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Kandilli Observatory

The Kandilli Observatory and Research () is a prominent scientific institution in , , affiliated with and dedicated to research in , , astronomy, and disaster management. Located in the Kandilli neighborhood of the district on the Asian side of the Bosphorus Strait, it operates a network of 238 seismic stations for real-time and monitoring across the region. Established as one of 's pioneering centers for scientific observation, KOERI employs 105 staff members, including 26 scientists, and supports graduate programs in , , and leading to M.S. and Ph.D. degrees. Founded on June 21, 1910, under the Ottoman Minister of Education Emrullah Efendi, the observatory was initially established to advance astronomical and meteorological studies, with Fatin Gökmen (also known as Fatin Hoca) appointed as its first director on the recommendation of astronomer Salih Zeki. The site was selected on İcadiye Hill near Vaniköy for its strategic elevation, and systematic meteorological observations commenced in 1911, followed by the installation of a Carl Zeiss equatorial telescope in 1925 and the inauguration of its dedicated building in 1935. In 1983, it was reorganized under Law No. 2809 as the Kandilli Observatory and Earthquake Research Institute, integrating seismological research amid growing emphasis on Turkey's seismic risks, and it has since become the country's primary hub for earthquake data archiving and analysis. KOERI's historical significance extends to its preservation of Ottoman-era scientific heritage, including a library collection of 1,339 rare manuscripts in 581 volumes—primarily in Turkish, Arabic, and Persian—focusing on astronomy, astrology, mathematics, and related fields, which was inscribed on UNESCO's Memory of the World Register in 2001 for its global value to scholars of Islamic and Ottoman science. Today, the institute also houses a museum opened in 2006 showcasing its astronomical instruments and seismological artifacts, alongside a Disaster Preparedness Education Unit established in 2004 to promote public awareness and risk reduction. Through these efforts, KOERI continues to lead multidisciplinary research and education, contributing to international collaborations on earth observation and seismic hazard mitigation.

Overview

Location and Affiliation

The Kandilli Observatory is situated in the Kandilli neighborhood of Üsküdar district, on the Asian side of Istanbul, Turkey, at geographic coordinates 41°03′48″N 29°03′44″E. Its campus occupies İcadiye Hill, providing a hillside vantage point overlooking the Bosphorus Strait and the nearby Bebek area, which supports its astronomical and geophysical observations by minimizing urban light pollution and interference. Since 1983, the observatory has been affiliated with Boğaziçi University as one of its key research arms, following its annexation under Law No. 2809 enacted on March 28, 1983. This integration transformed it into a prominent academic and scientific institution within the university's structure, enhancing its resources for advanced studies and national contributions to earth sciences. Known fully as the (KOERI), the facility maintains a multidisciplinary focus encompassing astronomy, geophysics, seismology, geomagnetism, meteorology, and earthquake engineering. It conducts research, education, and practical implementation activities, including graduate programs leading to Master of Science and Doctor of Philosophy degrees in geodesy, geophysics, and earthquake engineering, thereby training specialists for earthquake risk mitigation across Turkey.

Founding and Initial Purpose

The Kandilli Observatory originated as the Rasathane-i Amire, or Imperial Observatory, established in 1868 on Pera Hill in Istanbul during the Ottoman Empire's Tanzimat era of reforms aimed at scientific and administrative modernization. Founded at the recommendation of the under , it reflected the Ottoman ambition to align with Western scientific advancements and participate in international networks, particularly France's meteorological initiatives led by . The observatory was initially directed by , who oversaw its setup with instruments and expertise supplied from France, operating under the Ministry of Telegraphy before transfers to the Ministries of Education and Public Works. Its primary purpose was to conduct meteorological observations, including measurements of temperature, pressure, humidity, and wind, to generate weather forecasts transmitted via telegraph to key Ottoman centers such as ports and administrative hubs. This focus enabled the creation of synoptic weather maps and storm tracking through data exchange with European observatories, as demonstrated by its participation in the 1873 International Meteorological Congress in Vienna, where Ottoman records were integrated into global analyses. Complementing these efforts, the observatory also performed magnetic observations and timekeeping services to support navigation, maritime activities, and precise clock synchronization across the empire, with early astronomical aspirations evident in the collection of celestial data alongside meteorological records published in annals like Observations Meteorologiques du Réseau Oriental. The observatory's role underscored the Ottoman commitment to empirical science amid geopolitical pressures, fostering a network of regional stations from locations like Varna and Beirut to enhance predictive capabilities for agriculture, trade, and defense. However, in April 1909—corresponding to 31 March in the Rumi calendar—during the counter-revolutionary 31 March Incident, rioters destroyed the facility, including its instruments and seismographs, amid broader unrest against the Young Turk reforms. In response, the Ottoman government promptly initiated rebuilding efforts, appointing Professor Fatin Gökmen to oversee reconstruction and relocation planning.

