كليدواژه :
شمالغرب ايران , توموگرافي , امواج لاو , سرعت گروه
چكيده فارسي :
براي بهدستآوردن توزيع سرعت گروه امواج لاو در شمالغرب ايران و نواحي اطراف آن در دورههاي تناوب 7، 10، 20 و 25 ثانيه، از شكلموج 241 زلزله محلي و منطقهاي در توموگرافي سرعت گروه منحني پاشش امواج لاو استفاده شد. نتايج اين بررسي نشان ميدهد ساختار پوسته در حوضه خزرجنوبي و ناحيه فروافتاده كورا تقريباً يكسان است اما با پوسته شمالغرب ايران تفاوت چشمگيري دارد. ناهنجاريهاي كمسرعت در دورههاي تناوب كمتر از 10 ثانيه، در رسوبات ضخيم و كمسرعت حوضه خزرجنوبي مشاهده شد. در دورههاي تناوب كمتر از 25 ثانيه، براي Aمجموعه بههمپيوسته شرق آناتولي@ كه فعاليتهاي آتشفشاني بسيار بيشتري نسبت به ساير مناطق دارد، سرعت كمتري نسبت به ديگر مناطق مطالعه شده بهدستآمد. نتايج نشان ميدهد كه ساختار پوسته در سه ناحيه تكتونيكي اصلي رشته كوههاي زاگرس با يكديگر متفاوت است. در دورههاي تناوب كمتر از 25 ثانيه، پوسته بالايي خرد شده و فعال Aزاگرس رورانده و چينخورده@ - كه همراه با گسلهاي معكوس و رورانده فعال و كمعمق و نرخ لرزهخيزي زياد در اين ناحيه است - بهصورت يك بيهنجاري كمسرعت مشاهده ميشود كه مرزي واضح با بيهنجاري پُرسرعت در ناحيه Aسنندج- سيرجان@ دارد. نتايج اين تحقيق نشان ميدهد ساختار پوسته در شمالغرب ايران تقريباً يكنواخت و با كمترين تغييرات است و با ساختار پوسته در نواحي حوضه خزرجنوبي، شرق تركيه و كوههاي زاگرس كاملاً متفاوت است.
چكيده لاتين :
To obtain the distribution of the Love wave group velocities in northwest Iran and its surrounding areas for 7, 10, 20 and 25 second periods, the waveform of 241 local and regional events used in a dispersion curve tomography of the Love waves. The evnets occurred within NW Iran and surrounding areas between 2005 and 2015 and were recorded by 39 permanent and temporary medium and broad band seismic stations belonging to national and international seismic networks. In order to reduce the effect of non-uniform distribution of events, we selected the more uniform list of events out of an initial number of 1734 non-uniform distributed events. We applied the Frequency-Time Analysis method to each event-station path for estimation of Love wave group velocities, then we used a tomographic method to compute the distribution of local group velocities throughout the region. From the analysis of the surface wave tomography, we concluded that crustal structure in the South Caspian Basin and the Kura Depression is almost the same, but it is significantly different from that of the northwest Iran. In the presence of thick and low shear velocity sediments in the South Caspian Basin, we observed low velocity anomalies at periods less than 10 seconds that are surrounded by relatively higher velocities along Alborz, Talesh and Lesser Caucasus. In the “Eastern Anatolian Accretionary Complex” where volcanic activities are much higher than in rest of the region, less group velocities were observed for periods less than 25 seconds. The main reason for this observation can be related to the presence of partial melting zones inside the crust as a result of intensive volcanic activities in this region. In Zagros, for the periods of 7 and 10 seconds, a relatively high velocity anomaly along the “Sanandaj-Sirjan” metamorphic zone was observed, which was trapped by two low velocities along the “Zagros Folding and Thrust Belt” in one side and “Urmieh-Dokhtar Magmatic Arc” in another side. The active and broken crust, reverse, active and shallow thrust faults and high seismicity of Zagros Folding and Thrust Belt is characterized by low group velocities in our results for periods of less than 25 seconds. In most areas of central Iran and Urmieh-Dokhtar Magmatic Arc, local sedimentary basins are characterized by low velocities for periods of 7 and 10 seconds. Our results indicate that crustal structure in the northwest of Iran is almost uniform and has the minimum changes, but it is completely different from the crustal structure in the South Caspian Basin, eastern Turkey, and the Zagros mountains.
