Tephra-stack of combined sediment record ELSA, supplement to: Förster, Michael W; Sirocko, Frank (2016): The ELSA tephra stack: Volcanic activity in the Eifel during the last 500,000 years. Global and Planetary Change, 142, 100-107

Tephra layers of individual volcanic eruptions are traced in several cores from Eifel maar lakes, drilled between 1998 and 2014 by the Eifel Laminated Sediment Archive (ELSA). All sediment cores are dated by 14C and tuned to the Greenland interstadial succession. Tephra layers were characterized by...

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Bibliographic Details
Main Authors: Förster, Michael W, Sirocko, Frank
Format: Dataset
Language:English
Published: PANGAEA - Data Publisher for Earth & Environmental Science 2016
Subjects:
Age
Tephra or volcanic ash
Tephra marker
Greenland
Hüttenberg
Ice Sheet
Online Access:https://dx.doi.org/10.1594/pangaea.868671
https://doi.pangaea.de/10.1594/PANGAEA.868671
Description
Summary:Tephra layers of individual volcanic eruptions are traced in several cores from Eifel maar lakes, drilled between 1998 and 2014 by the Eifel Laminated Sediment Archive (ELSA). All sediment cores are dated by 14C and tuned to the Greenland interstadial succession. Tephra layers were characterized by the petrographic composition of basement rock fragments, glass shards and characteristic volcanic minerals. 10 marker tephra, including the well-established Laacher See Tephra and Dümpelmaar Tephra can be identified in the cores spanning the last glacial cycle. Older cores down to the beginning of the Elsterian, show numerous tephra sourced from Strombolian and phreatomagmatic eruptions, including the 40Ar/39Ar dated differentiated tephra from Glees and Hüttenberg. In total, at least 91 individual tephra can be identified since the onset of the Eifel volcanic activity at about 500,000 b2k, which marks the end of the ELSA tephra stack with 35 Strombolian, 48 phreatomagmatic and 8 tephra layers of evolved magma composition. Many eruptions cluster near timings of the global climate transitions at 140,000, 110,000 and 60,000 b2k. In total, the eruptions show a pattern, which resembles timing of phases of global sea level and continental ice sheet changes, indicating a relation between endogenic and exogenic processes.

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