History

Establishment and Early Operations (1868–1910)

The Rasathane-i Âmire, the precursor to the modern , was established in 1868 in the Pera (Beyoğlu) district of Istanbul as the Ottoman Empire's inaugural modern meteorological station. Founded upon recommendations from the , it was designed to collect and disseminate weather data via telegraph to regional centers, facilitating forecasts for maritime navigation and agricultural planning across the empire. The initial setup emphasized practical meteorology over astronomy, with instruments imported from French manufacturers, including barometers, thermometers, anemometers, and rain gauges for routine measurements of temperature, pressure, wind, and precipitation. Magnetic declination observations were also conducted using basic geomagnetic tools, while time determinations relied on a modest 10 cm refracting telescope for solar sightings and occasional planetary transits, such as Mercury's in 1868. Aristide Coumbray, a French engineer who had arrived in Istanbul to modernize the Ottoman telegraph network, served as the first director from 1868 until his death in 1893. Under his guidance, the observatory integrated into international networks, publishing the Observations Météorologiques du Réseau Oriental series of annual reports that shared data with European meteorological centers. Coumbray represented the Ottoman Empire at the 1873 International Meteorological Congress in Vienna, where he advocated for standardized weather reporting protocols. His assistant, mathematician Emile Lacoine Efendi, handled computational tasks, including the preparation of almanacs and calibration of time signals essential for naval operations. These efforts marked early milestones in systematic data collection, with daily weather bulletins aiding Ottoman shipping routes in the Black Sea and Aegean while informing crop planting and harvest decisions in rural provinces. In 1896, following a brief interim under Lacoine, Ottoman mathematician and astronomer Salih Zeki Bey assumed directorship, serving until 1909 and steering the institution toward expanded scientific scope. Salih Zeki oversaw the acquisition of two horizontal pendulum seismographs from Italy in the late 1890s, costing 3,200 French francs each, which enabled the onset of earthquake monitoring after the destructive 1894 Istanbul quake. Collaborations with Greek seismologist D. Eginitis and Italian expert G. Agamemnone facilitated initial seismic data analysis and reporting. During his directorship, the Rasathane-i Âmire Salnamesi, an annual astronomical almanac first published in 1872, continued to include ephemerides for celestial events, enhancing timekeeping accuracy for empire-wide navigation and administrative synchronization. Operational challenges persisted throughout this period, including heavy dependence on foreign personnel due to scarce local expertise in modern instrumentation and a lack of dedicated for advanced astronomical , which delayed full transition to a comprehensive observatory. Routine functions, such as thrice-daily readings and weekly magnetic surveys, nonetheless provided vital support to Ottoman agriculture by predicting seasonal patterns and to navigation by offering reliable chronometric services for longitude calculations. The era culminated in severe damage to the Pera facilities during the 31 March Incident of 1909, which disrupted operations and necessitated future relocation.

Relocation and Expansion (1911–1982)

Following the destruction caused by riots during the 31 March Incident in 1909, the Imperial Observatory was relocated to İcadiye Hill (now known as Kandilli Hill) in Vaniköy on the Asian side of the Bosphorus, with construction beginning in 1910 under the direction of Professor Fatin Gökmen. Gökmen, a mathematician and astronomer who had previously served as a professor at Istanbul University, selected the site for its elevated position and relative isolation from urban interference, facilitating clearer astronomical and meteorological observations. Systematic meteorological recordings resumed on July 1, 1911, adhering to international standards and marking the revival of core observational activities after a period of disruption. The observatory underwent significant infrastructural expansions in the interwar period to enhance its research capabilities. In 1926, an earthquake recording system was installed to enhance monitoring capabilities in a seismically active region prone to frequent tremors. This was followed by the laying of foundations for a telescope building in the same year, which was completed in 1935 with 12 dedicated rooms and the installation of an equatorial telescope, bolstering astronomical studies. By 1934, a dedicated seismology building with an underground hall for instruments was constructed, further solidifying the site's role in geophysical monitoring. Institutional formalization and specialization accelerated in the late 1930s amid growing regional seismic threats, including major earthquakes that underscored the need for advanced detection. The name "Kandilli Rasathanesi" (Kandilli Observatory) was officially adopted in 1939, reflecting its new location, and it was soon expanded to "Kandilli Observatory, Astronomy and Geophysics" to encompass broadening disciplines. In the same year, geomagnetic observations commenced following the completion of a dedicated building and installation in 1938, allowing for the systematic study of variations. The observatory's focus shifted increasingly toward seismology, driven by the imperative to record and analyze local earthquakes for public safety and scientific insight. Further upgrades in 1948 modernized the seismic infrastructure, including the acquisition of a quartz clock, a large Berlin chronograph, an 18-lamp radio receiver, the Grenet seismograph, and La Cour variometers, which improved the precision and reliability of tections. These enhancements supported ongoing expansions, such as the a Time Astronomy building in 1946 (inaugurated in 1947) and the establishment of an Earthquake Research Center by 1964, positioning the observatory as a key node for geophysical research in Turkey. This period of growth culminated in 1982 with its annexation to Boğaziçi University, transitioning it toward greater academic integration.

