Search citation statements
Paper Sections
Citation Types
Year Published
Publication Types
Relationship
Authors
Journals
Damaging hydrogeological events (DHEs), characterized by concurrent phenomena such as floods and landslides triggered by rainfall, pose significant threats to people and properties. Calabria, in southern Italy, frequently experiences these events, which lead to substantial economic losses in agriculture and severe damage to transport infrastructure. Addressing DHEs is crucial, especially considering climate change, which is expected to increase their frequency and intensity.This paper examines the DHE that occurred between November 20th and 22nd, 2020, on the eastern side of Calabria. To evaluate the event’s severity, two indices were applied: one measuring the exceptional nature of the triggering rainfall and the other assessing the severity of damage to people and property. By comparing these indices to historical DHEs data from the early twentieth century onward, the 2020 event has been classified as an “extraordinary event” for its very high rainfall severity and moderately high damage levels. In fact, during the event there were no fatalities or injuries and the damages were relatively manageable and recoverable with moderate expenses.In addition, to study whether the meteorological framework of the event can be traced back to those characterizing major DHEs, a detailed synoptic analysis was carried out. As a result, the meteorological conditions were identified as quite common in Calabria during autumnal DHEs (e.g., 1921, 1953, 1959, and 1971), resulting from the descent of Atlantic troughs into the Mediterranean and leading to the formation of surface minima that channel high-humidity air masses from the south, thus enhancing convective phenomena.The applied methodology, outlined in previous studies, is applicable in regions like Calabria, where historical DHEs have been systematically analysed and categorized based on rainfall and damage severity, providing a basis for comparison. Moreover, the synoptic analysis supplies new key elements to identify meteorological conditions driving to damaging events in the study region that can be useful to improve preparedness and emergency management during future DHEs.
Damaging hydrogeological events (DHEs), characterized by concurrent phenomena such as floods and landslides triggered by rainfall, pose significant threats to people and properties. Calabria, in southern Italy, frequently experiences these events, which lead to substantial economic losses in agriculture and severe damage to transport infrastructure. Addressing DHEs is crucial, especially considering climate change, which is expected to increase their frequency and intensity.This paper examines the DHE that occurred between November 20th and 22nd, 2020, on the eastern side of Calabria. To evaluate the event’s severity, two indices were applied: one measuring the exceptional nature of the triggering rainfall and the other assessing the severity of damage to people and property. By comparing these indices to historical DHEs data from the early twentieth century onward, the 2020 event has been classified as an “extraordinary event” for its very high rainfall severity and moderately high damage levels. In fact, during the event there were no fatalities or injuries and the damages were relatively manageable and recoverable with moderate expenses.In addition, to study whether the meteorological framework of the event can be traced back to those characterizing major DHEs, a detailed synoptic analysis was carried out. As a result, the meteorological conditions were identified as quite common in Calabria during autumnal DHEs (e.g., 1921, 1953, 1959, and 1971), resulting from the descent of Atlantic troughs into the Mediterranean and leading to the formation of surface minima that channel high-humidity air masses from the south, thus enhancing convective phenomena.The applied methodology, outlined in previous studies, is applicable in regions like Calabria, where historical DHEs have been systematically analysed and categorized based on rainfall and damage severity, providing a basis for comparison. Moreover, the synoptic analysis supplies new key elements to identify meteorological conditions driving to damaging events in the study region that can be useful to improve preparedness and emergency management during future DHEs.
Human impact by floods and landslides (FLs) is a significant concern, necessitating a deeper understanding to implement effective reduction measures, in line with the Sendai Framework for Disaster Risk Reduction’s goal to reduce disaster mortality between 2020 and 2030. This study examines the evolution of human interaction with FLs over the past 70 years in Calabria, Italy. By systematically analyzing regional newspapers and historical archives from 1951–1960 and 2011–2020, a database was created documenting fatalities, injuries, and the involvement of people in FL incidents. For each victim, the database includes demographic details, accident time and place, circumstances of death or injury, and whether the victim’s behavior was hazardous or protective. Results indicate a drastic reduction in both the total number of fatalities (196 versus 20) and high mortality events from 1951–1960 to 2011–2020 (6 versus 1). However, the number of people involved in incidents has increased (202 versus 1102), although this may be partly due to improved dissemination of information. Changes in population habits and the construction of more robust houses have significantly reduced high-fatality events, enhancing security. The study highlights the importance of data collection for developing locally tailored risk reduction strategies, increasing community resilience by addressing specific vulnerabilities and strengths.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.