Climate-related variabilities in the Styx-M ice core record from northern Victoria Land, East Antarctica, during 1979–2014

Climate-related variabilities in the Styx-M ice core record from northern Victoria Land, East Antarctica, during 1979–2014

The historical climate variability in East Antarctica inferred from ice cores remains under debate owing to the vastness and complexity of the region. This study evaluates the potential climate variabilities in the Styx-M ice core records (δ18O, d-excess, and snow accumulation) from northern Victori...

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Veröffentlicht in:The Science of the total environment 2024-07, Vol.935, p.173319-173319, Article 173319
Hauptverfasser: Nyamgerel, Yalalt, Han, Yeongcheol, Hwang, Heejin, Han, Changhee, Hong, Sang-Bum, Do Hur, Soon, Lee, Jeonghoon
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Sprache:eng
Schlagworte:
Antarctica
atmospheric circulation
climate
dust
environment
Pacific Ocean
sea ice
snow
Snow accumulation
Styx glacier
summer
surface water temperature
Trace elements
Water isotopes
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container_title The Science of the total environment
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creator Nyamgerel, Yalalt
Han, Yeongcheol
Hwang, Heejin
Han, Changhee
Hong, Sang-Bum
Do Hur, Soon
Lee, Jeonghoon
description The historical climate variability in East Antarctica inferred from ice cores remains under debate owing to the vastness and complexity of the region. This study evaluates the potential climate variabilities in the Styx-M ice core records (δ18O, d-excess, and snow accumulation) from northern Victoria Land adjacent to the Ross Sea sector of East Antarctica during 1979–2014. Results show that the primary moisture source in this area is the Pacific Ocean sector. Although the annual mean δ18O values was limited to directly indicate the temperature changes, a weak relevance between the average δ18O values and the temperature signal during the austral summer season is detectable. δ18O, d-excess, and snow accumulation correlate with sea surface temperature and sea ice extent in the Ross Sea sector. A coupled influence of the SAM, ASL, and ENSO climate indices is expected, because the oceanic environment in this region is influenced by them. The pronounced intrusion of oceanic moisture coupled with atmospheric circulation patterns over the Ross Sea region makes the Styx-M ice core a promising record of the local oceanic conditions, with the snow accumulation rate being a direct proxy. Additionally, the analysis of trace elements from 1979 to 1999 revealed the presence of crustal dust sourced from the Transantarctic Mountains, as well as non-crustal sources, both intricately linked with atmospheric transport. These results demonstrate that the contributions of—and variations in—oceanic conditions associated with atmospheric circulation changes are detectable and dominant in the Styx-M ice core. This study serves as a basis for interpreting longer parts of the Styx-M ice core. [Display omitted] •δ18O tends to capture the temperature changes over the moisture source area.•Nearby oceanic conditions were crucial for δ18O, d-excess, and snow accumulation.•Snow accumulation was a reliable indicator of oceanic variability in this region.•Crustal dust from Transantarctic Mountains was dominant in trace elements.•Base study for interpretations from the longer part of the Styx-M ice core.
doi_str_mv 10.1016/j.scitotenv.2024.173319
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The pronounced intrusion of oceanic moisture coupled with atmospheric circulation patterns over the Ross Sea region makes the Styx-M ice core a promising record of the local oceanic conditions, with the snow accumulation rate being a direct proxy. Additionally, the analysis of trace elements from 1979 to 1999 revealed the presence of crustal dust sourced from the Transantarctic Mountains, as well as non-crustal sources, both intricately linked with atmospheric transport. These results demonstrate that the contributions of—and variations in—oceanic conditions associated with atmospheric circulation changes are detectable and dominant in the Styx-M ice core. This study serves as a basis for interpreting longer parts of the Styx-M ice core. [Display omitted] •δ18O tends to capture the temperature changes over the moisture source area.•Nearby oceanic conditions were crucial for δ18O, d-excess, and snow accumulation.•Snow accumulation was a reliable indicator of oceanic variability in this region.•Crustal dust from Transantarctic Mountains was dominant in trace elements.•Base study for interpretations from the longer part of the Styx-M ice core.</description><identifier>ISSN: 0048-9697</identifier><identifier>EISSN: 1879-1026</identifier><identifier>DOI: 10.1016/j.scitotenv.2024.173319</identifier><identifier>PMID: 38777053</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Antarctica ; atmospheric circulation ; climate ; dust ; environment ; Pacific Ocean ; sea ice ; snow ; Snow accumulation ; Styx glacier ; summer ; surface water temperature ; Trace elements ; Water isotopes</subject><ispartof>The Science of the total environment, 2024-07, Vol.935, p.173319-173319, Article 173319</ispartof><rights>2024 Elsevier B.V.</rights><rights>Copyright © 2024. 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The pronounced intrusion of oceanic moisture coupled with atmospheric circulation patterns over the Ross Sea region makes the Styx-M ice core a promising record of the local oceanic conditions, with the snow accumulation rate being a direct proxy. Additionally, the analysis of trace elements from 1979 to 1999 revealed the presence of crustal dust sourced from the Transantarctic Mountains, as well as non-crustal sources, both intricately linked with atmospheric transport. These results demonstrate that the contributions of—and variations in—oceanic conditions associated with atmospheric circulation changes are detectable and dominant in the Styx-M ice core. This study serves as a basis for interpreting longer parts of the Styx-M ice core. [Display omitted] •δ18O tends to capture the temperature changes over the moisture source area.•Nearby oceanic conditions were crucial for δ18O, d-excess, and snow accumulation.•Snow accumulation was a reliable indicator of oceanic variability in this region.•Crustal dust from Transantarctic Mountains was dominant in trace elements.•Base study for interpretations from the longer part of the Styx-M ice core.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>38777053</pmid><doi>10.1016/j.scitotenv.2024.173319</doi><tpages>1</tpages></addata></record>
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source Elsevier ScienceDirect Journals
subjects Antarctica
atmospheric circulation
climate
dust
environment
Pacific Ocean
sea ice
snow
Snow accumulation
Styx glacier
summer
surface water temperature
Trace elements
Water isotopes
title Climate-related variabilities in the Styx-M ice core record from northern Victoria Land, East Antarctica, during 1979–2014
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