Modern Era and University Integration (1983–Present)

In 1983, the Kandilli Observatory was formally integrated into Boğaziçi University through Law No. 2809, transforming it into the Kandilli Observatory and Earthquake Research Institute (KOERI) and emphasizing academic research in earthquake engineering, geophysics, and geodesy. This affiliation enabled the institute to expand its educational role, incorporating postgraduate programs in these fields and fostering interdisciplinary collaboration with university resources. The 1999 İzmit earthquake, a magnitude 7.4 event that caused widespread devastation in northwestern Turkey, underscored KOERI's critical role in real-time monitoring and post-event analysis, leading to enhanced focus on seismic hazard assessment and mitigation strategies. In response, KOERI intensified its contributions to national disaster preparedness, including detailed rupture studies and integration of data into broader geophysical models. A major milestone followed in 2002 with the establishment of the , comprising 10 strong-motion stations along the for rapid alerts and 60 additional stations for ground-motion recording, significantly improving urban response capabilities. Further advancements came in 2016 when KOERI's Regional Earthquake and Tsunami Monitoring Center (RETMC) received accreditation as a Tsunami Service Provider from the Intergovernmental Coordination Group for the Tsunami Early Warning and Mitigation System in the North-Eastern Atlantic, the Mediterranean, and Connected Seas (ICG/NEAMTWS), enabling official warnings for the Eastern Mediterranean, Aegean, Marmara, and Black Seas. The seismic network has since expanded to 238 stations, with real-time data transmission via satellite, GPRS, and internet, including five stations in Northern Cyprus for broader regional coverage. Recent initiatives include the Marmara Disaster Mitigation (MarDiM) project, launched in 2013 as Turkey's first comprehensive seafloor monitoring effort in the Sea of Marmara, deploying ocean-bottom seismometers to track fault activity and develop tsunami early warning models, culminating in detailed earthquake and tsunami hazard maps. As of 2025, KOERI continues network enhancements through AI-driven processing for high-resolution earthquake catalogs and improved data accessibility via international platforms like ORFEUS, supporting advanced seismological research. Following the April 2025 magnitude 6.2 Marmara Sea earthquake, KOERI provided real-time data analysis and contributed to updated seismic hazard evaluations for the region.

Organizational Structure

Academic Departments

The Kandilli Observatory and Earthquake Research Institute (KOERI) houses three core academic departments dedicated to advancing graduate-level research in earth sciences and engineering, with a strong emphasis on seismic and geodynamic phenomena affecting Turkey's tectonically active regions. These departments—Geophysics, Geodesy, and —operate under the administrative oversight of KOERI's directorship, fostering interdisciplinary collaborations that integrate seismic observations, geodetic measurements, and engineering simulations to address . This structure supports joint projects, shared resources, and co-supervised theses, enhancing the institute's role in training specialists for research and applied mitigation strategies. As of 2023, KOERI employs approximately 105 staff members, including 26 scientists. The Department of Geophysics focuses on investigating Earth's internal structure and dynamic processes through observational and computational methods, prioritizing seismic data analysis, earthquake source mechanisms, and geomagnetic studies. Its mission emphasizes original research to develop local solutions for seismic hazards while promoting environmental preservation and supporting early-career scientists via graduate programs. Key contributions include analyses of elastic wave propagation, strong ground motion modeling, and paleo-magnetism applications for understanding crustal composition and fault activity, with graduate work leading to M.Sc. and Ph.D. degrees in geophysics that integrate seismology, physics, and mathematics. Laboratories such as the Geomagnetism Lab provide essential support for these efforts. The Department of Geodesy specializes in geodetic techniques to monitor and model tectonic deformations, with a core mission of establishing microgeodetic networks for precise tracking of crustal movements in high-risk seismic zones. Research centers on crustal deformation studies, GPS-based monitoring networks, and analysis of tectonic movements, achieving millimeter-level accuracy in 3D positioning to inform earthquake forecasting and hazard assessment. Notable contributions encompass the development of control networks along the North Anatolian Fault Zone since 1990, including sites in İznik, Sapanca, and Akyazı, alongside collaborative projects funded by TÜBİTAK on regional geodynamics. The department offers M.Sc. and Ph.D. programs in geodesy, training researchers in satellite geodesy and deformation modeling. The Department of Earthquake Engineering, the first of its kind in Turkey for graduate training, concentrates on enhancing structural safety in seismic environments through research in structural resilience, dynamic simulations, and probabilistic risk assessment. Its mission is to equip students with advanced knowledge for designing earthquake-resistant infrastructure and evaluating urban vulnerabilities, drawing on real-time data from KOERI's monitoring systems. Significant contributions include pioneering simulations of building responses to strong motions and risk models for major infrastructures, supporting policy recommendations for seismic zoning in Turkey. Graduate programs culminate in M.Sc. and Ph.D. degrees, emphasizing interdisciplinary applications in and .

