Deglacial–Holocene Svalbard paleoceanography and evidence of meltwater pulse 1B

Skye Yunshu Tian; Moriaki Yasuhara; Yuanyuan Hong; Huai-Hsuan M. Huang; Hokuto Iwatani; Wing-Tung Ruby Chiu; Briony Mamo; Hisayo Okahashi; Tine L. Rasmussen

doi:10.1016/j.quascirev.2020.106237

Deglacial–Holocene Svalbard paleoceanography and evidence of meltwater pulse 1B

Skye Yunshu Tian^*, Moriaki Yasuhara^*, Yuanyuan Hong^*, Huai-Hsuan M. Huang, Hokuto Iwatani, Wing-Tung Ruby Chiu, Briony Mamo, Hisayo Okahashi, Tine L. Rasmussen

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

19 Citations (Scopus)

Abstract

Better understanding of deglacial meltwater pulses (MWPs) is imperative for future predictions of human-induced warming and abrupt sea-level change because of their potential for catastrophic damage. However, our knowledge of the second largest meltwater pulse MWP-1B that occurred shortly after the start of the Holocene interglacial remains very limited. Here, we studied fossil ostracods as paleoenvironmental indicators of water depth, salinity, and temperature in two marine sediment cores from Storfjorden, Svalbard margin (the Arctic Ocean), to investigate near-field (i.e. areas located beneath continental ice sheets at the Last Glacial Maximum) evidence of MWP-1B. The depositional environment changed from a cold bathyal environment to a warmer bathyal environment at ∼11,300 yr BP indicating incursion of warm Atlantic water into the Nordic seas, and eventually to a cold neritic environment by ∼11,000 yr BP because of melting of the Svalbard-Barents Sea ice sheet and resultant isostatic rebound. This process corresponds to rapid relative sea-level fall of 40–80 m of MWP-1B from ∼11,300 to 11,000 yr BP. © 2020 Elsevier Ltd.

Original language	English
Article number	106237
Number of pages	13
Journal	Quaternary Science Reviews
Volume	233
Online published	9 Mar 2020
DOIs	https://doi.org/10.1016/j.quascirev.2020.106237
Publication status	Published - 1 Apr 2020
Externally published	Yes

Funding

The work described in this article was partially supported by a grant from the Research Grants Council of the Hong Kong, Hong Kong SAR, China (project code: HKU 17311316 ) (to M.Y.) and by the Research Council of Norway through its Centres of Excellence funding scheme (project number: 223259 ) (to T. L. R.).

Research Keywords

Arctic ocean
Holocene
Micropaleontology
Neoglaciation
Ostracoda
Paleoceanography
Sea level change
The last deglaciation

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RGC-funded

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10.1016/j.quascirev.2020.106237

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abstract = "Better understanding of deglacial meltwater pulses (MWPs) is imperative for future predictions of human-induced warming and abrupt sea-level change because of their potential for catastrophic damage. However, our knowledge of the second largest meltwater pulse MWP-1B that occurred shortly after the start of the Holocene interglacial remains very limited. Here, we studied fossil ostracods as paleoenvironmental indicators of water depth, salinity, and temperature in two marine sediment cores from Storfjorden, Svalbard margin (the Arctic Ocean), to investigate near-field (i.e. areas located beneath continental ice sheets at the Last Glacial Maximum) evidence of MWP-1B. The depositional environment changed from a cold bathyal environment to a warmer bathyal environment at ∼11,300 yr BP indicating incursion of warm Atlantic water into the Nordic seas, and eventually to a cold neritic environment by ∼11,000 yr BP because of melting of the Svalbard-Barents Sea ice sheet and resultant isostatic rebound. This process corresponds to rapid relative sea-level fall of 40–80 m of MWP-1B from ∼11,300 to 11,000 yr BP. {\textcopyright} 2020 Elsevier Ltd.",

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AU - Tian, Skye Yunshu

AU - Yasuhara, Moriaki

AU - Hong, Yuanyuan

AU - Huang, Huai-Hsuan M.

AU - Iwatani, Hokuto

AU - Chiu, Wing-Tung Ruby

AU - Mamo, Briony

AU - Okahashi, Hisayo

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AB - Better understanding of deglacial meltwater pulses (MWPs) is imperative for future predictions of human-induced warming and abrupt sea-level change because of their potential for catastrophic damage. However, our knowledge of the second largest meltwater pulse MWP-1B that occurred shortly after the start of the Holocene interglacial remains very limited. Here, we studied fossil ostracods as paleoenvironmental indicators of water depth, salinity, and temperature in two marine sediment cores from Storfjorden, Svalbard margin (the Arctic Ocean), to investigate near-field (i.e. areas located beneath continental ice sheets at the Last Glacial Maximum) evidence of MWP-1B. The depositional environment changed from a cold bathyal environment to a warmer bathyal environment at ∼11,300 yr BP indicating incursion of warm Atlantic water into the Nordic seas, and eventually to a cold neritic environment by ∼11,000 yr BP because of melting of the Svalbard-Barents Sea ice sheet and resultant isostatic rebound. This process corresponds to rapid relative sea-level fall of 40–80 m of MWP-1B from ∼11,300 to 11,000 yr BP. © 2020 Elsevier Ltd.

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KW - Holocene

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KW - Ostracoda

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KW - The last deglaciation

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ER -

Deglacial–Holocene Svalbard paleoceanography and evidence of meltwater pulse 1B

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