Toarcian extreme warmth led to tropical cyclone intensification

Toarcian extreme warmth led to tropical cyclone intensification

Models predict that tropical cyclone intensity should increase on a warming planet. Observing this relationship remains, however, a difficult task since no clear trend is yet emerging from the anthropogenic record. The geological past offers the opportunity to study this relationship by looking at e...

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Published in:Earth and planetary science letters Vol. 425; pp. 120 - 130
Main Authors: Krencker, François-Nicolas, Bodin, Stéphane, Suan, Guillaume, Heimhofer, Ulrich, Kabiri, Lahcen, Immenhauser, Adrian
Format: Journal Article
Language:English
Published: Elsevier B.V 01-09-2015
Elsevier
Series:Toarcian extreme warmth led to tropical cyclone intensification
Subjects:
Amplification
Basins
Climate change
climatic warming
Climatology
Cyclones
Deposition
Early Jurassic
Earth Sciences
extreme storms
hummocky cross-stratification
Sciences of the Universe
Storms
Toarcian Oceanic Anoxic Event
Weather
ASE, Morocco
Tethys Sea
hummocky cross-stratification
Toarcian Oceanic Anoxic Event
climatic warming
Early Jurassic
extreme storms
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Summary:Models predict that tropical cyclone intensity should increase on a warming planet. Observing this relationship remains, however, a difficult task since no clear trend is yet emerging from the anthropogenic record. The geological past offers the opportunity to study this relationship by looking at episodes of extreme warmth, such as the Toarcian Oceanic Anoxic Event (T-OAE, Early Jurassic, ca. 181 Ma). In this study, we document an increase in the occurrence of storm-related deposits during the onset of the T-OAE in the tide-dominated High Atlas Basin of Morocco, associated with a drastic deepening of the mean storm weather wave base. The palaeolatitude of the High Atlas Basin (18° North during the Early Jurassic) rules out winter storms as the driving mechanism behind the formation of these deposits and points to a dramatic intensification of tropical cyclone intensity during the T-OAE global warming. These new results, combined with the previously reported ubiquitous appearance of storm deposits during the T-OAE in tropical seas of the western Tethyan area, support the concept that the globally averaged intensity of tropical cyclones will increase in the coming century due to the anthropogenic climate change. •Lower Toarcian sections are characterized by abundant storm deposits.•This observation applies for numerous near-shore settings located in the NW Tethys.•Storm deposits result from intense tropical cyclones rather than winter storms.•Cyclones strengthening caused a basinward expansion of the storm-influenced zone.•Intensification of tropical cyclones is coupled with extreme warmth.
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ISSN:0012-821X
1385-013X
DOI:10.1016/j.epsl.2015.06.003