Laboratories and Specialized Centers

The Kandilli Observatory and Earthquake Research Institute (KOERI) houses several specialized laboratories that support its core observational and analytical functions in earth sciences. The Astronomy Laboratory maintains historical and ongoing telescope operations, including a Carl Zeiss equatorial telescope installed in 1925 for astronomical observations. This facility continues solar observations initiated in the early 20th century, contributing to long-term records of solar-terrestrial interactions. The Geomagnetism Laboratory focuses on continuous monitoring of the Earth's magnetic field variations, operating proton magnetometers that record total field intensity every 30 seconds at two primary sites in Turkey. These measurements form part of the International Real-time Magnetic Observatory Network (INTERMAGNET), enabling analysis of geomagnetic storms, secular variations, and potential links to seismic activity. The laboratory's data archive supports both national geophysical modeling and international collaboration on space weather forecasting. Complementing these, the Meteorology Laboratory conducts uninterrupted weather data collection, maintaining Turkey's longest continuous climate record spanning 114 years (as of 2025) commencing in 1911. Equipped with standard meteorological instruments, it records parameters such as temperature, precipitation, humidity, and atmospheric pressure, which are essential for regional forecasting and historical climate analysis. This laboratory's observations have been pivotal in digitizing Ottoman-era datasets, enhancing understanding of long-term trends in Istanbul's microclimate. The Disaster Preparedness Laboratory employs simulation tools to model earthquake scenarios and enhance response capabilities, including a mobile earthquake simulation training truck developed in 2007 for on-site demonstrations of seismic effects. This facility integrates hardware and software for virtual reality-based drills, focusing on structural vulnerability assessments and evacuation protocols to build community resilience in high-risk areas like . Among KOERI's specialized centers, the Regional Earthquake-Tsunami Monitoring Center (RETMC) operates an extensive seismic network comprising approximately 250 stations (as of 2021), to detect and characterize earthquakes in real-time across the Eastern Mediterranean and Black Sea regions. Established as a Tsunami Service Provider under the North-Eastern Atlantic, Mediterranean, and Connected Seas Tsunami Warning System (NEAMTWS), RETMC processes data for rapid magnitude estimation and tsunami alerts, with contributions from seafloor observatories. The Belbaşı Nuclear Tests Monitoring Center, located in Ankara, serves as Turkey's primary facility for verifying compliance with the Comprehensive Nuclear-Test-Ban Treaty (CTBT), managing 14 seismic stations—six short-period, six medium-period, and two broadband—installed at depths of 30 to 60 meters. Data from these arrays are transmitted via satellite to the International Data Centre (IDC) in Vienna, enabling near-real-time detection and analysis of global nuclear events alongside natural seismicity. The İznik Earthquake Hazard Mitigation Center, situated in Bursa Province, targets damage reduction in the seismically active İznik region through site-specific monitoring and engineering assessments. It deploys local sensor networks and modeling tools to evaluate fault dynamics and building vulnerabilities, supporting urban planning initiatives to minimize casualties from potential moderate-to-large earthquakes along the North Anatolian Fault. Within the broader framework of these facilities, the Earthquake and Tsunami Disaster Mitigation in the Marmara Region and Disaster Education in Turkey (MarDiM) project deploys seafloor sensors across five offshore observatories to map earthquake and tsunami hazards in the Sea of Marmara, providing high-resolution data on subsurface activity for enhanced regional risk assessment.

