Abstract
Rapid changes in the hydrological and temperature regimes over the past decades at the northern latitudes enhance significantly permafrost degradation accelerating carbon release, increase the frequency of drought events and extensive wildfires. However, the mechanisms and dynamics driving drought events and their influence on Siberian forests are currently the subject of numerous research activities. Newly developed and annually resolved stable carbon and oxygen isotope chronologies of larch tree-ring cellulose (δ13Ccell and δ18Ocell) for the period 516–2009 CE allowed the reconstruction of July precipitation and Arctic Oscillation (AO) in May, respectively. Unprecedented drought events occurred towards twentieth–twenty-first centuries as indicated by the July precipitation reconstruction. Positive AO phases in May were most pronounced during the second part of the first millennium, but also increased in frequency in the modern period of the twentieth–twenty-first centuries. Negative AO phases are associated with cold anomalies and show a remarkable decrease in the nineteenth century caused by a series of major volcanic eruptions. Our findings help explaining the increased frequency of Siberian forest fires over the past decades in Central Siberia consistent with a reduction of summer precipitation, triggered by a positive phase of the Arctic Oscillation in May.
Highlights
Rapid changes in the hydrological and temperature regimes over the past decades at the northern latitudes enhance significantly permafrost degradation accelerating carbon release, increase the frequency of drought events and extensive wildfires
Oxygen isotopes in Siberian tree rings record a temperature s ignal[15,16,17,23,36,37] and capture information about air humidity and water origin, showing teleconnections with the Arctic O scillation[16,22] or North Atlantic Oscillation (NAO)[25,27] via precipitation patterns
Our Arctic Oscillation (AO) reconstructed data agreed with NAO25 mainly during Little Ice Age (LIA, 1300–1800), emphasizing cold and dry conditions, while there was a disagreement for the recent decades
Summary
Rapid changes in the hydrological and temperature regimes over the past decades at the northern latitudes enhance significantly permafrost degradation accelerating carbon release, increase the frequency of drought events and extensive wildfires. Our findings help explaining the increased frequency of Siberian forest fires over the past decades in Central Siberia consistent with a reduction of summer precipitation, triggered by a positive phase of the Arctic Oscillation in May. Over the past two decades, heatwaves occur more often in the Eurasian north and in the Siberian subarctic. Recent rapid changes in the hydrological and temperature regimes affect significantly permafrost degradation[4] accelerating carbon release, increase frequency of drought events and extensive wildfires expanded over a large territory in S iberia[5,6,7,8]. Reconstructions of AO may, provide information on past temperature and precipitation patterns with annual and seasonal resolutions
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