Publications by Year: 2022

2022
Iliopoulos, G., Alexopoulos, J. D., Papadopoulou, P., Zelilidis, A., Dilalos, S., Voulgaris, N., Biggin, A., et al. (2022). The Acheulean site of Rodafnidia: geology, stratigraphy and chronology. In Aegean Acheulean at the Eurasian crossroads Hominin settlement in Eurasia and Africa. presented at the 25-29 June 2022, Lesbos, Greece. pdf
Kapetanidis, V., Kaviris, G., I., S., Kassaras, I., Sakkas, V., D., K. - F., Mavroulis, S., et al. (2022). The evolution of recent seismicity in the Ionian Islands (W. Greece) with implications on seismic hazard assessment. In 16th Inernational Congress of the Geological Society of Greece (Vol. 10, pp. GSG2022-109). Patras, Greece: Bulletin of the Geological Society of Greece. pdf
Kaviris, G., Kapetanidis, V., Spingos, I., Sakellariou, N., Karakonstantis, A., Kouskouna, V., Elias, P., et al. (2022). Investigation of the Thiva 2020–2021 Earthquake Sequence Using Seismological Data and Space Techniques. Applied Sciences, 12. WebsiteAbstract
We investigate an earthquake sequence involving an Mw = 4.6 mainshock on 2 December 2020, followed by a seismic swarm in July–October 2021 near Thiva, Central Greece, to identify the activated structures and understand its triggering mechanisms. For this purpose, we employ double-difference relocation to construct a high-resolution earthquake catalogue and examine in detail the distribution of hypocenters and the spatiotemporal evolution of the sequence. Furthermore, we apply instrumental and imaging geodesy to map the local deformation and identify long-term trends or anomalies that could have contributed to stress loading. The 2021 seismic swarm was hosted on a system of conjugate normal faults, including the eastward extension of the Yliki fault, with the main activated structures trending WNW–ESE and dipping south. No pre- or coseismic deformation could be associated with the 2021 swarm, while Coulomb stress transfer due to the Mw = 4.6 mainshock of December 2020 was found to be insufficient to trigger its nucleation. However, the evolution of the swarm is related to stress triggering by its major events and facilitated by pore-fluid pressure diffusion. The re-evaluated seismic history of the area reveals its potential to generate destructive Mw = 6.0 earthquakes; therefore, the continued monitoring of its microseismicity is considered important.
Vassilakis, E., Kaviris, G., Kapetanidis, V., Papageorgiou, E., Foumelis, M., Konsolaki, A., Petrakis, S., et al. (2022). The 27 September 2021 Earthquake in Central Crete (Greece)—Detailed Analysis of the Earthquake Sequence and Indications for Contemporary Arc-Parallel Extension to the Hellenic Arc. Applied Sciences, 12. WebsiteAbstract
The Arkalochori village in central Crete was hit by a large earthquake (Mw = 6.0) on 27 September 2021, causing casualties, injuries, and severe damage to the infrastructure. Due to the absence of apparent surface rupture and the initial focal mechanism solution of the seismic event, we initiated complementary, multi-disciplinary research by combining seismological and remote sensing data processing, followed by extensive field validation. Detailed geological mapping, fault surface measuring accompanied with tectonic analysis, fault photorealistic model creation by unmanned aerial system data processing, post-seismic surface deformation analysis by DInSAR image interpretation coupled with accurately relocated epicenters recorded by locally established seismographs have been carried out. The combination of the results obtained from these techniques led to the determination of the contemporary tectonic stress regime that caused the earthquake in central Crete, which was found compatible with extensional processes parallel to the Hellenic arc.