Campus Infrastructure

The Kandilli Observatory campus occupies a wooded hilltop in the İcadiye area of the Kandilli neighborhood, on the Asian side of Istanbul, offering expansive views across the Bosphorus toward the Bebek district on the European shore. This elevated position, behind the historic Vaniköy district, enhances the site's suitability for astronomical and geophysical observations while integrating natural surroundings that include forested slopes. The overall layout spans multiple structures designed for durability against seismic activity, with specialized foundations incorporating vibration isolation techniques such as concrete columns, sand layers, and glass insulators to protect sensitive instruments. Key buildings on the campus reflect an evolution in infrastructure beginning after the 1911 relocation, with many constructed in brick using Ottoman revivalist architectural elements characteristic of early 20th-century Ottoman design, including symmetrical facades and robust, earthquake-resistant features. The Administrative Building, originally built as the Time Astronomy Building between 1945 and 1947, is a two-story structure with 12 rooms dedicated to solar activity monitoring and administrative functions; it features vibration-insulated foundations to minimize ground motion interference. The Seismology Building, completed in 1934 after initiation in 1911, comprises two stories with brick construction, including administrative offices and an underground vault hall equipped with four rooms and a central area for seismographs, featuring vibration-proof flooring made of concrete-reinforced limestone bases topped with marble slabs. The Earthquake Engineering Department building houses specialized shake table facilities, such as a 3x3 meter uniaxial table capable of 10-ton loads and up to 2g acceleration, supporting structural testing. A dedicated library building, completed in 1926, provides facilities for archival storage and research access, including climate-controlled areas for preserving historical manuscripts and scientific volumes. Campus support facilities emphasize practical applications for education and preparedness, including the Earthquake Park, an outdoor educational center managed for simulations and demonstrations of seismic scenarios to engage visitors in disaster awareness. Complementing this is the Mobile Earthquake Simulation Training Truck, introduced in 2007, which serves as a portable unit for on-site earthquake simulations and has reached communities across 175 locations in Turkey. Various laboratories, such as those for geodesy and geomagnetism, are integrated into these buildings to support ongoing monitoring operations.

Research and Monitoring Activities

Seismology and Earthquake Research

The Kandilli Observatory and Earthquake Research Institute (KOERI) has been a cornerstone of seismological research in Turkey since the installation of its first seismograph in 1934, building on earlier Ottoman traditions prompted by events like the 1894 Istanbul earthquake. Focusing on the detection, analysis, and mitigation of seismic hazards in one of the world's most active tectonic regions, KOERI's seismology efforts emphasize real-time data acquisition, historical catalog maintenance, and advanced analytical techniques to support seismic hazard assessment and disaster response. KOERI operates a comprehensive seismic network through its Regional Earthquake-Tsunami Monitoring Center (RETMC), which includes approximately 242 stations distributed across Turkey as of 2019, with five additional stations in Northern Cyprus. Of these, more than 200 are concentrated in the Marmara region, including approximately 110 in the Istanbul metropolitan area, to enable dense coverage for urban risk assessment. The network supports real-time monitoring of seismic activity within a broad region spanning 30.0–48.0°N and 22.0–44.0°E, transmitting data via satellite, GPRS, and internet connections for immediate processing and dissemination. This infrastructure facilitates the operation of early warning systems, such as the Istanbul Earthquake Rapid Response and Early Warning System, which provides seconds-to-minutes advance alerts to mitigate impacts in densely populated areas. A key aspect of KOERI's seismology work involves maintaining and refining an earthquake catalog that dates back to 1911, enabling long-term studies of regional seismicity patterns. The catalog has undergone homogenization efforts to ensure consistency across different magnitude scales, particularly for the period 2008–2018, when the institute transitioned from duration magnitude (Md, with a completeness magnitude Mc of 2.7) to local magnitude (Ml, with Mc of 2.0). This involved deriving empirical relationships between Md and Ml using data from over 21,000 events, improving the reliability of seismic hazard models by accounting for variations in recording methodologies. Additionally, KOERI conducts microearthquake studies to investigate activity in seismic gaps, such as those along the North Anatolian Fault prior to major ruptures, using dense temporary networks to detect low-magnitude events (typically below M 2.0) that reveal stress accumulation and fault behavior. KOERI's contributions extend to significant seismic events and international monitoring obligations. During the 1999 İzmit earthquake (M 7.4), which caused over 17,000 fatalities, the observatory's network provided critical real-time data for rapid assessment and aftershock monitoring, informing post-event network expansions that increased station coverage from 35 to over 200 by the early 2000s. KOERI's network also played a key role in monitoring the 2023 Kahramanmaraş earthquake sequence (Mw 7.8 and 7.7) and the April 23, 2025, Marmara Sea earthquake (Mw 6.2), providing rapid hypocenter locations, magnitudes, and aftershock data for hazard assessment. In the realm of global seismology, KOERI's Belbaşı Nuclear Tests Monitoring Center, operational since 1951 and certified as a National Data Center under the Comprehensive Nuclear-Test-Ban Treaty, detects and analyzes seismic signals from nuclear explosions worldwide, transmitting verified data to the Comprehensive Nuclear-Test-Ban Treaty Organization's International Data Centre. These efforts underscore KOERI's role in both national disaster preparedness and international non-proliferation verification.

