Azərbaycan Milli Elmlər Akademiyası
İnsan resursları və elmmetrik məlumatlar bazası
İnsan resursları və elmmetrik məlumatlar bazası
Tahir Məmmədli
ANAS_2536
Elmi fəaliyyət
Qeyd: Elmi işlərin xülasələri əsasında süni intellekt (Gemini AI) tətbiqi ilə tərtib olunmuşdurÜmumi xülasə (AI):
Tahir Məmmədli, Respublika Seysmoloji Xidmət Mərkəzinin Seysmologiya şöbəsinin müdiri olaraq, zəlzələ təhlükəsinin qiymətləndirilməsi və seysmik risklərin təhlili sahəsində ixtisaslaşmış, dəyərli bir mütəxəssisdir. Onun elmi fəaliyyəti əsasən Azərbaycan ərazisində və Cənubi Qafqaz regionunda seysmik aktivliyin öyrənilməsinə yönəlmişdir. Google Scholar profili (ID: 1012) 300 sitat göstəricisinə, 6 H-indeksinə və 3 İ10-indeksinə malikdir, bu da onun elmi ictimaiyyətdə tanınan və təsirli bir tədqiqatçı olduğunu göstərir. Məmmədlinin tədqiqatları əsasən, regionun seysmotektonik xüsusiyyətlərinin, zəlzələ ocaqlarının yerlərinin və enerji dəhlizlərinin (BTC, BTE) seysmik təhlükəsinin öyrənilməsinə həsr olunmuşdur. O, həmçinin, Orta Şərq Zəlzələ Modeli (EMME) layihəsində iştirak edərək regional miqyasda zəlzələ riskinin qiymətləndirilməsi sahəsində də fəaliyyət göstərmişdir. Məmmədli, Azərbaycan ərazisində seysmik zonalaşdırma xəritələrinin hazırlanması, Şərqi Qafqazda zəlzələ ocaqlarının tədqiqi, sürüşmələrin təhlili və Bakı şəhərinin seysmik riskinin qiymətləndirilməsi kimi müxtəlif mövzularda araşdırmalar aparmışdır. Onun elmi işləri, zəlzələ təhlükəsinin və riskinin azaldılmasına yönəlmiş, praktiki əhəmiyyətə malik nəticələr verir.
Tahir Mammadli, as the Head of the Seismology Department of the Republican Seismic Survey Center, is a valuable expert specializing in the assessment of earthquake hazard and the analysis of seismic risks. His scientific activity is mainly focused on studying seismic activity in the territory of Azerbaijan and the South Caucasus region. His Google Scholar profile (ID: 1012) has 300 citations, an h-index of 6, and an i10-index of 3, indicating that he is a recognized and influential researcher in the scientific community. Mammadli's research is primarily dedicated to studying the region's seismotectonic features, the locations of earthquake epicenters, and the seismic hazard of energy corridors (BTC, BTE). He has also participated in the Middle East Earthquake Model (EMME) project, working in the field of regional earthquake risk assessment. Mammadli has conducted research on various topics, such as the development of seismic zoning maps for Azerbaijan, the study of earthquake sources in the Eastern Caucasus, the analysis of landslides, and the assessment of seismic risk in Baku. His scientific work provides results of practical importance, aimed at reducing earthquake hazard and risk.
Тахир Мамедли, заведующий отделом сейсмологии Республиканского центра сейсмологической службы, является ценным экспертом, специализирующимся на оценке сейсмической опасности и анализе сейсмических рисков. Его научная деятельность в основном направлена на изучение сейсмической активности на территории Азербайджана и в регионе Южного Кавказа. Его профиль в Google Scholar (ID: 1012) имеет 300 цитирований, h-индекс 6 и i10-индекс 3, что указывает на то, что он является признанным и влиятельным исследователем в научном сообществе. Исследования Мамедли в основном посвящены изучению сейсмотектонических особенностей региона, расположению очагов землетрясений и сейсмической опасности энергетических коридоров (BTC, BTE). Он также участвовал в проекте Модели землетрясений на Ближнем Востоке (EMME), работая в области оценки регионального сейсмического риска. Мамедли провел исследования по различным темам, таким как разработка карт сейсмического районирования для Азербайджана, изучение очагов землетрясений на Восточном Кавказе, анализ оползней и оценка сейсмического риска в Баку. Его научные работы дают результаты практического значения, направленные на снижение сейсмической опасности и риска.
