Modelled glacier response to centennial temperature and precipitation trends on the Antarctic Peninsula

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Access status: Embargo until 2050-01-01 , 69.pdf (1.09 MB)

Publication date

2014-01-01

Authors

Davies, Bethan J.
Golledge, Nicholas R.
Glasser, Neil F.
Carrivick, Jonathan L.
Ligtenberg, S.R.M.ISNI 0000000394350919
Barrand, Nicholas E.
van den Broeke, Michiel R.ORCID 0000-0003-4662-7565ISNI 0000000389564445
Hambrey, Michael J.
Smellie, John L.

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Abstract

The northern Antarctic Peninsula is currently undergoing rapid atmospheric warming. Increased glacier-surface melt during the twentieth century has contributed to ice-shelf collapse and the widespread acceleration, thinning and recession of glaciers. Therefore, glaciers peripheral to the Antarctic Ice Sheet currently make a large contribution to eustatic sea-level rise, but future melting may be offset by increased precipitation. Here we assess glacier-climate relationships both during the past and into the future, using ice-core and geological data and glacier and climate numerical model simulations. Focusing on Glacier IJR45 on James Ross Island, northeast Antarctic Peninsula, our modelling experiments show that this representative glacier is most sensitive to temperature change, not precipitation change. We determine that its most recent expansion occurred during the late Holocene a Little Ice Age' and not during the warmer mid-Holocene, as previously proposed. Simulations using a range of future Intergovernmental Panel on Climate Change climate scenarios indicate that future increases in precipitation are unlikely to offset atmospheric-warming-induced melt of peripheral Antarctic Peninsula glaciers.

Keywords

SDG 13 - Climate Action

Citation

Davies, B J, Golledge, N R, Glasser, N F, Carrivick, J L, Ligtenberg, S R M, Barrand, N E, Van Den Broeke, M R, Hambrey, M J & Smellie, J L 2014, 'Modelled glacier response to centennial temperature and precipitation trends on the Antarctic Peninsula', Nature Climate Change, vol. 4, no. 11, pp. 993-998. https://doi.org/10.1038/nclimate2369