Dilalos, S., Alexopoulos, J. D., Vassilakis, E., & Poulos, S. E. (2022). Investigation of the structural control of a deltaic valley with geophysical methods. The case study of Pineios river delta (Thessaly, Greece). Journal of Applied Geophysics, 202, 104652. WebsiteAbstract
The current study aims to clarify the structural regime of the deltaic valley of Pineios river (Thessaly, Greece). The structural control of a deltaic area is usually a crucial parameter for its Palaio-geographical evolution and the latter needs to be clear for the contemporary conservation of such a sensitive ecotope environmentally. The investigation of the concealed subsurface tectonic structures was accomplished through the combined interpretation of gravity measurements, VES and TEM soundings. The standard gravity data reduction has been carried out and the residual anomaly was isolated with the contribution of the Fourier filters. The Euler deconvolution has been applied, providing the corresponding depth solutions between 159.8 and 1716.6 m. In the context of the qualitative interpretation, we produced several structural maps (THDR, VDR, Tilt and Theta) in order to enhance the edges of density sources that may reflect fault zones. Severe indications for the delineation of fault zones of the area were provided by these maps. Moreover, 3D density models of the area have been constructed illustrating the subsurface density distribution, up to depths of 3370 m. A main zone of lower densities in the central part of the delta has been revealed, surrounded by three zones of higher densities. Afterwards, the densities of the majority of the existing geological formations were determined with laboratory measurements from geological specimens. Therefore, three geophysical-geological profiles have been constructed, based not only on the gravity modelling but also on the geological interpretation of the geoelectrical layered models from the VES and TEM measurements. In conclusion, concealed and unknown tectonic structures of the Pineios deltaic valley have been identified beneath the surface.
Alexopoulos, J. D., Voulgaris, N., Dilalos, S., Gkosios, V., Giannopoulos, I. - K., Mitsika, G. S., Vassilakis, E., et al. (2022). Near-Surface Geophysical Characterization of Lithologies in Corfu and Lefkada Towns (Ionian Islands, Greece). Geosciences, 12. WebsiteAbstract
Lefkada and Corfu old towns are located in the western part of Greece, in the Ionian Sea. Their proximity to the Hellenic subduction zone (HSZ) is the reason for their intense seismicity. The main goal of this study was the estimation of the geotechnical characteristics of the subsurface, with the contribution of applied geophysical techniques. Therefore, seismic refraction tomography (SRT) and multichannel analysis of surface waves (MASW) were applied. A total of thirty-three (33) seismic and geoelectrical profiles were performed in both towns in order to evaluate the geotechnical characteristics of the subsurface formations. Additionally, subsurface resistivity distributions were investigated with the application of electrical resistivity tomography (ERT). Some important elastic moduli were calculated through the combination of estimated seismic wave velocities and laboratory density measurements. The horizontal distribution of seismic velocities and mechanical properties (σ, E, K, G) of Corfu town was illustrated in maps, for the depth of 5 m. The geophysical interpretation also revealed that Lefkada’s subsurface consists of only one compact geological formation, with little or no variation of its geophysical-geotechnical characteristics. Beyond that, the ground type classifications for the two towns were determined according to the European Committee for Standardization Eurocode 8, based on VS30 values.