Tsunami Detection and Warning

The Kandilli Observatory and Earthquake Research Institute (KOERI) operates a dedicated tsunami early warning system integrated with its Regional Earthquake and Tsunami Monitoring Center (RETMC), which functions as Turkey's 24/7 National Tsunami Warning Center under the UNESCO-IOC Intergovernmental Coordination Group for the Tsunami Early Warning and Mitigation System in the North-eastern Atlantic, the Mediterranean, and connected seas (ICG/NEAMTWS). This system assesses the tsunamigenic potential of seismic events in real time, covering the Eastern Mediterranean, Aegean, Marmara, and Black Seas, and relies on a network of approximately 256 seismic sensors for rapid earthquake detection and magnitude estimation as of 2021. To enhance offshore monitoring, KOERI has deployed seafloor observation systems, including five multidisciplinary stations in the Sea of Marmara equipped with ocean-bottom seismographs (OBS) for collecting seismic, pressure, temperature, and current data essential for tsunami propagation modeling. In 2016, the system received UNESCO accreditation as a Tsunami Service Provider (TSP), enabling it to issue standardized tsunami messages—such as "No Tsunami," "Tsunami Advisory," or "Tsunami Warning"—to national authorities and international subscribers within minutes of an event. A key component of KOERI's tsunami monitoring is the Marmara Disaster Mitigation (MarDiM) project, a multidisciplinary initiative launched in 2014 to gather seafloor data for hazard assessment in the Marmara and Aegean Seas. Through MarDiM, KOERI deploys OBS arrays to map fault geometry, microseismicity, and potential sources along the North Anatolian Fault, revealing repetitive seismic swarms and seismogenic zones at depths of 13–25 km that inform inundation scenarios. These efforts support numerical modeling of wave propagation and amplification, particularly for near-field events where warning times are limited to under 30 minutes, and contribute to broader risk mapping by integrating bathymetric and geological data from the region. The project has identified 41 offshore earthquakes in the western Marmara Sea alone, previously undetected by land-based networks, enhancing the accuracy of forecasts. KOERI's system has monitored several historical tsunamis, issuing 34 bulletins for 38 events since 2012, including the 2017 Bodrum-Kos earthquake (Mw 6.6) that generated waves up to 0.4 meters along Turkish coasts and the 2020 Samos-Izmir earthquake (Mw 6.9) with inundation reaching 3.85 meters in some areas. Public alert protocols involve rapid dissemination of tsunami messages via email, fax, and SMS to over 90 recipients, including civil protection agencies like AFAD, which then activates evacuations and public notifications; internal tests using predefined scenarios ensure reliability, with monthly interoperability checks among NEAMTWS TSPs. The monitoring network extends to international collaborators, with five strong-motion stations in Northern Cyprus contributing data to the early warning infrastructure and Cyprus subscribing to KOERI-TSP alerts for regional coverage. Tide gauge integration, including up to 18 stations from the General Command of Mapping as of 2021 (e.g., İskenderun and Sinop), provides confirmatory sea-level data to validate alerts and track event termination.

