Europe on fire three thousand years ago: Arson or climate?

The timing of initiation of human impacts on the global climate system is actively debated. Anthropogenic effects on the global climate system are evident since the Industrial Revolution, but humans may have altered biomass burning, and hence the climate system, for millennia. We use the specific bi...

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Bibliographic Details
Published in:Geophysical Research Letters
Main Authors: ZENNARO, PIERO, KEHRWALD, NATALIE MARIE, Marlon, J., Ruddiman, W. F., Brucher, Tim, AGOSTINELLI, Claudio, DAHL-JENSEN, DORTHE, ZANGRANDO, Roberta, GAMBARO, Andrea, BARBANTE, Carlo
Other Authors: Zennaro, Piero, Kehrwald, NATALIE MARIE, Agostinelli, Claudio, DAHL-JENSEN, Dorthe, Zangrando, Roberta, Gambaro, Andrea, Barbante, Carlo
Format: Article in Journal/Newspaper
Language:English
Published: 2015
Subjects:
levoglucosan
NEEM ice core
paleoclimatology
deforestation
biomass burning
human impact
anthropocene
Settore CHIM/01 - Chimica Analitica
Settore GEO/01 - Paleontologia e Paleoecologia
Settore GEO/08 - Geochimica e Vulcanologia
Greenland
ice core
North Greenland
Online Access:http://hdl.handle.net/10278/3661882
https://doi.org/10.1002/2015GL064259
Description
Summary:The timing of initiation of human impacts on the global climate system is actively debated. Anthropogenic effects on the global climate system are evident since the Industrial Revolution, but humans may have altered biomass burning, and hence the climate system, for millennia. We use the specific biomarker levoglucosan to produce the first high-temporal resolution hemispheric reconstruction of Holocene fire emissions inferred from ice core analyses. Levoglucosan recorded in the Greenland North Greenland Eemian ice core significantly increases since the last glacial, resulting in a maximum around ~2.5 ka and then decreasing until the present. Here we demonstrate that global climate drivers fail to explain late Holocene biomass burning variations and that the levoglucosan maximum centered on ~2.5 ka may be due to anthropogenic land clearance. The timing of initiation of human impacts on the global climate system is actively debated. Anthropogenic effects on the global climate system are evident since the Industrial Revolution, but humans may have altered biomass burning, and hence the climate system, for millennia. We use the specific biomarker levoglucosan to produce the first high-temporal resolution hemispheric reconstruction of Holocene fire emissions inferred from ice core analyses. Levoglucosan recorded in the Greenland North Greenland Eemian ice core significantly increases since the last glacial, resulting in a maximum around similar to 2.5ka and then decreasing until the present. Here we demonstrate that global climate drivers fail to explain late Holocene biomass burning variations and that the levoglucosan maximum centered on similar to 2.5ka may be due to anthropogenic land clearance.

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