TY - JOUR
T1 - Landslide monitoring techniques in the Geological Surveys of Europe
AU - Auflič, Mateja Jemec
AU - Herrera, Gerardo
AU - Mateos, Rosa María
AU - Poyiadji, Eleftheria
AU - Quental, Lídia
AU - Severine, Bernardie
AU - Peternel, Tina
AU - Podolszki, Laszlo
AU - Calcaterra, Stefano
AU - Kociu, Arben
AU - Warmuz, Bartłomiej
AU - Jelének, Jan
AU - Hadjicharalambous, Kleopas
AU - Becher, Gustaf Peterson
AU - Dashwood, Claire
AU - Ondrus, Peter
AU - Minkevičius, Vytautas
AU - Todorović, Saša
AU - Møller, Jens Jørgen
AU - Marturia, Jordi
N1 - Publisher Copyright:
© 2022, The Author(s).
PY - 2023/5
Y1 - 2023/5
N2 - Landslide monitoring is a mandatory step in landslide risk assessment. It requires collecting data on landslide conditions (e.g., areal extent, landslide kinematics, surface topography, hydrogeometeorological parameters, and failure surfaces) from different time periods and at different scales, from site-specific to local, regional, and national, to assess landslide activity. In this analysis, we collected information on landslide monitoring techniques from 17 members of the Earth Observation and Geohazards Expert Group (from EuroGeoSurveys) deployed between 2005 and 2021. We examined the types of the 75 recorded landslides, the landslide techniques, spatial resolution, temporal resolution, status of the technique (operational, non-operational), time of using (before the event, during the event, after the event), and the applicability of the technique in early warning systems. The research does not indicate the accuracy of each technique but, rather, the extent to which Geological Surveys conduct landslide monitoring and the predominant techniques used. Among the types of landslides, earth slides predominate and are mostly monitored by geological and engineering geological mapping. The results showed that Geological Surveys mostly utilized more traditional monitoring techniques since they have a broad mandate to collect geological data. In addition, this paper provides new insights into the role of the Geological Surveys on landslide monitoring in Europe and contributes to landslide risk reduction initiatives and commitments (e.g., the Kyoto Landslide Commitment 2020).
AB - Landslide monitoring is a mandatory step in landslide risk assessment. It requires collecting data on landslide conditions (e.g., areal extent, landslide kinematics, surface topography, hydrogeometeorological parameters, and failure surfaces) from different time periods and at different scales, from site-specific to local, regional, and national, to assess landslide activity. In this analysis, we collected information on landslide monitoring techniques from 17 members of the Earth Observation and Geohazards Expert Group (from EuroGeoSurveys) deployed between 2005 and 2021. We examined the types of the 75 recorded landslides, the landslide techniques, spatial resolution, temporal resolution, status of the technique (operational, non-operational), time of using (before the event, during the event, after the event), and the applicability of the technique in early warning systems. The research does not indicate the accuracy of each technique but, rather, the extent to which Geological Surveys conduct landslide monitoring and the predominant techniques used. Among the types of landslides, earth slides predominate and are mostly monitored by geological and engineering geological mapping. The results showed that Geological Surveys mostly utilized more traditional monitoring techniques since they have a broad mandate to collect geological data. In addition, this paper provides new insights into the role of the Geological Surveys on landslide monitoring in Europe and contributes to landslide risk reduction initiatives and commitments (e.g., the Kyoto Landslide Commitment 2020).
KW - Geological data
KW - Geological Surveys of Europe
KW - Landslide
KW - Monitoring techniques
UR - http://www.scopus.com/inward/record.url?scp=85145500553&partnerID=8YFLogxK
U2 - 10.1007/s10346-022-02007-1
DO - 10.1007/s10346-022-02007-1
M3 - Article
AN - SCOPUS:85145500553
SN - 1612-510X
VL - 20
SP - 951
EP - 965
JO - Landslides
JF - Landslides
IS - 5
ER -