Tahir Mammadli, as the Head of the Seismology Department of the Republican Seismic Survey Center, is a valuable expert specializing in the assessment of earthquake hazard and the analysis of seismic risks. His scientific activity is mainly focused on studying seismic activity in the territory of Azerbaijan and the South Caucasus region. His Google Scholar profile (ID: 1012) has 300 citations, an h-index of 6, and an i10-index of 3, indicating that he is a recognized and influential researcher in the scientific community. Mammadli's research is primarily dedicated to studying the region's seismotectonic features, the locations of earthquake epicenters, and the seismic hazard of energy corridors (BTC, BTE). He has also participated in the Middle East Earthquake Model (EMME) project, working in the field of regional earthquake risk assessment. Mammadli has conducted research on various topics, such as the development of seismic zoning maps for Azerbaijan, the study of earthquake sources in the Eastern Caucasus, the analysis of landslides, and the assessment of seismic risk in Baku. His scientific work provides results of practical importance, aimed at reducing earthquake hazard and risk.
Тахир Мамедли, заведующий отделом сейсмологии Республиканского центра сейсмологической службы, является ценным экспертом, специализирующимся на оценке сейсмической опасности и анализе сейсмических рисков. Его научная деятельность в основном направлена на изучение сейсмической активности на территории Азербайджана и в регионе Южного Кавказа. Его профиль в Google Scholar (ID: 1012) имеет 300 цитирований, h-индекс 6 и i10-индекс 3, что указывает на то, что он является признанным и влиятельным исследователем в научном сообществе. Исследования Мамедли в основном посвящены изучению сейсмотектонических особенностей региона, расположению очагов землетрясений и сейсмической опасности энергетических коридоров (BTC, BTE). Он также участвовал в проекте Модели землетрясений на Ближнем Востоке (EMME), работая в области оценки регионального сейсмического риска. Мамедли провел исследования по различным темам, таким как разработка карт сейсмического районирования для Азербайджана, изучение очагов землетрясений на Восточном Кавказе, анализ оползней и оценка сейсмического риска в Баку. Его научные работы дают результаты практического значения, направленные на снижение сейсмической опасности и риска.
Tədqiqat maraqları (AI):
Seysmologiya, Zəlzələ mühəndisliyi, Geofizika, Risk analizi, Seysmik zonalaşdırma, Təhlükə modelləşdirməsi
İxtisas sahələri (AI):
Seysmologiya, Zəlzələ mühəndisliyi, Geofizika, Risk analizi, Seysmik zonalaşdırma, Təhlükə modelləşdirməsi
Şəxsi məlumatlar
Tam Adı:
Tahir Yadigar oğlu Məmmədli
Elmi dərəcə:
Elmi ad:
Təvəllüd:
Ünvan:
Telefon:
Email:
İş yeri məlumatları
Təşkilat / Şöbə:
Respublika Seysmoloji Xidmət Mərkəzi / Seysmologiya
Vəzifə:
Şöbə müdiri
Əsas iş yeri:
Bəli
İşləmə müddəti:
1 Yanvar 2024 –
H/h
| İşin adı | Jurnalın adı, Nəşriyyat, cild, N | Müəlliflər | İstinad sayı | Nəşr tarixi | Abstrakt və oxşar məqalələr |
|---|---|---|---|---|---|
| ASSESSMENT OF SEISMIC HAZARD IN THE TERRITORY OF “TAKHTAKORPU” RESERVOIR OF AZERBAIJAN | Seismoprognosis Observations in the Territory of Azerbaijan /Cild: 17 /N: 2 | GJ Yetirmishli, TY Mammadli, RB Muradov, TI Jaferov | 2 | 2019 |
Seismological researches were conducted at the Takhtakorpu …
Seismological researches were conducted at the Takhtakorpu reservoir built in the territory of Shabran district. On the basis of earthquake data, active tectonic faults or potential source zones in Shabran district and adjacent areas have been identified and their seismic potential has been assessed. It was revealed that, the maximum magnitude of the probable earthquakes in the zone of two large-sized active faults or potential source in the area close to the research area is Mmax= 7.4 and Mmax= 6.7, respectively. Seismic hazards may occur in conducted researches of the maximum magnitude earthquakes in this source zones. The earthquakes with maximum magnitude in this source zones can cause seismic hazards with an intensity of 8-9 points on the MSK-64 scale in the territory of “Takhtakorpu” reservoir where researches were conducted.
Daha çox
Əlaqəli məqalələr(Google) |
| About the seismic risk of Sabayil district of Baku | Seismoprognosis Observations in the Territory of Azerbaijan /Cild: 14 /N: 1 | GJ Yetirmishli, TY Mammadli, RB Muradov, TI Jafarov | 2 | 2017 |
The seismic risk of Sabayil district of …
The seismic risk of Sabayil district of Baku is considered. The seismicity of East Azerbaijan has been investigated, potential zones and their seismic potential that can create a seismic hazard in Baku have been identified, the main factors causing seismic risk in the research area (engineering-geological conditions of separate areas, types of building-objects, sustainability situations etc.) have been widely analyzed. It was found that the territory of Sabayil district is characterized by the high seismic hazard. In addition, areas where many people live and many administrative buildings are concentrated are characterized by unfavorable ground conditions and this factor raises the level of seismic hazard to 9 points on the 12-point MSK-64 scale. The presence of frequently recurring Bayil landslides zone in the area is an additional source of hazard.
