TY - JOUR T1 - THE FIRST RESULTS OF PALEOSEISMOLOGICAL STUDIES BETWEEN OXFORD UNIVERSITY AND REPUBLICAN SEISMIC SURVEY CENTER OF ANAS AU - Walker, Richard AU - Yetırmıshlı, Gurban AU - Pierce, Ian AU - Kazimova, Sabina AU - Kazimova, Ilyas PY - 2022 DA - December JF - Seismoprognosis Observations in the Territory of Azerbaijan PB - Azerbaycan Milli Bilimler Akademisi WT - DergiPark SN - 2219-6641 SP - 3 EP - 8 VL - 22 IS - 2 LA - en AB - The article presents the first results of paleoseismological studies between the University of Oxford and the RSSC of ANAS. In April 2021, negotiations began on the creation of a mega-project to study active tectonics and earthquakes in Azerbaijan. The first field geological studies under the supervision of Professor Richard Walker were conducted in April 2022after numerous meetings and negotiations. According to advanced technologies, including satellite imaging, drone modeling, GPS and InSar technologies, seismic deployment and paleoseismic excavations in the Aghsu and Salyan districts, the fault traces of the Main Caucasian thrust and the West Caspian strike-slip faults were studied. The results of the studies are preliminary, and more detailed analysis of the collected data and geological samples is required in order to obtain the final results. KW - paleoseismology KW - historical earthquakes KW - macroseismic data KW - Main Caucasian thrust. CR - 1. Day, C.C., Carolin, S.A., Walker, R.T., Ersek, V., Sloan, R.A., Dee, M.W., Talebian, M. and Henderson, G.M., 2019. Reply to Jaffe et al.: Paleoscience precision in an archeological or historical context. Proceedings of the National Academy of Sciences of the United States of America. CR - 2. Grützner, C., Campbell, G., Walker, R.T., Jackson, J., Mackenzie, D., Abdrakhmatov, K., 2019. Shortening accommodated by thrust and strike-slip faults in the Ili Basin, northern Tien Shan, Tectonics CR - 3. Grützner, C., Walker, R., Ainscoe, E., Elliott, A., Abdrakhmatov, K., 2019. Earthquake environmental effects of the 1992 Ms7.3 Suusamyr earthquake, Kyrgyzstan, and their implications for palaeo-earthquake studies. Geosciences, 9, 271. CR - 4. Hürtgen, J., Reicherter, K., Spies, T., Geisler, C. & Schlittenhardt, J. (2020). The Paleoseismic Database of Germany and Adjacent Regions PalSeisDB v1.0. In: Kaiser, D. (Ed.). Historical Earthquakes, Paleoseismology, Neotectonics, and Seismic Hazard: New Insights and Suggested Procedures, DGEB-Publikation 18, Deutsche Gesellschaft für Erdbebeningenieurwesen und Baudynamik, 73- 136. doi: 10.23689/fidgeo-3867 CR - 5. James P.Mc, CalpinAlan, R.Nelson Chapter 1 Introduction to paleoseismology // International GeophysicsVolume 62, 1996, Pages 1-32 CR - 6. Rizza. M., Abdrakhmatov, K., Walker R., Braucher R., Campbell G., McKenzie D., Guillou V., Carr, A., Jackson J., Ali-Hadji H. and ASTER Team, 2019. Rate of slip from multiple quaternary dating methods and paleoseismic investigations along the Talas-Fergana Fault: tectonic implications for the Western Tien Shan Range. Tectonics CR - 7. Van Loon, A.J.T., Pisarska-Jamroży, M., 2014. Sedimentological evidence of Pleistocene earthquakes in NW Poland induced by glacio-isostatic rebound. Sedimentary Geology, 300, 1–10, doi: 10.1016/j.sedgeo.2013.11.006. CR - 8. Джибладзе Э.А. Об определении макросейсмической интенсивности по инструментальным данным. – Изв. АН СССР.Физ.Земли, 1971, №9, с. 72-75 CR - 9. Материалы конференции «Наука о землетрясениях и рисках в Центральной Азии Алматы, Казахстан, 7-9 сентября 2016», Overseas Development Institute 2016, с. 8-15 CR - 10. Хромовских В.С., Солоненко В.П., Семенов Р.М., Жилкин В.М. Палеосейсмология Большого Кавказа. М.: Наука, 1979, с. 188 UR - https://dergipark.org.tr/en/pub/sota/issue//1657685 L1 - https://dergipark.org.tr/en/download/article-file/4689988 ER -