Diakakis, M., Vassilakis, E., Mavroulis, S., Konsolaki, A., Kaviris, G., Kotsi, E., Kapetanidis, V., et al. (2022). An integrated UAS and TLS approach for monitoring coastal scarps and mass movement phenomena. The case of Ionian Islands. In EGU General Assembly Conference Abstracts (pp. EGU22-7536). Vienna, Austria. Publisher's Version
Sakkas, V., Kaviris, G., Kapetanidis, V., Alexopoulos, J. D., Spingos, I., Kassaras, I., Dilalos, S., et al. (2022). Ground Deformation Study of the Ionian Islands (W. Greece) Based on Continuous GNSS Measurements.. In 16th International Congress of the Geological Society of Greece (Vol. 10, pp. GSG2022-215). Patras, Greece: Bulletin of the Geological Society of Greece. pdf
Gkosios, V., Alexopoulos, J. D., Giannopoulos, I. K., Mitsika, G. S., Dilalos, S., Barbaresos, I., & Voulgaris, N. (2022). Determination of the subsurface geological regime and geotechnical characteristics at the area of Goudi (Athens, Greece) derived from geophysical measurements. In 16th International Congress of the Geological Society of Greece (Vol. 10, pp. GSG2022-062). Patras, Greece: Bulletin of Geological Society of Greece. pdf
Mitsika, G. S., Alexopoulos, J. D., Giannopoulos, I. K., Gkosios, V., Dilalos, S., Filis, C., Vassilakis, E., et al. (2022). Preliminary results of near-surface geophysical survey in Lefkada town (Greece).. In 16th International Congress of the Geological Society of Greece (Vol. 10, pp. GSG2022-031). Patras, Greece: Bulletin of Geological Society of Greece. pdf
Katsora, C., Konsolaki, A., Vassilakis, E., & Alexopoulos, J. (2022). Monitoring of the erosional phenomena next to the active fault of Psatha (Attica, Greece) with diachronic Terrestrial LiDAR data acquisition. In 16th International Congress of the Geological Society of Greece, Patras (Vol. 10, pp. GSG2022-050). Patras, Greece: Bulletin of Geological Society of Greece. pdf
Alexopoulos, J. D., Mitsika, G. S., Giannopoulos, I. K., Gkosios, V., Konsolaki, A., Vassilakis, E., & Poulos, S. E. (2022). ILIDA-KIT tool: First results of near surface geophysical investigation techniques for successful management of coastal erosion. In 16th International Congress of the Geological Society of Greece (Vol. 10, pp. GSG2022-064). Patras, Greece: Bulletin of Geological Society of Greece. pdf
Giannopoulos, I. K., Alexopoulos, J. D., Dilalos, S., Gkosios, V., Mitsika, G. S., Stamatakis, M., & Voulgaris, N. (2022). The geophysical identification of lateritic bauxite formation at Mandra area, Attiki (Greece). In 16th International Congress of the Geological Society of Greece (Vol. 10, pp. GSG2022-026). Patras, Greece: Bulletin of Geological Society of Greece. pdf
Mavroulis, S., Vassilakis, E., Diakakis, M., Konsolaki, A., Kaviris, G., Kotsi, E., Kapetanidis, V., et al. (2022). The Use of Innovative Techniques for Management of High-Risk Coastal Areas, Mitigation of Earthquake-Triggered Landslide Risk and Responsible Coastal Development. Applied Sciences, 12(4), 2193. WebsiteAbstract
Coastal areas constitute a very dynamic environment, balancing between numerous natural and anthropogenic processes liable to sometimes hazardous geomorphic phenomena. Especially in tectonically active coastal regions and areas of high economic value, slope failures can have significant impacts and therefore need careful and detailed examination. This work uses Unmanned Aerial System (UAS)-aided photogrammetry and Terrestrial Laser Scanning (TLS) in tectonically active segments of the coastal zone of the Ionian Islands in Greece, to explore how their capabilities can help to improve our understanding of the structural integrity of the slopes. Results show that the two approaches are able to extract large numbers of discontinuity facets, in a more practical, rapid and safe way than conventional methods of rock slope stability analysis extending to unreachable yet important parts of the slope. Through this holistic record of the structural condition of the slope the two applications allow the identification of segments that are more prone to instability and failure. In this way, they improve our understanding of the prioritization of interventions aiming to enhance the prevention of slope failures, mitigating the associated risk and improving local development in these high-value locations.
Sakkas, V., Kapetanidis, V., Kaviris, G., Spingos, I., Mavroulis, S., Diakakis, M., Alexopoulos, J. D., et al. (2022). Seismological and Ground Deformation Study of the Ionian Islands (W. Greece) during 2014-2018, a Period of Intense Seismic Activity. Applied Sciences, 12, 2331. Publisher's Version