Daha çox
Əlaqəli məqalələr(Google) |
| Manifestation features of landslide process around the Mingachevir reservoir (2014) | Seismoprognosis Observations in the Territory of Azerbaijan /Cild: 15 /N: 1 | SE Kazimova, GJ Yetirmishli, IE Kazimov, ES Garaveliyev, AG Rzayev, SS Ismayilova, EM Bagyrov, TY Mammadli, RB Muradov | 1 | 2018 |
The landslide incident was recorded around the …
The landslide incident was recorded around the Mingachevir water basin on August 27, 2014. The landslide process occurred in the Boz mountain range mainly on its north-east slopes. The boundary of the slip plane and the active area directed South West-North East of Boz mountain slopes exposed to landslide were determined in this zone. Studies have shown that the depth of the slip plane is different in the separate fields of this area and it changes between 6 to 88 meters.
Daha çox
Əlaqəli məqalələr(Google) |
| Features of Bayil landslide of Baku City in 2011 | Seismoprognosis Observations in the Territory of Azerbaijan /Cild: 12 /N: 1 | GJ Yetirmishli, AG Rzayev, TY Mammadli | 1 | 2015 |
There are several areas prone to landslides …
There are several areas prone to landslides in the city of Baku. Landslide area in Bayil settlement is considered the most dangerous area. In that area landslides occurred many times (1847, 1877, 1919, 1927, 1929, 1932, 1953, 1968, 1969, 1973, 1974, 1996, 2000), which led to the collapse of various constructions and facilities, caused serious damage to the communication lines, as well as to the road infrastructure. The landslide, happened in 2000, covered 150-160 thousand m2 area and approximately 5 million m3 of soil had been in the process of a landslide.
Daha çox
Əlaqəli məqalələr(Google) |
| Tarix | Ümumi Məqalə sayı | Ümumi İstinad sayı | h index | i10 index |
|---|---|---|---|---|
| 1 Noyabr 2025 | 25 | 311 | 6 | 3 |
| 1 Oktyabr 2025 | 24 | 311 | 6 | 3 |
| 1 Sentyabr 2025 | 24 | 302 | 6 | 3 |
| 1 Avqust 2025 | 24 | 300 | 6 | 3 |
| 1 İyul 2025 | 23 | 294 | 6 | 3 |
| 1 İyun 2025 | 23 | 293 | 6 | 3 |
| 1 May 2025 | 23 | 290 | 6 | 3 |
| 1 Aprel 2025 | 23 | 286 | 6 | 3 |
| 1 Mart 2025 | 23 | 283 | 6 | 3 |
| 1 Fevral 2025 | 23 | 276 | 5 | 3 |
| 1 Yanvar 2025 | 23 | 276 | 5 | 3 |
| 1 Dekabr 2024 | 23 | 266 | 5 | 3 |
| 1 Noyabr 2024 | 23 | 259 | 5 | 3 |
| 1 Oktyabr 2024 | 23 | 259 | 5 | 3 |
| 1 Sentyabr 2024 | 23 | 252 | 5 | 3 |
| 1 Avqust 2024 | 23 | 246 | 5 | 3 |
| 1 İyul 2024 | 23 | 243 | 5 | 3 |
| 1 İyun 2024 | 21 | 222 | 5 | 3 |
Content for WOS.
| İşin adı | Jurnalın adı, Nəşriyyat, cild, N | Müəlliflər | İstinad sayı | Nəşr tarixi | Abstrakt və oxşar məqalələr |
|---|---|---|---|---|---|
| The 2014 earthquake model of the Middle East: seismogenic sources | Bulletin of Earthquake Engineering / Springer Netherlands /Cild: 16 /N: 8 səh: 3465-3496 | Nino Tsereteli, Otar Varazanashvili, Tahir Mammadli, Hektor Babayan, Karin Şeşetyan, Shota Adamia, Mher Avanesyan, Ata Elias, Khaled Hessami, Laurentiu Danciu, Domenico Giardini, Mustafa Erdik, Mehdi Zare, Muhammad Asif Khan, Mahmood Al-Qaryouti, Mohammad Sayab, Murat Utkucu, Mine Demircioglu, Levent Gülen, Roberto Basili, Hilal Yalçın, Andrea N Rovida, Massimiliano Stucchi, Jean-Pierre Burg, Arkady Karakhanian, Doğan Kalafat | 135 | 2018 |
The Earthquake Model of Middle East (EMME) …
The Earthquake Model of Middle East (EMME) project was carried out between 2010 and 2014 to provide a harmonized seismic hazard assessment without country border limitations. The result covers eleven countries: Afghanistan, Armenia, Azerbaijan, Cyprus, Georgia, Iran, Jordan, Lebanon, Pakistan, Syria and Turkey, which span one of the seismically most active regions on Earth in response to complex interactions between four major tectonic plates i.e. Africa, Arabia, India and Eurasia. Destructive earthquakes with great loss of life and property are frequent within this region, as exemplified by the recent events of Izmit (Turkey, 1999), Bam (Iran, 2003), Kashmir (Pakistan, 2005), Van (Turkey, 2011), and Hindu Kush (Afghanistan, 2015). We summarize multidisciplinary data (seismicity, geology, and tectonics) compiled and used to characterize the spatial and temporal distribution of earthquakes over the …
Daha çox
Əlaqəli məqalələr(Google) |
