022). Coseismic Slip Distribution of the 2021 Mw7. 4 Maduo, Qinghai Earthquake Estimated from InSAR and GPS Measurements. Journal of Earth Science, 33(4), 885-891.
• Guo, J. (2022). Sand liquefaction during the 2021 M 7.4 Maduo earthquake, China. Natural Hazards, 1-17.
• Korzhenkov, A. M., Deev, E. V., & Pozdnyakova, N. I. (2022). Young Landforms Created by Earthquakes in the Foothills of the Kurai Range (Gorny Altai). Seismic Instruments, 58(4), 424-441.
• Chiaraluce, L., Festa, G., Bernard, P., Caracausi, A., Carluccio, I., Clinton, J., … & Sokos, E. (2022). The Near Fault Observatory community in Europe: a new resource for faulting and hazard studies. Annals of Geophysics, 65(3), DM316-DM316.
• Dobosi, L., Kázmér, M. (2022). Late Roman earthquake in Brigetio? In: Biró, Sz. (ed.): Pannonia Underground. Proceedings of the international conference held at Szombathely, 25-26 November 2021. Savaria Museum, Szombathely, pp. 179-207.
• Yoshida, K., Matsuzawa, T., & Uchida, N. (2022). The 2021 Mw7. 0 and Mw6. 7 Miyagi‐Oki earthquakes nucleated in a deep seismic/aseismic transition zone Possible effects of transient instability due to the 2011 Tohoku earthquake. Journal of Geophysical Research: Solid Earth, e2022JB024887.
• Koehl, J. B. P., Bergh, S. G., & Sylvester, A. G. (2022). Tectonic evolution of the Indio Hills segment of the San Andreas fault in southern California, southwestern USA. Solid Earth, 13(8), 1169-1190.
• Sun, W., Wei, Z., Sun, H., & He, H. (2022). Review on the Application of Airborne LiDAR in Active Tectonics of China: Dushanzi Reverse Fault in the Northern Tian Shan. Frontiers in Earth Science, 10, 895758.
• Kaneda, H., Toda, S., Ishimura, D., Kumahara, Y., Goto, H., Okada, S., & Kobayashi, M. (2022). Surface Ruptures and Tectonic Geomorphology Along and Around the Idenokuchi Fault. In Surface Ruptures Associated with the 2016 Kumamoto Earthquake Sequence in Southwest Japan (pp. 151-179). Springer, Singapore.
• Supendi, P., Rawlinson, N., Prayitno, B. S., Widiyantoro, S., Simanjuntak, A., Palgunadi, K. H., … & Arimuko, A. (2022). The Kalaotoa Fault: A Newly Identified Fault that Generated the M w 7.3 Flores Sea Earthquake. The Seismic Record, 2(3), 176-185.
• Zhong, N., Jiang, H., Li, H., Su, D., Xu, H., Liang, L., & Fan, J. (2022). The potential of using soft-sediment deformation structures for quantitatively reconstructing paleo-seismic shaking intensity: progress and prospect. Environmental Earth Sciences, 81(16), 1-22.
• Melnikova, V. I., Filippova, A. I., & Gileva, N. A. (2022). The Muyakan Earthquake Sequence in the North Muya Region of the Baikal Rift Zone: Detailed Analysis and Possible Reasons. Pure and Applied Geophysics, 1-19.
• Luo, H., & Wang, T. (2022). Strain partitioning on the western Haiyuan fault system revealed by the adjacent 2016 Mw5. 9 and 2022 Mw6. 7 Menyuan earthquakes. Geophysical Research Letters, e2022GL099348.
• Passarelli, L., Cesca, S., Nooshiri, N., & Jónsson, S. (2022). Earthquake fingerprint of an incipient subduction of a bathymetric high. Geophysical Research Letters, e2022GL100326.
• Günaydın, S. O., Sorlien, C. C., Cormier, M. H., Barın, B., Seeber, L., Steckler, M. S., … & Özel, Ö. (2022). Post-500 ka and Holocene activity on distributed faults of the North Anatolian Fault system along the southern shelf of Marmara Sea, Turkey. Tectonophysics, 229547.
• Li, K., Tapponnier, P., Xu, X., Ren, J., Wang, S., & Zhao, J. (2022). Holocene slip rate along the Beng Co fault and dextral strike‐slip extrusion of central eastern Tibet. Tectonics, e2022TC007230.
• Gao, J. C., Chan, C. H., Ma, K. F., & Lee, C. T. (2022). Probabilistic Fault Displacement Hazards along the Milun Fault. Bulletin of the Seismological Society of America.
• Moore, G. L., Roland, E., Bennett, S. E., Watt, J., Kluesner, J., Brothers, D., & Myers, E. (2022). High‐Resolution Marine Seismic Imaging of the Seattle Fault Zone: Near‐Surface Insights into Fault Zone Geometry, Quaternary Deformation, and Long‐Term Evolution. Bulletin of the Seismological Society of America.
• Stewart, M., Carleton, W. C., & Groucutt, H. S. (2022). Extreme events in biological, societal, and earth sciences: a systematic review of the literature. Frontiers in Earth Science, 10:786829.
• Lee, T., Ishii, M., & Okubo, P. (2022). Assessing the Fidelity of Seismic Records from Microfilm and Paper Media. Seismological Research Letters.
• Bi, H., Zheng, W., Zhang, P., Zeng, J., Shao, Y., Yao, Y., … & Peng, H. (2022). Recovering surface slip distribution along the Sertengshan Piedmont Fault (Northern China) from airborne LiDAR data. Tectonics, e2021TC007174.
• Zubovich, A., Metzger, S., Schöne, T., Kley, J., Mosienko, O., Zech, C., … & Sharshebaev, A. (2022). Cyclic fault slip under the magnifier: Co‐and postseismic response of the Pamir front to the 2015 Mw7. 2 Sarez, Central Pamir, earthquake. Tectonics, e2022TC007213.
• Udías, A., Buforn, E., & Mattesini, M. (2022). Contemporary Publications in Europe on the Spanish Earthquake of 1884. Seismological Research Letters.
• McPhilipps, D. (2022). Revised Earthquake Recurrence Intervals in California, U.S.A.: New Paleoseismic Sites and Application of Event Likelihoods. Seismological Research Letters.

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