Palaeoflood activity and climate change over the last 1400 years recorded by lake sediments in the north-west European Alps

Palaeoflood activity and climate change over the last 1400 years recorded by lake sediments in the north-west European Alps

A high‐resolution sedimentological and geochemical study of a high‐altitude proglacial lake (Lake Blanc, Aiguilles Rouges, 2352 m a.s.l.) revealed 195 turbidites, 190 of which are related to flood events over the last 1400 years. We used the coarsest sediment fraction of each turbidite as a proxy fo...

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Bibliographic Details
Published in:Journal of quaternary science Vol. 28; no. 2; pp. 189 - 199
Main Authors: Wilhelm, B., Arnaud, F., Sabatier, P., Magand, O., Chapron, E., Courp, T., Tachikawa, K., Fanget, B., Malet, E., Pignol, C., Bard, E., Delannoy, J. J.
Format: Journal Article
Language:English
Published: Chichester, UK John Wiley & Sons, Ltd 01-02-2013
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Subjects:
Climate
Climate change
Environmental Sciences
Flood control
flood frequency
flood intensity
Floods
Freshwater
Global Changes
lake sediment
Lakes
last millennium
Precipitation
Reconstruction
Regional
Reproduction
Sediments
flood frequency
flood intensit y
lake sediment
climate change
last millennium
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Summary:A high‐resolution sedimentological and geochemical study of a high‐altitude proglacial lake (Lake Blanc, Aiguilles Rouges, 2352 m a.s.l.) revealed 195 turbidites, 190 of which are related to flood events over the last 1400 years. We used the coarsest sediment fraction of each turbidite as a proxy for the intensity of each flood event. Because most flood events at this locality are triggered by localized summer convective precipitation events, the reconstructed sedimentary record reveals changes in the frequency and intensity of such events over the last millennium. Comparisons with other temperature, palaeohydrological and glacier reconstructions in the region suggest that the most intense events occurred during the warmest periods, i.e. during the Medieval Climate Anomaly (AD 800–1300) and the current period of global warming. On a multi‐decadal time scale, almost all the flood frequency peaks seem to correspond to warmer periods, whereas multi‐centennial variations in flood frequency appear to follow the regional precipitation pattern. Consequently, this new Alpine flood record provides further evidence of a link between climate warming and an increase in the frequency and intensity of flooding on a multi‐decadal time scale, whereas the centennial variability in flood frequencies is related to regional precipitation patterns. Copyright © 2013 John Wiley & Sons, Ltd.
Bibliography:ark:/67375/WNG-ZB8VP14B-S
ArticleID:JQS2609
istex:9C92BBA6D7413AE658BBBC1BB24F69363C9C56B6
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0267-8179
1099-1417
DOI:10.1002/jqs.2609