| The 2014 seismic hazard model of the Middle East: overview and results | Bulletin of Earthquake Engineering / Springer Netherlands /Cild: 16 /N: 8 səh: 3535-3566 | Tamaz Chelidze, Nino Tsereteli, Otar Varazanashvili, Tahir Mammadli, Hektor Babayan, Karin Şeşetyan, Shota Adamia, Mher Avanesyan, Ata Elias, Khaled Hessami, Laurentiu Danciu, Domenico Giardini, Mustafa Erdik, Sinan Akkar, Mehdi Zare, Anooshiravan Ansari, Avetis Arakelyan, Raffi Durgaryan, Hossein Hamzehloo, Arkady Karakhanyan, Muhammad Asif Khan, Mahmood Al-Qaryouti, Mohammad Sayab, Murat Utkucu, Muhammad Waseem, Levent Gülen, Hilal Yalçın, Doğan Kalafat, Mine B Demircioğlu Tümsa, Ayşegül Askan, Özkan Kale, Mustafa Tolga Yılmaz | 83 | 2018 |
The Earthquake Model of Middle East (EMME) …
The Earthquake Model of Middle East (EMME) Project aimed to develop regional scale seismic hazard and risk models uniformly throughout a region extending from the Eastern Mediterranean in the west to the Himalayas in the east and from the Gulf of Oman in the south to the Greater Caucasus in the North; a region which has been continuously devastated by large earthquakes throughout the history. The 2014 Seismic Hazard Model of Middle East (EMME-SHM14) was developed with the contribution of several institutions from ten countries. The present paper summarizes the efforts towards building a homogeneous seismic hazard model of the region and highlights some of the main results of this model. An important aim of the project was to transparently communicate the data and methods used and to obtain reproducible results. By doing so, the use of the model and results will be accessible by a wide …
Daha çox
Əlaqəli məqalələr(Google) |
| Features of seismicity of Azerbaijan part of the Greater Caucasus | Journal of Georgian Geophysical Society, Physics of Solid Earth /Cild: 16 səh: 55-60 | SE Kazimova, GJ Yetirmishli, TY Mammadli | 34 | 2013 |
Əlaqəli məqalələr(Google) |
| Seismic hazard assessment for Azerbaijan | book / The NATO science for peace and security program. EGU2011-2738 səh: 1-22 | Etibar Garaveliyev, Tahir Mammadli, Qurban Yethirmishli, Arif Akhundov, Gulum Tanircan | 8 | 2011 |
Seismic Hazard Assessment for Azerbaijan is studied …
Seismic Hazard Assessment for Azerbaijan is studied in the frame of a NATO SFP project “Seismic Hazard Risk Assessment for Southern Caucasus–Eastern Turkey Energy Corridors”. The territory of Azerbaijan which is included into the Alpine folded system is characterized by a high seismic activity. In the territory fault zones with different direction create a very complex geological structure. Such a heterogeneity of distribution of seismicity is connected with a various level of activity of separate parts of fault zones. Probabilistic seismic hazards of the territory were calculated by defining source zones at high seismicity areas. Hazard maps were prepared, in terms of intensity, spectral accelerations at 0.2, 1.2, 2.0, 4.0 sec periods, PGA, PGV and PGD for 10% probability and 2% probability in 50 years. Max PGA and PGV for 10% probability in 50 years reach up to 0,216 g and 31.3 sm/s at Sanqachal, Shamakhy-Ismailly …
Daha çox
Əlaqəli məqalələr(Google) |
| Seismic hazard assessment for southern Caucasus-eastern Turkey energy corridor | Vol. 13 of Proc., EGU Conf. Munich, Germany: Geophysical Research Abstracts | Nino Tsereteli, Bilge Siyahi, Otar Varazanashvili, Tahir Mammadli, Qurban Yethirmishli, Tamaz Cehlidze, Arif Axundov, Etibar Garaveliev, Gulum Tanircan, Erdal Safak | 8 | 2011 |
The Southern Caucasus-Eastern Turkey energy corridors are …
The Southern Caucasus-Eastern Turkey energy corridors are formed by several critical pipelines carrying crude oil and natural gas. Among them, the Baku-Tbilisi-Ceyhan (BTC) Crude Oil Pipeline and Baku-Tbilisi-Erzurum Natural Gas Pipeline (BTE) have been constructed to transport oil and gas from Azerbaijan, via Georgia, to Turkey and world markets. BTC and BTE Pipelines cross several active tectonic entities that have experienced large earthquakes in the past. To our knowledge, none of these pipelines has ever been evaluated comprehensively (other than the standard code-based design studies) for their seismic safety and risk. None of the pipelines has any type of seismic monitoring system.Past earthquakes have clearly shown that earthquakes cause major damage to pipelines, not only direct damage (such as the interruption of flow due to breakage, huge repair and restoration costs, widespread fires …
Daha çox
Əlaqəli məqalələr(Google) |
| Determination of seismogenic zones for analysis of seismotectonic activity of deep faults: seismic hazard assessment for the territory of Azerbaijan | Geotectonics / Pleiades Publishing /Cild: 56 /N: 2 səh: 191-199 | T Ya Mammadli | 8 | 2022 |
