Holocene Paleohydrological Changes Reflected in Lake-Level Fluctuations in Lake Annecy (French Pre-Alps): Climatic Significance and Archeological Implications
Michel Magny,
Eymeric Morin,
Agnès Vérot,
Hervé Richard,
André Marguet,
Robin Brigand,
Franck Gabayet,
Florent Hinschberger,
Jacques Mouthon,
Eric Thirault
Affiliations
Michel Magny
Laboratoire Chrono-Environnement, UMR 6249 CNRS-UFC, UFR Sciences et Techniques, 16 Route de Gray, 25030 Besançon, France
Eymeric Morin
Inrap, UMR 5600 EVS, and ArAr/UMR 5138 Centre de Valence, 6-10 Rue Jean-Bertin, BP 18, 26901 Valence, CEDEX 9, France
Agnès Vérot
Inrap, UMR 5600 EVS, and ArAr/UMR 5138 Centre de Valence, 6-10 Rue Jean-Bertin, BP 18, 26901 Valence, CEDEX 9, France
Hervé Richard
Laboratoire Chrono-Environnement, UMR 6249 CNRS-UFC, UFR Sciences et Techniques, 16 Route de Gray, 25030 Besançon, France
André Marguet
DRASSM, UMR 6249, 147 Plage de l’Estaque, 13016 Marseille, France
Robin Brigand
Service Archéologique Ville de Lyon, 10 Rue Neyret, 69001 Lyon, France
Franck Gabayet
Inrap, UMR 5600 EVS, and ArAr/UMR 5138 Centre de Valence, 6-10 Rue Jean-Bertin, BP 18, 26901 Valence, CEDEX 9, France
Florent Hinschberger
E.A 6293 GéHCO—GéoHydrosytèmes Continentaux, Université de Tours, Parc de Grandmont, 37200 Tours, France
Jacques Mouthon
Institut National de Recherche en Sciences et Technologies Pour l’Environnement et l’Agriculture, 65 Rue Rachais, 69007 Lyon, France
Eric Thirault
Laboratoire ArAr. Archéologie et Archéométrie, Université Lumière Lyon 2, Maison de l’Orient et de la Méditerranée, 7 Rue Raulin, 69007 Lyon, France
Lakes are threatened by contemporary climate change and human activities. Paleohydrological records provide important evidence for developing scenarios for future changes in the availability of freshwater resources. This study presents a synthesis of a sedimentological, archeological, and chronological dataset collected from Lake Annecy (eastern France) to reconstruct a lake-level record documenting the whole Holocene. This dataset shows a pronounced minimum in the lake level during the Holocene thermal maximum (HTM) (ca. 9000–7000 cal BP), preceded by a general lowering trend (early Holocene), and followed by a general rising trend (Neoglacial). On both the millennial and centennial scales, the Lake Annecy record appears to match the regional pattern of Holocene lake-level fluctuations established for West-Central Europe. In agreement with other extra-regional paleoclimatic records, it shows the dominant influence of orbital forcing. The high magnitude of the lake-level lowering (more than 5 m) during the HTM, with a 2–2.5 °C difference between the HTM and the pre-industrial mean summer temperatures, suggests possible drastic lake-level lowering phases in the near future depending on the IPCC scenarios following climate change. This would mean dramatic impacts on human activities and the preservation of exceptional archeological remains in regional lake basins.
