A New Landslide Inventory for the Armenian Lesser Caucasus: Slope Failure Morphologies and Seismotectonic Influences on Large Landslides

Abstract: Landslide hazard analyses in Armenia require consideration of the seismotectonic context of the Lesser Caucasus. As it is located near the center of the Arab-Eurasian collision, the Lesser Caucasus is characterized by its complex geology, dense fault network and mountainous relief; it is marked by recent volcanic and seismic activity largely influencing slope stability at different scales. We therefore sought to identify all major landslides in the Armenian Lesser Caucasus and to understand the environmental f… Show more

“…In these mountain belts, landslides typically cover >1 % of the landscape. For example, landslides cover approximately 2 % in the Southern Alps of New Zealand (Allen et al, 2011), 5.6 % in the European Alps (Crosta et al, 2013), 4 % of the Armenian part of the Lesser Caucasus (Matossian et al, 2020), and 1.1 % in the Southern Carpathians (Gunnell et al, 2022). However, in the examples mentioned, the percentages of landslide coverage represent only minimum values as they only consider the distribution of rock-slope failures, neglecting shallow/ debris slides and flows.…”

“…In tectonically active areas, such as the Kura fold-and-thrust belt, seismicity is a key trigger for landslides (Keefer, 1984;Tibaldi et al, 1995;Fan et al, 2019;Görüm et al, 2014;Tanyas ¸ and Lombardo, 2019;. Landslides induced by earthquakes resulting from the ongoing collision between the Arabian and Eurasian plates have been documented in surrounding regions, both in the Caucasus (Jibson et al, 1994;Matossian et al, 2020) and Anatolia (Görüm, 2019;Görüm et al, 2023). While earthquakes may have triggered landslides in the Kura fold-and-thrust belt in the past, the distribution of recently identified landslide clusters cannot be explained by seismic activity.…”

Landslides and growing folds: A lesson from the Kura fold-and-thrust belt (Azerbaijan, Georgia)

“…In these mountain belts, landslides typically cover >1 % of the landscape. For example, landslides cover approximately 2 % in the Southern Alps of New Zealand (Allen et al, 2011), 5.6 % in the European Alps (Crosta et al, 2013), 4 % of the Armenian part of the Lesser Caucasus (Matossian et al, 2020), and 1.1 % in the Southern Carpathians (Gunnell et al, 2022). However, in the examples mentioned, the percentages of landslide coverage represent only minimum values as they only consider the distribution of rock-slope failures, neglecting shallow/ debris slides and flows.…”

“…In tectonically active areas, such as the Kura fold-and-thrust belt, seismicity is a key trigger for landslides (Keefer, 1984;Tibaldi et al, 1995;Fan et al, 2019;Görüm et al, 2014;Tanyas ¸ and Lombardo, 2019;. Landslides induced by earthquakes resulting from the ongoing collision between the Arabian and Eurasian plates have been documented in surrounding regions, both in the Caucasus (Jibson et al, 1994;Matossian et al, 2020) and Anatolia (Görüm, 2019;Görüm et al, 2023). While earthquakes may have triggered landslides in the Kura fold-and-thrust belt in the past, the distribution of recently identified landslide clusters cannot be explained by seismic activity.…”

Landslides and growing folds: A lesson from the Kura fold-and-thrust belt (Azerbaijan, Georgia)

“…From a geological point of view, the Sevan-Shirak region is made of Eocene tuff and sandstone with andesite. Along the Pambak-Sevan-Syunik fault, the basin of the River Getik is an active fault where numerous landslides occurred (Karakhanian et al, 2002;Matossian et al, 2020). Gravitational hazard is characterised by boulder and block falls, mudflows and huge landslides within the middle-and high-mountain belt, where volcanogenic-sedimentary rocks and tectonic faulting zones have been evidences (Boynagryan et al, 2018).…”

First pollen record from the Late Holocene forest environment in the Lesser Caucasus

The Potential for a Geohazard-Related Geopark in Armenia