—Seismic zoning maps of Azerbaijan, compiled using …
—Seismic zoning maps of Azerbaijan, compiled using the genetic (seismotectonic) method, are analyzed. The peculiarities of this method are considered as applied to a fault along its length. The genetic method is based on the assumption that at each point of an active (seismogenic) tectonic fault, an earthquake can occur with a magnitude (M) equal to the maximum magnitude (Mmax) of a recorded earthquake. To identify the source zones of strong earthquakes, the author developed a method for determining seismogenic (active) zones of deep tectonic faults from weak seismicity. This method and the available data on the activity of deep-seated tectonic faults were used to assess the seismic hazard of Azerbaijan and adjacent territory of southern Russia. It has been established that seismic shaking on the surface of the territory regional study is of wide differentiation in space according to the degree of its …
Daha çox
Əlaqəli məqalələr(Google) |
| Transverse faults of the Eastern Caucasus and their manifestations in seismicity | Seismic Instruments / Pleiades Publishing /Cild: 55 /N: 2 səh: 220-228 | T Ya Mammadli, EA Rogozhin | 6 | 2019 |
The features of the spatial distribution of …
The features of the spatial distribution of earthquake sources in the eastern Caucasus (within the borders of Azerbaijan and the Chechen Republic of the Russian Federation) are analyzed. According to the method developed in recent years to identify seismogenic zones of deep faults by manifestations of weak seismicity, transverse faults extending in the diagonal direction (SW−NE) are found. Like other faults that are longitudinal to the strike of the mountain-folded structures of the greater Caucasus, they are characterized by the different level of seismic activity at the different segments. Only their separate segments of short length are seismically active. Transverse faults are deep and intersect the Earth’s crust through all its thickness. Some of them are associated with the sources of destructive earthquakes. For example, the Kurchaloi earthquake with M = 5.6 occurred on the northern slope of the greater Caucasus …
Daha çox
Əlaqəli məqalələr(Google) |
| Seismogenic zones of Azerbaijan and their depth structural features | Seismoforecasting researches carried out in the Azerbaijan territory səh: 287-296 | TY Mammadli | 5 | 2012 |
Əlaqəli məqalələr(Google) |
| Revealing source zones of strong earthquakes of Azerbaijan and determination of their maximum magnitudes (Mmax) from weak seismicity | Izv. Nats. Akad. Nauk. Azerb., Nauki Zemle /N: 4 səh: 60-64 | T Ya Mammadli | 5 | 2005 |
Əlaqəli məqalələr(Google) |
| Revelation of potentially seismic dangerous tectonic structures in a view of modern geodynamics of the Eastern Caucasus (Azerbaijan) | Earth’s Crust and Its Evolution-From Pangea to the Present Continents / IntechOpen | Fuad Aliyev, Rafig Safarov, Sabina Kazimova, Tahir Mammadli, Talat Kangarli | 6 | 2021 |
The stress state of the earth’s crust …
The stress state of the earth’s crust in the Eastern Caucasus, located in the zone of collision junction of the North Caucasian, South Caucasian, and Central Iranian continental massifs, is a consequence of the inclusion of the Arabian indenter into the buffer structures of the southern framing of Eurasia at the continental stage of alpine tectogenesis. This evidenced from the results of geophysical observations of the structure and seismic-geodynamic activity of the region’s crust. The latter, at the neotectonic stage, was presented as underthrust of the South Caucasian microplate under the southern structures of Eurasia. The analysis and correlation of historical and recent seismic events indicate the confinement of most earthquake foci to the nodes of intersection of active faults with various orientations or to the planes of deep tectonic ruptures and lateral displacements along unstable contacts of material complexes of various competencies. The focal mechanisms of seismic events reveal various rupture types, but in general, the earthquake foci are confined to the nodes of intersection of faults of the general Caucasian and anti-Caucasian directions. Based on the observed weak seismicity, active areas of deep faults were identified, which are accepted as potential source zones.
