2010
DOI: 10.1016/j.yqres.2009.11.006
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Solar and proxy-sensitivity imprints on paleohydrological records for the last millennium in west-central Europe

Abstract: This paper presents a lake-level record established for the last millennium at Lake Saint-Point in the French Jura Mountains. A comparison of this lake-level record with a solar irradiance record supports the hypothesis of a solar forcing of variations in the hydrological cycle linked to climatic oscillations over the last millennium in west-central Europe, with higher lake levels during the solar minimums of Oort (around AD 1060), Wolf (around AD 1320), Spörer (around AD 1450), Maunder (around AD 1690), and D… Show more

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Cited by 40 publications
(45 citation statements)
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References 42 publications
(65 reference statements)
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“…10b) occurred between ca. AD 1600 and AD 1850 and matches the second phase of the well-documented Little Ice Age period (Chapron et al, 2002;Wanner et al, 2011;Magny et al, 2010). Furthermore, the ratio rAP/LCF (see Sect.…”
Section: Climate and Human Interactions On Terrestrial And Lacustrinesupporting
confidence: 69%
“…10b) occurred between ca. AD 1600 and AD 1850 and matches the second phase of the well-documented Little Ice Age period (Chapron et al, 2002;Wanner et al, 2011;Magny et al, 2010). Furthermore, the ratio rAP/LCF (see Sect.…”
Section: Climate and Human Interactions On Terrestrial And Lacustrinesupporting
confidence: 69%
“…The wet phase reconstructed for ca. AD 1750e1825 coincides with other events indicative of increased wetness, including the Dalton minimum in solar irradiance (Bard et al, 2000), glacier advance in the Alps (Holzhauser et al, 2005), and lake-level change in Lake Saint Point in the French Jura Mts (Magny et al, 2010) and in Lake Le Bourget (Arnaud et al, 2005). A next wet phase reconstructed for AD 1920e1955 also coincides with glacier advance in the Alps (Holzhauser et al, 2005).…”
Section: Climate Signals In the Proxiesmentioning
confidence: 69%
“…Several phases of reconstructed low DWT (wet peat surface) coincide with independent, large scale indications for cool and/or wet climate. The wet conditions reconstructed for the period around AD 1300 coincide with the Wolf solar minimum (AD 1280e1340; Wigley, 1988;Foukal, 1990) when climate change had impacts on natural systems in this part of Europe, such as the increasing trend of the Great Aletsch Glacier in the central Swiss Alps (Holzhauser et al, 2005), increasing lake levels of Lake Saint Point in the Jura Mountains (Magny et al, 2010), and the strikingly high titanium content in Lake Le Bourget in the north-western French Alps indicative of sedimentary input (Jacob et al, 2008). The wet phase reconstructed for ca.…”
Section: Climate Signals In the Proxiesmentioning
confidence: 99%
“…However, one must also notice that each periods A2, A1 as well as the onset of A corresponds to a marked advance of the Great Aletsch glacier (Holzhauser et al, 2005) as well as marked higher lake level in the neighbouring Jura massif (Magny et al, 2010). It is hence possible that glacier advances that preceded the onset of the LIA sensu stricto and moreover the one of the LIA itself completely hided the effects of human impact, as the glacial erosion was dominating the regional erosion flux.…”
Section: Period Vii: 1650-50 Cal Bpmentioning
confidence: 99%