His main research concerns Holocene, Sedimentary rock, Physical geography, Geomorphology and Radiocarbon dating. His Holocene study combines topics in areas such as Mediterranean climate, Climatology, Sea ice and Clastic rock. His Clastic rock study combines topics from a wide range of disciplines, such as Hydrology, Glacier and Suspended load.
Emmanuel Chapron focuses mostly in the field of Sedimentary rock, narrowing it down to matters related to Flood myth and, in some cases, Climate change. His Physical geography research includes themes of Seasonality, Period and Sediment, Mass wasting. In his study, Snowmelt is inextricably linked to Paleontology, which falls within the broad field of Geomorphology.
Emmanuel Chapron mainly investigates Holocene, Physical geography, Sedimentary rock, Sediment and Geomorphology. His Holocene research incorporates themes from Climatology, Mass wasting, Glacier, Flood myth and Erosion. He has researched Physical geography in several fields, including Hydrology, Vegetation, Ecosystem, Fire regime and Mediterranean climate.
In his study, which falls under the umbrella issue of Sedimentary rock, Plateau is strongly linked to Radiocarbon dating. His Sediment research is multidisciplinary, incorporating perspectives in Drainage basin, Volcano, Tephra and Tributary. His work in the fields of Geomorphology, such as Glacial period and Clastic rock, intersects with other areas such as Coring.
His scientific interests lie mostly in Sediment, Holocene, Physical geography, Sedimentary rock and Erosion. Geomorphology and Paleontology are the main areas of his Sediment studies. His Holocene study also includes fields such as
His Physical geography study combines topics from a wide range of disciplines, such as Flood myth, Climate change and Mediterranean climate. His work carried out in the field of Sedimentary rock brings together such families of science as Drainage basin, Radiocarbon dating, Maar and Paleolimnology. Emmanuel Chapron studied Erosion and Period that intersect with Provenance, Weathering, Climatology, Return period and Chronology.
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Climate versus human-driven fire regimes in Mediterranean landscapes: the Holocene record of Lago dell'Accesa (Tuscany, Italy)
Boris Vannière;D. Colombaroli;Emmanuel Chapron;Emmanuel Chapron;A. Leroux.
Quaternary Science Reviews (2008)
1822 earthquake‐triggered homogenite in Lake Le Bourget (NW Alps)
E. Chapron;C. Beck;M. Pourchet;J. F. Deconinck.
Terra Nova (1999)
North-south palaeohydrological contrasts in the central Mediterranean during the Holocene: tentative synthesis and working hypotheses
M. Magny;N. Combourieu-Nebout;J. L. de Beaulieu;V. Bout-Roumazeilles.
Climate of The Past (2013)
High-altitude varve records of abrupt environmental changes and mining activity over the last 4000 years in the Western French Alps (Lake Bramant, Grandes Rousses Massif)
Hervé Guyard;Hervé Guyard;Hervé Guyard;Emmanuel Chapron;Guillaume St-Onge;Guillaume St-Onge;Flavio S. Anselmetti.
Quaternary Science Reviews (2007)
7200 years of Rhône river flooding activity in Lake Le Bourget, France: a high-resolution sediment record of NW Alps hydrology
Fabien Arnaud;Michel Revel;Emmanuel Chapron;Marc Desmet.
The Holocene (2005)
Giant earthquakes in South-Central Chile revealed by Holocene mass-wasting events in Lake Puyehue
Jasper Moernaut;Marc De Batist;Francois Charlet;Katrien Heirman.
Sedimentary Geology (2007)
Lake Bourget regional erosion patterns reconstruction reveals Holocene NW European Alps soil evolution and paleohydrology
Fabien Arnaud;Sidonie Révillon;Maxime Debret;Marie Revel.
Quaternary Science Reviews (2012)
Evidence from wavelet analysis for a mid-Holocene transition in global climate forcing
M. Debret;D. Sebag;X. Crosta;N. Massei.
Quaternary Science Reviews (2009)
Reconstruction of the Holocene seismotectonic activity of the Southern Andes from seismites recorded in Lago Icalma, Chile, 39°S
Sébastien Bertrand;Sébastien Bertrand;François Charlet;Emmanuel Chapron;Emmanuel Chapron;Nathalie Fagel.
Palaeogeography, Palaeoclimatology, Palaeoecology (2008)
Enhanced seismicity in the early post-glacial period: Evidence from the post-Wurm sediments of Lake Annecy, northwestern Alps.
Christian Beck;Frédéric Manalt;Emmanuel Chapron;Pieter Van Rensbergen.
Journal of Geodynamics (1996)
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