Author
Listed:
- Günter Blöschl
(Vienna University of Technology)
- Andrea Kiss
(Vienna University of Technology)
- Alberto Viglione
(Land and Infrastructure Engineering (DIATI), Politecnico di Torino)
- Mariano Barriendos
(University of Barcelona)
- Oliver Böhm
(University of Augsburg)
- Rudolf Brázdil
(Masaryk University
Czech Academy of Sciences)
- Denis Coeur
(ACTHYS-Diffusion)
- Gaston Demarée
(Royal Meteorological Institute of Belgium)
- Maria Carmen Llasat
(University of Barcelona)
- Neil Macdonald
(University of Liverpool)
- Dag Retsö
(Stockholm University)
- Lars Roald
(Norwegian Water Resources and Energy Directorate)
- Petra Schmocker-Fackel
(Hydrology Division, Federal Office for the Environment (FOEN))
- Inês Amorim
(University of Porto)
- Monika Bělínová
(Czech Academy of Sciences)
- Gerardo Benito
(National Museum of Natural Sciences, CSIC)
- Chiara Bertolin
(Norwegian University of Science and Technology)
- Dario Camuffo
(Institute of Atmospheric Sciences and Climate)
- Daniel Cornel
(VRVis Research Center for Virtual Reality and Visualization)
- Radosław Doktor
(Institute of Meteorology and Water Management, National Research Institute)
- Líbor Elleder
(Czech Hydrometeorological Institute)
- Silvia Enzi
(Kleio Studio Associate Research Company)
- João Carlos Garcia
(University of Porto)
- Rüdiger Glaser
(University of Freiburg)
- Julia Hall
(Vienna University of Technology)
- Klaus Haslinger
(Land and Infrastructure Engineering (DIATI), Politecnico di Torino)
- Michael Hofstätter
(Central Institute of Meteorology and Geodynamics (ZAMG))
- Jürgen Komma
(Vienna University of Technology)
- Danuta Limanówka
(National Research Institute)
- David Lun
(Vienna University of Technology)
- Andrei Panin
(Russian Academy of Sciences
Lomonosov Moscow State University)
- Juraj Parajka
(Vienna University of Technology)
- Hrvoje Petrić
(University of Zagreb)
- Fernando S. Rodrigo
(University of Almería)
- Christian Rohr
(University of Bern)
- Johannes Schönbein
(University of Freiburg)
- Lothar Schulte
(University of Barcelona)
- Luís Pedro Silva
(University of Porto)
- Willem H. J. Toonen
(Utrecht University)
- Peter Valent
(Vienna University of Technology
Slovak University of Technology in Bratislava)
- Jürgen Waser
(VRVis Research Center for Virtual Reality and Visualization)
- Oliver Wetter
(University of Bern)
Abstract
There are concerns that recent climate change is altering the frequency and magnitude of river floods in an unprecedented way1. Historical studies have identified flood-rich periods in the past half millennium in various regions of Europe2. However, because of the low temporal resolution of existing datasets and the relatively low number of series, it has remained unclear whether Europe is currently in a flood-rich period from a long-term perspective. Here we analyse how recent decades compare with the flood history of Europe, using a new database composed of more than 100 high-resolution (sub-annual) historical flood series based on documentary evidence covering all major regions of Europe. We show that the past three decades were among the most flood-rich periods in Europe in the past 500 years, and that this period differs from other flood-rich periods in terms of its extent, air temperatures and flood seasonality. We identified nine flood-rich periods and associated regions. Among the periods richest in floods are 1560–1580 (western and central Europe), 1760–1800 (most of Europe), 1840–1870 (western and southern Europe) and 1990–2016 (western and central Europe). In most parts of Europe, previous flood-rich periods occurred during cooler-than-usual phases, but the current flood-rich period has been much warmer. Flood seasonality is also more pronounced in the recent period. For example, during previous flood and interflood periods, 41 per cent and 42 per cent of central European floods occurred in summer, respectively, compared with 55 per cent of floods in the recent period. The exceptional nature of the present-day flood-rich period calls for process-based tools for flood-risk assessment that capture the physical mechanisms involved, and management strategies that can incorporate the recent changes in risk.
Suggested Citation
Günter Blöschl & Andrea Kiss & Alberto Viglione & Mariano Barriendos & Oliver Böhm & Rudolf Brázdil & Denis Coeur & Gaston Demarée & Maria Carmen Llasat & Neil Macdonald & Dag Retsö & Lars Roald & Pet, 2020.
"Current European flood-rich period exceptional compared with past 500 years,"
Nature, Nature, vol. 583(7817), pages 560-566, July.
Handle:
RePEc:nat:nature:v:583:y:2020:i:7817:d:10.1038_s41586-020-2478-3
DOI: 10.1038/s41586-020-2478-3
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Cited by:
- Fabio Luino & Mariano Barriendos & Fabrizio Terenzio Gizzi & Ruediger Glaser & Christoph Gruetzner & Walter Palmieri & Sabina Porfido & Heather Sangster & Laura Turconi, 2023.
"Historical Data for Natural Hazard Risk Mitigation and Land Use Planning,"
Land, MDPI, vol. 12(9), pages 1-21, September.
- Dario Camuffo, 2023.
"The Treatise on Waters by Cornaro (1560) and a quantitative assessment of the historical sea surges “Acqua Alta” in Venice,"
Climatic Change, Springer, vol. 176(3), pages 1-20, March.
- Fabrizio Terenzio Gizzi & Vittorio Bovolin & Paolo Villani & Maria Rosaria Potenza & Simona Voria & Antonio Minervino Amodio, 2024.
"Rewinding the Tape: Documentary Heritage to (Re)discover “Lost” Natural Hazards—Evidence and Inferences from Southern Italy,"
Sustainability, MDPI, vol. 16(7), pages 1-40, March.
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