This month’s list has everything: classic paleoseismology, tsunami studies, archaeology and historical seismology, lake turbidites from the Alps, deformed soft sediments, folds and faults, tidal notches and geodesy, etc.. Enjoy reading and drop me an email in case I have missed something.
- Bouscary, C., King, G. E., Grujic, D., Lavé, J., Almeida, R., Hetényi, G., & Herman, F. (2024). Sustained deformation across the Sub-Himalayas since 200 ka. Geology, 52(1), 72-76.
- Zheng, R. Y., Yu, Z. Y., Chen, B. X., Li, L. W., & Wang, Y. C. (2024). Active tectonic deformation and its seismic–geological significance of boundary faults of the Daxing Uplift and Langgu–Dachang Depression, Beijing Plain, China. Applied Geophysics, 1-13.
- Ma, H., & Dong, S. (2024). A case of paleoseismic evidence of normal fault capable of triggering an M> 8 earthquake− study on Sertengshan Range-front Fault, north margin of Hetao Basin, China. Journal of Structural Geology, 105145.
- Oviedo‐Reyes, J. A., Cortés‐Aranda, J., Fernandez, A., Perez‐Peña, J. V., & Flores, L. (2024). Geomorphic signatures of neotectonic activity along the Western Andean Front in the Chilean Andes (35° S to 37° S). Earth Surface Processes and Landforms.
- Daxer, C., Wils, K., Ramisch, A., Strasser, M., & Moernaut, J. (2024). Contrasting sedimentary and long-lasting geochemical imprints of seismic shaking in a small, groundwater-fed lake basin (Klopeiner See, Eastern European Alps). Sedimentologika, 2(1).
- Lazaridis, G., Katrivanos, E., Dora, D., Papadopoulou, L., Lazos, I., & Chatzipetros, A. (2024). Evaluating the Relation of Cave Passage Formation to Stress-Field: Spatio-Temporal Correlation of Speleogenesis with Active Tectonics in Asprorema Cave (Mt. Pinovo, Greece). Geosciences, 14(5), 126.
- Mandal, S., Srimani, S., Mondal, I., Choudhuri, A., Das, A., Das, K., … & Sarkar, S. (2024). Seismic-Aseismic impact on marine depositional dynamics and sedimentary architecture: Study on multilayer-multiscale SSDS in Proterozoic Rohtas Limestone, India. Sedimentary Geology, 106661.
- Manić, M. I., & Bulajić, B. Đ. (2024). Reassessing the Location, Magnitude, and Macroseismic Intensity Map of the 8 April 1893 Svilajnac (Serbia) Earthquake. Applied Sciences, 14(9), 3893.
- Hough, S. E. & Bilham, R. (2024). On the Provenance of Field Reports of the 1886 Charleston, South Carolina, Earthquake: A Seismo‐Historical Whodunnit. SRL.
- Bilham, R., & Hough, S. E. (2024). Static and Dynamic Strain in the 1886 Charleston, South Carolina, Earthquake. BSSA.
- DePaolis, J. M., Dura, T., Witter, R. C., Haeussler, P. J., Bender, A., Curran, J. H., & Corbett, D. R. (2024). Repeated coseismic uplift of coastal lagoons above the Patton Bay splay fault system, Montague Island, Alaska, USA. Journal of Geophysical Research: Solid Earth, 129, e2023JB028552.
- Faivre, S., Lončar, N., Tomljenović, B., Sečanj, M., Herak, M., & Barešić, J. (2024). Impact of coseismic uplifting on relative sea level change in the Southern Adriatic during the past 4.500 years–New evidence from Dubrovnik epicentral area based on analysis of algal rims and tidal notches. Geomorphology, 109262.
- Wedmore, L. N., Evans, D., Williams, J. N., Biggs, J., Fagereng, Å., Mawejje, P., … & Hobley, D. E. (2024). The early onset of magmatic rift faulting in the Edward-George Rift, Uganda. Earth and Planetary Science Letters, 638, 118762.
- Malik, J. N., Srivastava, E., Gadhavi, M. S., Livio, F., Sharma, N., Arora, S., Parrino, N., Burrato, P. & Sulli, A. (2024). Holocene surface-rupturing paleo-earthquakes along the Kachchh Mainland Fault: shaping the seismic landscape of Kachchh, Western India. Sci Rep 14, 11612
- Shi, P., Liu, F., Meng, X. et al. (2024). Recent Jishishan earthquake ripple hazard provides a new explanation for the destruction of the prehistoric Lajia Settlement 4000a B.P.. Sci Rep 14, 11630.
