Abstract
The transition from a middle Holocene relatively warm and stable climate to a cooler
and unstable late Holocene climate is reconstructed using sediments from Lake Igelsjo¨n, southcentral
Sweden. This multiproxy study illustrates local, regional and global scale responses to
climatic change by focusing on a previously identified abrupt hydrological shift to cooler and/or
wetter conditions around 4000 cal. yr BP. The results suggest that between ca. 4600 and ca.
3400 cal. yr BP, the environment around and within the lake responded in two major, well-defined
steps: the first between 4450 and 4350 cal. yr BP and the second between 4000 and 3800 cal. yr BP. A
series of rapid fluctuations of short duration were superimposed on the general cooling trend, with the
most severe aquatic response peaking at ca. 3800 cal. yr BP. Pollen percentage and influx values
show forest composition and pollen productivity changes and a distinct decline in total and Corylus
pollen influx in the period of 4000–3500 cal. yr BP. Stomatal-based reconstruction of atmospheric
CO2 concentration produced a tenuous decrease with a minimum between 3650 and 3500 cal. yr BP.
and unstable late Holocene climate is reconstructed using sediments from Lake Igelsjo¨n, southcentral
Sweden. This multiproxy study illustrates local, regional and global scale responses to
climatic change by focusing on a previously identified abrupt hydrological shift to cooler and/or
wetter conditions around 4000 cal. yr BP. The results suggest that between ca. 4600 and ca.
3400 cal. yr BP, the environment around and within the lake responded in two major, well-defined
steps: the first between 4450 and 4350 cal. yr BP and the second between 4000 and 3800 cal. yr BP. A
series of rapid fluctuations of short duration were superimposed on the general cooling trend, with the
most severe aquatic response peaking at ca. 3800 cal. yr BP. Pollen percentage and influx values
show forest composition and pollen productivity changes and a distinct decline in total and Corylus
pollen influx in the period of 4000–3500 cal. yr BP. Stomatal-based reconstruction of atmospheric
CO2 concentration produced a tenuous decrease with a minimum between 3650 and 3500 cal. yr BP.
Original language | English |
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Journal | Journal of Quaternary Science |
Volume | 20 |
Issue number | 4 |
Pages (from-to) | 349-362 |
Number of pages | 14 |
ISSN | 0267-8179 |
DOIs | |
Publication status | Published - 2005 |
Externally published | Yes |