The Elbrus (Caucasus, Russia) ice core record – Part 2: history of desert dust deposition

Ice cores are one of the most valuable paleo-archives. Records from ice cores provide information not only about the amount of dust in the atmosphere, but also about dust sources and their changes in the past. In 2009, a 182 m long ice core was recovered from the western plateau of Mt Elbrus (5115 m...

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Bibliographic Details
Published in:Atmospheric Chemistry and Physics
Main Authors: S. Kutuzov, M. Legrand, S. Preunkert, P. Ginot, V. Mikhalenko, K. Shukurov, A. Poliukhov, P. Toropov
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2019
Subjects:
Physics
QC1-999
Chemistry
QD1-999
Pacific
ice core
Online Access:https://doi.org/10.5194/acp-19-14133-2019
https://doaj.org/article/884911170bc04215844c7351bb2c0b8b
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Summary:Ice cores are one of the most valuable paleo-archives. Records from ice cores provide information not only about the amount of dust in the atmosphere, but also about dust sources and their changes in the past. In 2009, a 182 m long ice core was recovered from the western plateau of Mt Elbrus (5115 m a.s.l.). This record was further extended after a shallow ice core was drilled in 2013. Here we analyse Ca 2+ concentrations, a commonly used proxy of dust, recorded in these Elbrus ice records over the time period of 1774–2013 CE. The Ca 2+ record reveals quasi-decadal variability with a generally increasing trend. Using multiple regression analysis, we found a statistically significant spatial correlation of the Elbrus Ca 2+ summer concentrations with precipitation and soil moisture content in the Levant region (specifically Syria and Iraq). The Ca 2+ record also correlates with drought indices in North Africa ( r =0.67 , p < 0.001 ) and Middle East regions ( r =0.71 , p < 0.001 ). Dust concentrations prominently increase in the ice core over the past 200 years, confirming that the recent droughts in the Fertile Crescent (1998–2012 CE) present the most severe aridity experienced in at least the past two centuries. For the most recent 33 years recorded (1979–2012 CE), significant correlations exist between Ca 2+ and Pacific circulation indices (Pacific Decadal Oscillation, Southern Oscillation Index and Niño 4), which suggests that the increased frequency of extreme El Niño and La Niña events due to a warming climate has extended their influence to the Middle East. Evidence demonstrates that the increase in Ca 2+ concentration in the ice core cannot be attributed to human activities, such as coal combustion and cement production.

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