Meteorology, Astronomy, and Geodesy

The Kandilli Observatory maintains active research programs in meteorology, astronomy, and geodesy, complementing its primary focus on seismology by providing essential data on atmospheric, celestial, and terrestrial dynamics. These fields have evolved alongside the observatory's infrastructure, with dedicated facilities supporting long-term monitoring and analysis to advance scientific understanding of environmental and geophysical processes. Meteorological observations at Kandilli have been conducted continuously and systematically since July 1, 1911, recording key parameters such as temperature, pressure, and precipitation at standardized intervals of 7, 14, and 21 hours daily in accordance with international protocols. These efforts initially served as the sole meteorological station for Istanbul, providing daily weather forecasts until the establishment of the Turkish State Meteorological Service in 1929, after which Kandilli continued as a specialized contributor to national and regional climate records. Complementing general weather monitoring, the observatory has dedicated a solar physics building, completed in the 1960s along with the 15-meter Fatin Hoca Sun Tower, to ongoing observations of solar activity, including sunspots and coronal phenomena, which began in 1947 using specialized instruments like a Zeiss prism spectroscope for chromospheric studies starting in 1949. This facility minimizes atmospheric interference, enabling precise tracking of solar variability and its potential influences on terrestrial weather patterns. In astronomy, Kandilli's research emphasizes and positional observations through its dedicated Astronomy Laboratory, which houses historical and modern instruments for celestial monitoring. The equatorial telescope, a 20 cm aperture instrument manufactured by Carl Zeiss and delivered in 1925, was installed and operational by 1935 in a purpose-built structure, primarily for and activity studies that continue to inform space weather predictions. Additional historical tools, such as the Zenith telescope installed in 1934 and later the Danjon astrolabe and Askania transit instrument, support time astronomy and precise stellar positioning. Current laboratory activities focus on physics under the Department of Space Sciences, including analysis of solar flares, coronal mass ejections, and sudden ionospheric disturbances (SID), with data contributions to international efforts like the World Data Centre for Sunspot Index and Long-term Observations since 1976. These studies also extend to space weather forecasting, integrating data with geomagnetic observations for broader geophysical applications. Geodesy research at Kandilli, conducted through its , utilizes GPS networks to measure crustal deformation and tectonic movements, providing critical baselines for understanding regional strain accumulation. Ongoing GPS campaigns, such as those along the North Anatolian Fault Zone since the early 2000s, have detected westward velocities of approximately 22 mm/year in segments like Iznik-Mekece, revealing patterns of extensional and compressional deformation in western Anatolia. These measurements are integrated with seismic data as part of the observatory's Earthquake Prediction Project, enabling combined geodetic-seismological models to assess fault behavior and long-term tectonic evolution without direct reliance on earthquake events. For instance, comparative analyses of GPS and terrestrial data in the Marmara region have quantified total crustal strain, supporting hazard mitigation strategies through precise monitoring of earth movements and gravity variations.

Library and Cultural Heritage

Manuscript Collection

The manuscript collection of the Kandilli Observatory and Earthquake Research Institute, housed in its library, comprises 1,339 works across 581 volumes, primarily focused on astronomical, astrological, mathematical, and miscellaneous scientific topics. These holdings, dating from the Ottoman era and earlier periods, include 822 works in Turkish, 414 in Arabic, and 103 in Persian, forming a unique repository dedicated exclusively to these disciplines within Islamic scientific tradition. In 2001, the collection was inscribed on UNESCO's Memory of the World International Register, recognizing its global significance as a preserved corpus of scholarly texts that illuminate advancements in astronomy, mathematics, and related fields. Notable items include seminal works by the 16th-century Ottoman polymath Takiyüddin al-Rāsid, such as treatises on astronomical instruments and calculations, which exemplify the era's integration of observation and computation. Other key manuscripts feature detailed descriptions and illustrations of astrolabes and celestial globes, alongside texts on planetary motions and eclipse predictions, providing primary sources for understanding Ottoman contributions to geodesy and timekeeping. The collection also encompasses historical records of natural phenomena, including early notations on earthquakes, reflecting the intersection of seismology with broader scientific inquiry in manuscripts. Preservation efforts, supported by UNESCO's Memory of the World Programme, have involved comprehensive cataloging, digitization, and scanning of the originals by a team from Boğaziçi University, ensuring accessibility while protecting fragile materials from deterioration. These initiatives, ongoing since the early 2000s, include reproductions of illustrated instrument designs from the manuscripts, facilitating scholarly reproductions of historical tools like armillary spheres. Through this collection, researchers gain insights into the Ottoman scientific heritage, highlighting the continuity of knowledge from medieval Islamic scholars to modern geophysical studies at the observatory.

Archival Role in Scientific History

The archives of the Kandilli Observatory and Earthquake Research Institute (KOERI) play a pivotal role in preserving and documenting the Ottoman Empire's astronomical heritage, including records and manuscripts related to the 16th-century observatory established by the scholar in Istanbul in 1577. This facility, the first major Ottoman astronomical center, featured innovative instruments such as mechanical clocks and sundials for precise observations of celestial bodies, including the Moon, Sun, planets, and a notable comet in 1577, contributing to advancements in . In addition to astronomical documentation, the archives maintain continuous geomagnetic records that began with initial measurements in 1927 and systematic observations from 1947, providing a valuable dataset for studying Earth's magnetic field variations in the region spanning eastern Europe and western Asia. These records, captured using instruments like the Chasselon-Brunner magnetic theodolite and later digital fluxgate magnetometers, have supported international magnetic surveys and industrial applications, such as oil and mining explorations in Turkey. The collection's international significance was recognized when the UNESCO Memory of the World Programme inscribed the Kandilli manuscripts in 2001, highlighting their importance as rare sources for research in Islamic science, Ottoman astronomy, and early seismological studies. Comprising over 1,300 works in Turkish, Arabic, and Persian on astronomy, mathematics, and related fields, these archives facilitate scholarly exploration of historical scientific legacies and their influence on global knowledge. To enhance accessibility and integrate historical data with contemporary research, KOERI has undertaken digitization initiatives, including vectorial scanning of analog seismograms from major 20th-century earthquakes in the Marmara region and cataloging of manuscripts on CD-ROM. These efforts enable re-analysis using modern techniques, such as spectral analysis and moment tensor inversion, to refine seismic parameters and inform current hazard assessments at KOERI, bridging Ottoman-era observations with ongoing seismology and geodesy programs.