Daha çox
Əlaqəli məqalələr(Google) |
| On tectonic character of the connection zones of the Earth’s crust in the South Caspian Basin and Scythian–Turan plate based on seismological data | Seismic Instruments / Allerton Press /Cild: 53 /N: 2 səh: 124-133 | T Ya Mammadli, EA Rogozhin | 4 | 2017 |
The features of the spatial distribution of …
The features of the spatial distribution of earthquake sources in the South Caspian Basin (SCB) are considered in relation to the regional deep structure. The results of analysis showed that the SCB and Scythian–Turan plate are divided by deep faults of small length with a west–northwest trending. These faults are included in the Apsheron–Balkhan threshold zone. The opinion of some researchers about subduction of the SCB crust under the epi-Hercynian platform of the northern Caspian Sea has not been confirmed.
Daha çox
Əlaqəli məqalələr(Google) |
| Seismic Activation in the Eastern Part of the Southern Slope of the Great Caucasus in the Late XX to Early XXI Centuries | Izvestiya, Atmospheric and Oceanic Physics / Pleiades Publishing /Cild: 55 /N: 8 səh: 870-883 | GJ Yetirmishli, T Ya Mammadli, EA Rogozhin, AI Sysolin | 2 | 2019 |
In this paper, we consider a series …
In this paper, we consider a series of strong earthquakes that occurred on the central and eastern segments of the southern slope of the Greater Caucasus recorded in the late XX to early XXI centuries. We present a complex analysis of seismological manifestations, based on of which the seismological and geodynamic situation of the region in the early XXI century are a generalized and interpreted.
Daha çox
Əlaqəli məqalələr(Google) |
| ASSESSMENT OF SEISMIC HAZARD IN THE TERRITORY OF “TAKHTAKORPU” RESERVOIR OF AZERBAIJAN | Seismoprognosis Observations in the Territory of Azerbaijan /Cild: 17 /N: 2 | GJ Yetirmishli, TY Mammadli, RB Muradov, TI Jaferov | 2 | 2019 |
Seismological researches were conducted at the Takhtakorpu …
Seismological researches were conducted at the Takhtakorpu reservoir built in the territory of Shabran district. On the basis of earthquake data, active tectonic faults or potential source zones in Shabran district and adjacent areas have been identified and their seismic potential has been assessed. It was revealed that, the maximum magnitude of the probable earthquakes in the zone of two large-sized active faults or potential source in the area close to the research area is Mmax= 7.4 and Mmax= 6.7, respectively. Seismic hazards may occur in conducted researches of the maximum magnitude earthquakes in this source zones. The earthquakes with maximum magnitude in this source zones can cause seismic hazards with an intensity of 8-9 points on the MSK-64 scale in the territory of “Takhtakorpu” reservoir where researches were conducted.
Daha çox
Əlaqəli məqalələr(Google) |
| About the seismic risk of Sabayil district of Baku | Seismoprognosis Observations in the Territory of Azerbaijan /Cild: 14 /N: 1 | GJ Yetirmishli, TY Mammadli, RB Muradov, TI Jafarov | 2 | 2017 |
The seismic risk of Sabayil district of …
The seismic risk of Sabayil district of Baku is considered. The seismicity of East Azerbaijan has been investigated, potential zones and their seismic potential that can create a seismic hazard in Baku have been identified, the main factors causing seismic risk in the research area (engineering-geological conditions of separate areas, types of building-objects, sustainability situations etc.) have been widely analyzed. It was found that the territory of Sabayil district is characterized by the high seismic hazard. In addition, areas where many people live and many administrative buildings are concentrated are characterized by unfavorable ground conditions and this factor raises the level of seismic hazard to 9 points on the 12-point MSK-64 scale. The presence of frequently recurring Bayil landslides zone in the area is an additional source of hazard.
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| Manifestation features of landslide process around the Mingachevir reservoir (2014) | Seismoprognosis Observations in the Territory of Azerbaijan /Cild: 15 /N: 1 | SE Kazimova, GJ Yetirmishli, IE Kazimov, ES Garaveliyev, AG Rzayev, SS Ismayilova, EM Bagyrov, TY Mammadli, RB Muradov | 1 | 2018 |
The landslide incident was recorded around the …
The landslide incident was recorded around the Mingachevir water basin on August 27, 2014. The landslide process occurred in the Boz mountain range mainly on its north-east slopes. The boundary of the slip plane and the active area directed South West-North East of Boz mountain slopes exposed to landslide were determined in this zone. Studies have shown that the depth of the slip plane is different in the separate fields of this area and it changes between 6 to 88 meters.
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| Features of Bayil landslide of Baku City in 2011 | Seismoprognosis Observations in the Territory of Azerbaijan /Cild: 12 /N: 1 | GJ Yetirmishli, AG Rzayev, TY Mammadli | 1 | 2015 |
There are several areas prone to landslides …
There are several areas prone to landslides in the city of Baku. Landslide area in Bayil settlement is considered the most dangerous area. In that area landslides occurred many times (1847, 1877, 1919, 1927, 1929, 1932, 1953, 1968, 1969, 1973, 1974, 1996, 2000), which led to the collapse of various constructions and facilities, caused serious damage to the communication lines, as well as to the road infrastructure. The landslide, happened in 2000, covered 150-160 thousand m2 area and approximately 5 million m3 of soil had been in the process of a landslide.
