Bjørn Buchardt scite author profile

Abstract:The oxygen-isotope composition of local precipitation (d 18 OP) is reconstructed from carbonate lakesediment components in a sediment core covering the last 10000 calendar years from Lake Tibetanus, a small, hydrologically open, groundwater-fed lake in the Abisko area, northern Sweden. Comparison of the d 18O P history with a pollen-based palaeotemperature record from the same core clearly reveals pronounced deviations from the normally expected temporal d 18 O P -temperature relation (so-called 'Dansgaard relation') that may be a function of changing oceanicity. The transition from relatively moist, maritime conditions in the early Holocene to a much drier climate after 6500 cal. BP is re ected by major changes in forest extent and composition as recorded by pollen and plant macrofossil data. At the time of maximum in uence of westerly air-mass circulation (high zonal index) c. 9500 cal. BP, brought about by high summer insolation and enhanced meridional pressure gradients, d 18 OP at Lake Tibetanus was about 2‰ higher than would be predicted by the modern isotope-temperature relation. The occurrence of long-term changes in d 18O P -temperature relations, which are more sensitive measures of palaeoclimate than either d 18O P or temperature alone, needs to be taken into account when extracting palaeoclimatic information from continental oxygen-isotope records.

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Oxygen isotope palaeotemperatures from the Tertiary period in the North Sea area

Buchardt

1978

Nature

245

103

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Bjørn Buchardt

Rapid hydrological changes during the Holocene revealed by stable isotope records of lacustrine carbonates from Lake Igelsjön, southern Sweden

Holocene changes in atmospheric circulation recorded in the oxygen-isotope stratigraphy of lacustrine carbonates from northern Sweden

Oxygen isotope palaeotemperatures from the Tertiary period in the North Sea area

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