Dating of the GV7 East Antarctic ice core by high-resolution chemical records and focus on the accumulation rate variability in the last millennium
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Published:2021-10-13
Issue:5
Volume:17
Page:2073-2089
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ISSN:1814-9332
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Container-title:Climate of the Past
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language:en
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Short-container-title:Clim. Past
Author:
Nardin Raffaello, Severi MirkoORCID, Amore Alessandra, Becagli SilviaORCID, Burgay FrancoisORCID, Caiazzo LauraORCID, Ciardini Virginia, Dreossi Giuliano, Frezzotti MassimoORCID, Hong Sang-BumORCID, Khan Ishaq, Narcisi Bianca Maria, Proposito MarcoORCID, Scarchilli ClaudioORCID, Selmo Enricomaria, Spolaor AndreaORCID, Stenni BarbaraORCID, Traversi RitaORCID
Abstract
Abstract. Ice core dating is the first step for a correct interpretation of climatic
and environmental changes. In this work, we release the dating of the
uppermost 197 m of the 250 m deep GV7(B) ice core (drill site, 70∘41′ S,
158∘52′ E; 1950 m a.s.l. in Oates Land, East Antarctica)
with a sub-annual resolution. Chemical records of NO3-, MSA
(methanesulfonic acid), non-sea-salt SO42- (nssSO42-), sea-salt ions and
water stable isotopes (δ18O) were studied as candidates for
dating due to their seasonal pattern. Different procedures were tested but
the nssSO42- record proved to be the most reliable on the short- and
long-term scales, so it was chosen for annual layer counting along the
whole ice core. The dating was constrained by using volcanic signatures from
historically known events as tie points, thus providing an accurate age–depth
relationship for the period 1179–2009 CE. The achievement of the complete
age scale allowed us to calculate the annual mean accumulation rate throughout
the analyzed 197 m of the core, yielding an annually resolved history of the
snow accumulation on site in the last millennium. A small yet consistent
rise in accumulation rate (Tr = 1.6, p<0.001) was found for the
last 830 years starting around mid-18th century.
Funder
Korea Polar Research Institute
Publisher
Copernicus GmbH
Subject
Paleontology,Stratigraphy,Global and Planetary Change
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