Patrick Schoellammer scite author profile

Pollen and lake-level data from Le Locle in the Swiss Jura were used to quantitatively reconstruct climatic parameters for the Younger Dryas event and the first half of the Holocene period. The Younger Dryas cold event at Le Locle was characterized by (i) a general trend toward a slight increase in summer temperature and a decrease in annual precipitation and (ii) a marked drying phase at ca. 11,900 cal yr B.P. that occurred between two wetter ones. Further phases of major deficit in moisture occured at ca. 11,500 cal yr B.P. (Younger Dryas-Holocene transition), 10,800 cal yr B.P., 8700 cal yr B.P., and 6500 cal yr B.P. Climatic parameters reconstructed here suggest that phases of higher lake level developing at ca. 12,500–12,000, 11,750–11,600, 11,200–10,900 (synchronous with the Preboreal oscillation), 10,400–8900, 8400–8300 (possibly related to the 8200 yr event), and 7800–7000 cal yr B.P. coincided with an increase in annual precipitation, a decrease in summer temperature, and a shorter growing season. Conversely, periods of low lake level corresponded to a decrease in annual precipitation, an increase in summer temperature, and a longer growing season. This general pattern could have resulted from alternate southward-northward displacements of the Atlantic Westerly Jet.

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Lake-Level fluctuations at Le Locle, Swiss Jura, from the Younger Dryas to the Mid-Holocene: A high-resolution record of climate oscillations during the final deglaciation

Magny¹,

Schoellammer²

2002

gpq

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On the basis of a high-resolution (10 cm / 110 years) lacustrine sequence from Le Locle, Swiss Jura, a fine-scale pattern of palaeohydrological changes is reconstructed for the late Younger Dryas (YD) and the early to mid-Holocene period. The late YD is characterized by a general trend of a fall in lake level and a large climatic instability. The early to mid-Holocene period shows a quasi-cyclic pattern of lake-level fluctuations. Large drops in lake level occurred at ca. 11 600-10 200 cal. BP and ca. 8 900-7 700 cal. BP. Each was interrupted by a short-term rise in lake-level and followed by a longer phase of high lake level respectively at ca. 10 200-8 900 cal. BP and ca. 7 700-6 600 cal. BP. The high lake-level periods at le Locle appear to be in phase with cold spells reconstructed in central Europe, in eastern North America and in the Greenland ice-sheet, or with cooling events and salinity anomalies recorded in the North Atlantic zone. They also coincide with rising residual Δ14C values. These data and the Lateglacial oxygen-isotope GISP2 record suggest three successive quasi-cycles of climatic and environmental changes showing strong similarities in their internal structure. These cycles suggest that large-scale climate oscillations developing from the Bølling warming to the mid-Holocene could have been associated with changes in ocean ventilation probably induced by three deglaciation steps. Finally, as a working hypothesis, a re-exami- nation of the YD event is proposed from a Holocene point of view.

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Le marais du Col-des-Roches (NE, CH) : un site de référence pour l'histoire de la végétation dans le Jura neuchâtelois [The Col-des-Roches mire (Neuchâtel, Switzerland) : a key-site to vegetation history in the Jura region]

Schoellammer¹

1997

quate

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Several core-drillings have been made in the lacustrine infillings of the Col-des-Roches palaeolake (Neuchâtel, Switzerland). Pollen analytical studies were carried out on a stratigraphie column 41 meters depth. The pollenstratigraphy and radiocarbon datings show that 3/ 4 of this filling are assigned to the Pleniglacial period and for a part, to the Late-glacial period. Pollinic long distance flux of Pinus characterize the pleniglacial vegetation. An increase of Artemisia, Poaceae and Cyperaceae and a lower representation of Pmus marked the end of the Younger Dryas. During the Holocene, the vegetation history appears very similar to that observed on the Jura mountains and the Swiss Plateau. However, this pollen stratigraphy shows two main characteristics: a partition into three phases of the Preboreal period and a high increase in Fraxinus representation which occured during the Older Atlantic.

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Un enregistrement à haute résolution des variations paléohydrologiques au paléolac du Locle dans le Jura suisse, de la fin du Dryas récent au milieu de l'Holocène

Magny¹,

Schoellammer²,

Richard³

et al. 1998

Comptes Rendus de l'Académie des Sciences - Series IIA - Earth

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