Education and Public Engagement

Graduate Programs

The Kandilli Observatory and Earthquake Research Institute (KOERI) hosts graduate programs in Earthquake Engineering, Geophysics, and Geodesy, all offered through Boğaziçi University, leading to Master of Science (M.Sc.) and Doctor of Philosophy (Ph.D.) degrees. These programs emphasize advanced study in earth sciences and engineering, with the M.Sc. typically spanning two years of coursework and thesis preparation, while the Ph.D. requires additional semesters focused on dissertation research following a qualifying examination. The curricula across these programs provide multidisciplinary training, integrating mathematics, physics, and specialized earth science methodologies to equip students with skills in seismic analysis, earthquake risk modeling, and geodetic measurements. For instance, in Geophysics, core courses cover , , and observational seismology (GPH 543), alongside electives in environmental geophysics (GPH 560) that incorporate field studies. Similar structures in emphasize practical applications, including probabilistic seismic hazard assessments (e.g., GPH 671), with students leveraging KOERI's seismic networks, laboratories, and monitoring stations for hands-on research and data collection. Admission requires a relevant undergraduate background, such as in physics, geology, or engineering, with minimum GPA thresholds (e.g., 2.25/4.00 for M.Sc. in Geophysics) and advisor approval for course selections. Graduates from these programs produce original research that supports national earthquake monitoring and risk mitigation efforts, often integrating KOERI's real-time data into theses on topics like seismic hazard mapping and tsunami modeling. Their contributions extend to collaborative national projects, such as Turkey's earthquake early warning systems and geodetic network expansions, fostering advancements in disaster resilience through peer-reviewed publications and technical reports. Enrollment varies annually, with quotas (e.g., around 5-10 per M.Sc. program in Geophysics) prioritizing candidates committed to research-oriented careers.

Outreach and Disaster Preparedness

The Disaster Preparedness Education Unit (DPEU) at Kandilli Observatory and Earthquake Research Institute (KOERI), established on October 19, 2004, in response to the 1999 Kocaeli earthquake, focuses on enhancing public awareness and community resilience through targeted educational programs. Funded initially by USAID-OFDA, DPEU's initiatives emphasize basic disaster awareness, non-structural mitigation, structural earthquake education, and volunteer training to minimize losses in high-risk areas like . These efforts include developing multilingual handbooks, CDs, and online resources distributed to schools, hospitals, and workplaces, in collaboration with the Ministry of National Education, Ministry of Health, Turkish Red Crescent, and local authorities. A cornerstone of DPEU's hands-on training is the Earthquake Park, an on-campus educational center that simulates seismic events to teach earthquake safety to primary school students. Since its inception, the park has hosted over 41,000 participants from 2003 to 2017 through weekly school visits, incorporating an earthquake simulator to demonstrate shaking intensities and safe behaviors. Complementing this, the Mobile Earthquake Simulation Training Truck, introduced in 2007, travels to communities across Turkey, reaching 216,000 individuals in 175 cities by providing immersive simulations that model real earthquake scenarios and promote . These mobile and fixed facilities enable interactive learning, fostering skills in evacuation and first response without relying on academic research details. Public engagement extends to school visits, where DPEU conducts seminars and teacher trainings reaching thousands annually, and tsunami awareness campaigns targeting coastal areas. Notable efforts include public seminars on tsunami threats for municipalities in Kartal and Üsküdar, Istanbul, alongside annual World Tsunami Awareness Day workshops that engage stakeholders in standard operating procedures for evacuation and response. Collaborations with civil authorities, such as the American Red Cross and local governments, support these programs by integrating KOERI's expertise into community drills and volunteer networks. The 2002 Istanbul Earthquake Urgent Intervention and Early Warning System, utilizing 110 strong-motion stations for rapid alerts, has been extended through DPEU's educational extensions to bolster community preparedness by disseminating warning protocols via public training sessions. In 2025, KOERI continued these initiatives with heightened awareness drives, including opening its facilities to the public on the Marmara earthquake anniversary in August and maintaining bi-weekly school visits for disaster education programs. These updates reflect ongoing adaptations to recent seismic events, such as the April 2025 magnitude 6.2 earthquake near Istanbul, emphasizing drills and updated educational materials to strengthen local resilience.