CO2 in ice cores at core depth 1.95 m from Larsen blue ice area, East Antarctica

Blue ice areas (BIAs) have several advantages for reconstructing past climate. However, the complicated ice flow in the areas hinders constraining the age. We apply state-of-the-art techniques and show that the ages cover the last deglaciation for Larsen BIA. Our study demonstrates that Larsen BIA i...

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Bibliographic Details
Main Authors: Lee, Giyoon, Ahn, Jinho, Ju, Hyeontae, Ritterbusch, Florian, Oyabu, Ikumi, Buizert, Christo, Kim, S, Moon, Jangil, Ghosh, Sambit, Kawamura, Kenji, Lu, Zheng-Tian, Hong, Sangbum, Han, Changhee, Hur, Soon Do, Jiang, Wei, Yang, Guo-Min
Format: Dataset
Language:English
Published: PANGAEA 2022
Subjects:
Bia
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.946093
https://doi.org/10.1594/PANGAEA.946093
Description
Summary:Blue ice areas (BIAs) have several advantages for reconstructing past climate. However, the complicated ice flow in the areas hinders constraining the age. We apply state-of-the-art techniques and show that the ages cover the last deglaciation for Larsen BIA. Our study demonstrates that Larsen BIA in Northern Victoria Land helps in reconstructing the past climate during the last deglaciation. This data set presents gas composition (CO2, CH4, N2O, δ18Oatm, δ15N-N2, δO2/N2, δAr/N2), stable water isotopes (δ2Hice, δ18Oice), and the chronology of Larsen BIA. The ice cores were collected in January 2019 in Northern Victoria Land, East Antarctica. Gas composition analysis was conducted at Seoul National University and National Institute of Polar Research. Stable water isotopes were analyzed at Korea Polar Research Institute. Data sets were also published as a supplement of Lee et al. (2022) titled with “Chronostratigraphy of Larsen blue ice area in Northern Victoria Land, East Antarctica, and its implications for paleoclimate”, The Cryosphere.