A reconciled solution of Meltwater Pulse 1A sources using sea-level fingerprinting

Date

2021-04-01

Authors

Lin, Yucheng
Hibbert, Fiona
Whitehouse, Pippa L.
Woodroffe, Sarah A.
Purcell, Anthony
Shennan, Ian
Bradley, Sarah L.

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Volume Title

Publisher

Nature Publishing Group UK

Abstract

The most rapid global sea-level rise event of the last deglaciation, Meltwater Pulse 1A (MWP-1A), occurred ∼14,650 years ago. Considerable uncertainty regarding the sources of meltwater limits understanding of the relationship between MWP-1A and the concurrent fast-changing climate. Here we present a data-driven inversion approach, using a glacioisostatic adjustment model to invert for the sources of MWP-1A via sea-level constraints from six geographically distributed sites. The results suggest contributions from Antarctica, 1.3 m (0–5.9 m; 95% probability), Scandinavia, 4.6 m (3.2–6.4 m) and North America, 12.0 m (5.6–15.4 m), giving a global mean sea-level rise of 17.9 m (15.7–20.2 m) in 500 years. Only a North American dominant scenario successfully predicts the observed sea-level change across our six sites and an Antarctic dominant scenario is firmly refuted by Scottish isolation basin records. Our sea-level based results therefore reconcile with field-based ice-sheet reconstructions.

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Source

Nature Communications

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Journal article

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Open Access

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Creative Commons Attribution 4.0 International License

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