- Hategekimana, F., Kim, Y. S., Mittal, H., Byiringiro, F. V., Adam, M. S., Rwabuhungu Rwatangabo, D. E., & Naik, S. P. (2024). Reconnaissance survey and macroseismic intensity estimation of the 26th May 2021 Gisenyi (Rwanda) earthquake (Mw 5.1) as a contribution to the seismic hazard assessment in a volcano-tectonic environment. Natural Hazards, 1-24.
- Zhang, L., Li, A., Yang, X., Huang, W., Li, S., & Yang, H. (2024). Multiple Fold Earthquakes Recorded by the Paleoseismic Surface Ruptures of Bending‐Moment Faults in the Qiulitage Anticline, South Tianshan, China. Seismological Research Letters.
- Higgins, M., La Femina, P. C., Saballos, A., Geirsson, H., Strauch, W., Malservisi, R., & Mattioli, G. (2024). The geodetic signature of bookshelf faulting in Nicaragua. Tectonics, 43(5), e2023TC008101.
- Watson, A. R., Elliott, J. R., Lazecký, M., Maghsoudi, Y., McGrath, J. D., & Walters, R. J. (2024). An InSAR-GNSS velocity field for Iran. Geophysical Research Letters, 51, e2024GL108440.
- Heidarzadeh, M., Ishibe, T., Gusman, A. R., & Miyazaki, H. (2024). Field surveys of tsunami runup and damage following the January 2024 Mw 7.5 Noto (Japan sea) tsunamigenic earthquake. Ocean Engineering, 307, 118140.
- Oliva, S. J., Bostock, M. G., Schaeffer, A. J., Nissen, E., Merrill, R., Hughes, A., … & Gase, A. (2024). Incipient subduction and slip partitioning at high obliquity: The Haida Gwaii plate boundary. Journal of Geophysical Research: Solid Earth, 129(5), e2024JB028752.
- Zafar, M. N., Dutykh, D., Sabatier, P., Banjan, M., & Kim, J. (2024). Numerical reconstruction of landslide paleotsunami using geological records in Alpine Lake Aiguebelette. Journal of Geophysical Research: Solid Earth, 129, e2023JB028629
- Silva-Fragoso, A., Norini, G., Nappi, R., Groppelli, G., & Michetti, A.M. (2024). Improving the Accuracy of Digital Terrain Models Using Drone-Based LiDAR for the Morpho-Structural Analysis of Active Calderas: The Case of Ischia Island, Italy. Remote Sensing 16(11), 1899.
- Gong, Z., Li, H., Zhang, H., Kuterdem, K., Wang, S., Si, J., … & Tang, F. (2024). The 2023 Mw7. 7 Pazarcik earthquake caused a reversal in vertical motion along the SW branch of the East Anatolian fault. Journal of Structural Geology, 105172.
- Williams, J. (2024). Mid-8th Century CE Seismic Sequences Along the Dead Sea Transform. Annals of Geophysics, 67(1), SE101-SE101.
- Stich, D., Morales, J., López-Comino, J. Á., Araque-Pérez, C., Azañón, J. M., Dengra, M. Á., … & Weber, M. (2024). Seismogenic structures and active creep in the Granada Basin (S-Spain). Tectonophysics, 230368.
- La Selle, S. M., Nelson, A. R., Witter, R. C., Jaffe, B. E., Gelfenbaum, G., & Padgett, J. S. (2024). Testing megathrust rupture models using tsunami deposits. Journal of Geophysical Research: Earth Surface, 129(5), e2023JF007444.
- Ma, H., & Dong, S. (2024). A case of paleoseismic evidence of normal fault capable of triggering an M> 8 earthquake− study on Sertengshan Range-front Fault, north margin of Hetao Basin, China. Journal of Structural Geology, 105145.
- Salamon, A., Omira, R., Zohar, M., & Baptista, M. A. (2024). Modern outlook on the source of the 551 AD tsunamigenic earthquake that struck the Phoenician (Lebanon) coast. Natural Hazards, 1-37.
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