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| Earthquake Disaster Risk Index for Cities: Baku, Yerevan, Tbilisi | Bulletin of the Georgian National Academy of Sciences /Cild: 172 | O Varazanashvili, T Mammadli, S Nazaretyan | 1 | 2005 |
For comparative analysis of seismic risk in …
For comparative analysis of seismic risk in the capitals of the South Caucasian States - Baku, Yerevan and Tbilisi - the methodology of determination of earthquake disaster risk index (EDRI) has been used. Earthquake disaster risk indexes have been determined for considered cities. EDRI-analysis is performed, some peculiarities of main risk factors are revealed and risk portraits are made in each city of the given sample. (author)
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| PROBABILISTIC ASSESSMENT OF THE SEISMIC HAZARD LEVEL OF THE “TAKHTAKORPU” RESERVOIR LOCATION | Seismoprognosis Observations in the Territory of Azerbaijan / Science Publishing House of ANAS /Cild: 20 /N: 2 səh: 11-19 | Rauf Muradov, Tahir Mammadli | 0 | 2021 |
The maximum risks of possible strong earthquakes …
The maximum risks of possible strong earthquakes in tectonic faults or potential sources, which are a source of seismic hazard for the Takhtakorpu reservoir, built in the Shabran area, have been quantitatively assessed. It turned out that the maximum value of the expected ground acceleration from an earthquake in the study area with a probability of 2% over 50 years is 0.27g, and the value of the maximum ground acceleration with a probability of 10% over 50 years is 0.16g.
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| QUANTITATIVE ASSESSMENT OF SEISMIC HAZARD IN THE AZERBAIJANI PART OF THE SOUTHERN SLOPE OF THE GREATER CAUCASUS | Seismoprognosis Observations in the Territory of Azerbaijan / Science Publishing House of ANAS /Cild: 19 /N: 1 səh: 19-24 | Tahir Mammadli, Telman Jafarov | 0 | 2021 |
Analysis of the seismicity of the territory …
Analysis of the seismicity of the territory of Azerbaijan shows that the southern slope of the eastern part of the Greater Caucasus is characterized by higher activity. In the seismic zoning map of the territory of Azerbaijan compiled by the method called "seismotectonic" or "genetic", the seismic hazard of this zone is estimated at 9 points on the MSK-64 scale. In the article, the level of seismic hazard of the Azerbaijani part of the southern slope of the Greater Caucasus was calculated by the probabilistic method. In this case, the seismic hazard is expressed in terms of peak ground acceleration (PGA), which can be caused by strong earthquakes on the earth's surface and the probable seismic hazard in the area has been quantified.
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| The 2014 seismic hazard model of the Middle East: overview and results | book / SPRINGER, VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS | Tamaz Chelidze, Nino Tsereteli, Otar Varazanashvili, Tahir Mammadli, Hektor Babayan, Shota Adamia, Mher Avanesyan, Ata Elias, Khaled Hessami, Karin Sesetyan, Laurentiu Danciu, Mine B Demircioglu Tumsa, Domenico Giardini, Mustafa Erdik, Sinan Akkar, Levent Gulen, Mehdi Zare, Anooshiravan Ansari, Avetis Arakelyan, Aysegul Askan, Raffi Durgaryan, Hossein Hamzehloo, Dogan Kalafat, Ozkan Kale, Arkady Karakhanyan, Muhammad Asif Khan, Mahmood Al-Qaryouti, Mohammad Sayab, Murat Utkucu, Muhammad Waseem, Hilal Yalcin, Mustafa Tolga Yilmaz | 0 | 2018 | |
| SEISMOTECTONICS OF OIL AND GAS AREAS IN LOWER KURA DEPRESSION OF AZERBAIJAN | Seismoprognosis Observations in the Territory of Azerbaijan /Cild: 14 /N: 1 | Gurban Yetirmishli, TY Mammadli, LA Ibraghimova | 0 | 2017 |
On the basis of data about the …
On the basis of data about the earthquakes that occurred on the territory of Azerbaijan in the Lower Kura depression and in adjacent areas, the possible impact of seismotectonic processes in the areas of active tectonic faults on hydrocarbon
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| Seismic Risk Assessment for Southern Caucasus-Eastern Turkey Energy Corridor | AGU Fall Meeting Abstracts /Cild: 2012 səh: S44C-01 | G Yetirmishli, E Garaveliev, G Tanircan, NS Tsereteli, O Varazanashvili, B Siyahi, E Uckan, A Axundov, T Mammadli, TL Chelidze, E Safak | 0 | 2012 |
Within the frame of a NATO Science …
