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Palaeohydrological changes and human-impact history over the last millennium recorded at Lake Joux in the Jura Mountains, Switzerland

Laboratoire de Chrono-Ecologie, UMR 6565 du CNRS, Faculté des Science et Techniques, 16 route de Gray, 25 030 Besançon, France, michel.magny{at}univ-fcomte.fr

E. Gauthier

Laboratoire de Chrono-Ecologie, UMR 6565 du CNRS, Faculté des Science et Techniques, 16 route de Gray, 25 030 Besançon, France

B. Vannière

Laboratoire de Chrono-Ecologie, UMR 6565 du CNRS, Faculté des Science et Techniques, 16 route de Gray, 25 030 Besançon, France

O. Peyron

Laboratoire de Chrono-Ecologie, UMR 6565 du CNRS, Faculté des Science et Techniques, 16 route de Gray, 25 030 Besançon, France

On the basis of sediment and pollen analyses of a radiocarbon-dated sediment sequence from Lake Joux in the Swiss Jura Mountains (west-central Europe), this paper presents a high-resolution record of lake-level and vegetation changes for the last millennium. The lake-level record makes it possible to determine that low-stands of the water-table dominated at c. AD 1200—1400, and from 1720 onward, with interruptions by short-lived rise events at c. AD 1340 and 1840. Highstands prevailed at c. AD 1100, and around AD 1450, 1550 and 1700. The comparison of the Joux lake-level record with a solar irradiance record based on cosmogenic nucleides supports the hypothesis of a major solar forcing of climate variations in west-central Europe over the last millennium. In agreement with other palaeohydrological records established in Western Europe and in the central North Atlantic Ocean, the Joux lake-level record suggests that, on a multicentennial scale, the period of the `Little Ice Age' coincided in the European mid-latitudes with wetter climatic conditions, and probably with an increase in summer precipitation. Variations in the hydrological cycle appear to have been associated with changes in the general atmospheric circulation pattern, probably coupled with variations in oceanic circulation and solar activity. The Joux record also points to changes in water resources expected to result from ongoing global warming. Finally, despite the severe climatic conditions which prevail in the Joux Valley, the human impact history at Lake Joux over the last millennium seems to reflect political choices and economic context more than climatic changes.

Key Words: Last millennium • Jura Mountains • lake-level variations • vegetation change • palaeohydrological variations • solar forcing • human-impact history • late Holocene • Switzerland.

The Holocene, Vol. 18, No. 2, 255-265 (2008)
DOI: 10.1177/0959683607086763


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