تحلیل فضایی مخاطرات محیطی

تحلیل فضایی مخاطرات محیطی

پراکندگی لرزه‌خیزی در ایران

نویسندگان
1 پژوهشگاه زلزله شناسی
2 دانشگاه تهران
چکیده
تکتونیک فعال نوار لرزه‌خیز آلپ ـ هیمالیا فلات ایران را شکل داده است که در مرز همگرایی بین ورقه‌های زمین‌ساختی اوراسیا ـ عربستان قرار دارد. این فلات یکی از لرزه‌خیزترین نواحی جهان است و هر سال با زمین‌لرزه‌های متعددی مواجه می‌شود. در ایران، شرایط فعال زمین‌ساختی، وجود گسل‌ها و چشمه‌های لرزه‌زای متعدد و قرارگیری جمعیت فراوان در نواحی مستعد زمین‌لرزه توجه بیش از پیش به این سانحه‌ی طبیعی و لزوم مطالعات علمی را در زمینه‌ی تحلیل خطر زمین‌لرزه افزایش می‌دهد. در مقاله‌ی حاضر، علاوه بر مرور لرزه‌زمین‌ساخت و لرزه‌خیزی ایران از گذشته تاکنون، سعی شده است به مسئله‌ی تحلیل خطر زمین‌لرزه پرداخته و به وضعیت مدیریت سانحه، آسیب‌پذیری و بافت فرسوده در ایران اشاره شود.
کلیدواژه‌ها

عنوان مقاله English

A Study on the Seismicity of Iran

نویسندگان English

Mahdi Zare 1
Farnaz Kamran Zad 2
چکیده English

The Iranian plateau formed by the active tectonics of the Alpine-Himalayan belt, is situated between the Eurasian and Arabian plates. The plateau is considered as one of the most seismically active regions in the world and is faced with different earthquakes each year. Active tectonic conditions, different faults and seismic sources and a large population in earthquake-prone areas makes it necessary to perform more considerations and scientific studies in order to analyze the seismic hazards and risks.

In this paper, different aspects and effects of the Iranian seismicity has been determined. In order to review the status of seismicity and distribution of earthquakes in Iran, we need first to consider the tectonic setting, structural environment and the active faults of the country. To date, there have been some different studies to divide the the seismotectonic setting of Iran into different seismic zones which are explained in this paper briefly. Moreover, the seismicity and most destructive past earthquakes in the Iranian plateau and distribution of earthquakes are shown.

One of the most important tools in studying earthquakes is to perform continuous recording and monitoring of the seismic event and ground motions which is implemented using seismic and strong motion networks. The systematic networks have been set up within the country and are working and responsible for data collection and monitoring of seismic events permanently. These networks including the Iranian Seismological Center (IRSC), broadband seismic network of the International Institute of Earthquake Engineering and Seismology (IIEES) and strong motion network of the Road and Housing and Urban Development Research Center (BHRC) are also introduced in the current study.

Given the high seismicity rate in Iran and rapid development and growing of the populated cities and buildings on seismic hazard prone areas, attention to seismic hazard and risk assessments has been become as a particular issue that should be addressed carefully. Therefore, seismic hazard analysis and estimation for the constructions of human structures has become an enforcement for which several seismic regulations and codes have been defined. In this regard, deterministic and probabilistic seismic hazard methods have been developed as the two most important techniques. The deterministic method is a conservative approach that is mostly used to determine the highest level of strong ground motion (acceleration) for a special site (such as dams and power plants). On the other hand, the probabilistic method provides probabilities of different strong ground motion levels considering different uncertainties and the useful life of a structure.

In addition, considering the level of seismic hazard in a region and its population can lead to risk assessment, vulnerability and resiliency of the human societies. Thus, parallel to seismic hazard and risk analysis, it is so important to conduct crisis management, reduce efforts and a continuing assessment of the situation in the country. In the present study, problems and challenges facing the crisis management, as well as urban distressed areas are mentioned.

Regarding the existence of constant threat of natural disasters, especially high risk of earthquakes, there is a serious need to conduct more scientific researches in various fields, including detailed research on various aspects of seismology in Iran, retrofitting of constructions, crisis management and disaster risk reduction. To achieve this purpose, we need a scientific network in Iran. There sould be several experts and organizations as the members of this network who are able to understand and control the earthquake effects on the society. Necessity of such a scientific network is due to that it is impossible to take efforts in order to reduce the earthquake risks without a holistic perspective and earthquake data completion.

In this regard, we need significant infrastructures in terms of human resources and technical cooperation to motivate a set of organizations, universities and research institutes. The responsible organizations such as geological survey of Iran, National Cartographic Center of Iran, meteorological organization, Institute of Geophysics of the University of Tehran, International Institute of Earthquake Engineering and Seismology, Road and Housing and Urban Development Research Center, National Disaster Management Organization, Red Crescent Society of the Islamic Republic of Iran, as well as universities and NGOs must work together to make it possible to review and integrate the existence potentials and to share the information and data of the earthquakes in Iran and define various response scenarios faceing natural disasters, especially earthquakes.

کلیدواژه‌ها English

seismicity
Seismic hazard
Seismic Risk
Emergency Management
Iran
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