Within the frame of a NATO Science for Peace Project, seismic risk assessment of the Baku-Tbilisi-Ceyhan (BTC) Crude Oil Pipeline and Baku-Tbilisi-Erzurum Natural Gas Pipeline (BTE) was performed. Combined probabilistic seismic hazard maps of Turkey, Georgia and Azerbaijan were prepared. The seismicity database was compiled from numerous sources, and the tectonic setting of regions has been studied in detail. Site dependent PGA, PGV, PGD and SA contour maps were produced using the most recently developed attenuation relationships that suit the region. The Peak Ground Velocity (PGV) is assumed to be the controlling ground motion parameter for the risk analysis. The PGV distribution along the route of the pipelines were calculated as a result of the hazard and site response analyses. Next, an empirical relation was utilized to determine the WP repair rate (RR), in repairs/km in term of PGV. Finally …
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| EARTHQUAKE MODEL OF THE MIDDLE EAST (EMME) PROJECT: ACTIVE FAULTS AND SEISMIC SOURCES | book | Gurban Yetirmishli, Tahir Mammadli, Arif Axundov, Karin Şeşetyan, Shota Adamia, Nino Sadradze, Aleksandre Gvencadze, Arkadi Karakhanyan, Mher Avanesyan, Ata Elias, Khaled Hessami, M Asif Khan, M Sayab | 0 | 0 |
The Earthquake Model of the Middle East …
The Earthquake Model of the Middle East (EMME) Project is a regional project of the GEM (Global Earthquake Model) project (http://www. emme-gem. org/). The EMME project covers Turkey, Georgia, Armenia, Azerbaijan, Syria, Lebanon, Jordan, Iran, Pakistan, and Afghanistan. Both EMME and SHARE projects overlap and Turkey becomes a bridge connecting the two projects. The Middle East region is tectonically and seismically very active part of the Alpine-Himalayan orogenic belt. The active tectonics of the EMME Project region has been shaped by the northward motion of the African, Arabian, and the Indian plates with respect to the Eurasian plate. After the elimination of the Neo-Tethys Ocean that had existed in the intervening areas between these plates, continental collision of the Arabian and Indian plates with the Eurasian plate created the Bitlis-Zagros and the Himalayan Fold and Thrust Belts, respectively. Even today the continental convergence and active crustal shortening is still going on between these plates as evidenced by GPS measurements and high seismic activity observed in the EMME Project region. Many major earthquakes have occurred in this region over the years causing casualties in the millions. The intense tectonic deformations along the Caucasus region are also the result of the continental collision and the continuing continental convergence. The northward subduction process is active along the Hellenic Trench, Cyprian Trench, Central Caspian, Makran and the Hindu-Kush (Figure 1). The left-lateral strike slip Dead Sea Fault takes up the differential motion between the African and the Arabian Plates. The North …
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| the Eastern Caucasus (Azerbaijan) | Earth’s Crust and Its Evolution: From Pangea to the Present Continents / BoD–Books on Demand səh: 181 | Fuad Aliyev, Rafig Safarov, Sabina Kazimova, Tahir Mammadli, Talat Kangarli | 0 | 2022 |
The stress state of the earth's crust …
The stress state of the earth's crust in the Eastern Caucasus, located in the zone of collision junction of the North Caucasian, South Caucasian, and Central Iranian continental massifs, is a consequence of the inclusion of the Arabian indenter into the buffer structures of the southern framing of Eurasia at the continental stage of alpine tectogenesis. This evidenced from the results of geophysical observations of the structure and seismic-geodynamic activity of the region's crust. The latter, at the neotectonic stage, was presented as underthrust of the South Caucasian microplate under the southern structures of Eurasia. The analysis and correlation of historical and recent seismic events indicate the confinement of most earthquake foci to the nodes of intersection of active faults with various orientations or to the planes of deep tectonic ruptures and lateral displacements along unstable contacts of material complexes of various competencies. The focal mechanisms of seismic events reveal various rupture types, but in general, the earthquake foci are confined to the nodes of intersection of faults of the general Caucasian and anti-Caucasian directions. Based on the observed weak seismicity, active areas of deep faults were identified, which are accepted as potential source zones.
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| ОПАСНЫЕ ПРИРОДНЫЕ И ТЕХНОГЕННЫЕ ПРОЦЕССЫ В ГОРНЫХ РЕГИОНАХ: МОДЕЛИ, СИСТЕМЫ, ТЕХНОЛОГИИ | book / Владикавказский научный центр РАН, Владикавказ БИБЛИОМЕТРИЧЕСКИЕ ПОКАЗАТЕЛИ: Входит в РИНЦ: на рассмотрении Цитирований в РИНЦ: 0 Входит в ядро РИНЦ: нет Цитирований из ядра РИНЦ: 0 Рецензии: нет данных ТЕМАТИЧЕСКИЕ НАПРАВЛЕНИЯ: səh: 264-271 | T MAMMADLI, RM MURADOV, TI JAFAROV | 0 | 0 |
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