A High-End Estimate of Sea Level Rise for Practitioners

Sea level rise (SLR) is a long-lasting consequence of climate change because global anthropogenic warming takes centuries to millennia to equilibrate for the deep ocean and ice sheets. SLR projections based on climate models support policy analysis, risk assessment and adaptation planning today, des...

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Main Authors: van de Wal, R.S.W., Nicholls, R J., Behar, D., McInnes, K., Stammer, D., Lowe, J.A., Church, J.A., DeConto, R., Fettweis, X., Goelzer, H., Haasnoot, M., Haigh, I.D., Hinkel, J., Horton, B.P., James, T.S., Jenkins, A., LeCozannet, G., Levermann, A., Lipscomb, W.H., Marzeion, B., Pattyn, F., Payne, A.J., Pfeffer, W.T., Price, S.F., Seroussi, H., Sun, S., Veatch, W., White, K.
Format: Article in Journal/Newspaper
Language:English
Published: Hoboken, NJ : Wiley-Blackwell 2022
Subjects:
high-end sea level rise
550
Antarc*
Antarctica
Ice Shelf
Online Access:https://oa.tib.eu/renate/handle/123456789/11420
https://doi.org/10.34657/10454
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spelling ftleibnizopen:oai:oai.leibnizopen.de:NYf4pIkBdbrxVwz66KkO 2023-08-20T04:00:23+02:00 A High-End Estimate of Sea Level Rise for Practitioners van de Wal, R.S.W. Nicholls, R J. Behar, D. McInnes, K. Stammer, D. Lowe, J.A. Church, J.A. DeConto, R. Fettweis, X. Goelzer, H. Haasnoot, M. Haigh, I.D. Hinkel, J. Horton, B.P. James, T.S. Jenkins, A. LeCozannet, G. Levermann, A. Lipscomb, W.H. Marzeion, B. Pattyn, F. Payne, A.J. Pfeffer, W.T. Price, S.F. Seroussi, H. Sun, S. Veatch, W. White, K. 2022 application/pdf https://oa.tib.eu/renate/handle/123456789/11420 https://doi.org/10.34657/10454 eng eng Hoboken, NJ : Wiley-Blackwell CC BY-NC-ND 4.0 Unported https://creativecommons.org/licenses/by-nc-nd/4.0 Earth's Future 10 (2022), Nr. 11 high-end sea level rise 550 article Text 2022 ftleibnizopen https://doi.org/10.34657/10454 2023-07-30T23:32:24Z Sea level rise (SLR) is a long-lasting consequence of climate change because global anthropogenic warming takes centuries to millennia to equilibrate for the deep ocean and ice sheets. SLR projections based on climate models support policy analysis, risk assessment and adaptation planning today, despite their large uncertainties. The central range of the SLR distribution is estimated by process-based models. However, risk-averse practitioners often require information about plausible future conditions that lie in the tails of the SLR distribution, which are poorly defined by existing models. Here, a community effort combining scientists and practitioners builds on a framework of discussing physical evidence to quantify high-end global SLR for practitioners. The approach is complementary to the IPCC AR6 report and provides further physically plausible high-end scenarios. High-end estimates for the different SLR components are developed for two climate scenarios at two timescales. For global warming of +2°C in 2100 (RCP2.6/SSP1-2.6) relative to pre-industrial values our high-end global SLR estimates are up to 0.9 m in 2100 and 2.5 m in 2300. Similarly, for a (RCP8.5/SSP5-8.5), we estimate up to 1.6 m in 2100 and up to 10.4 m in 2300. The large and growing differences between the scenarios beyond 2100 emphasize the long-term benefits of mitigation. However, even a modest 2°C warming may cause multi-meter SLR on centennial time scales with profound consequences for coastal areas. Earlier high-end assessments focused on instability mechanisms in Antarctica, while here we emphasize the importance of the timing of ice shelf collapse around Antarctica. This is highly uncertain due to low understanding of the driving processes. Hence both process understanding and emission scenario control high-end SLR. publishedVersion Article in Journal/Newspaper Antarc* Antarctica Ice Shelf LeibnizOpen (The Leibniz Association)
institution Open Polar
collection LeibnizOpen (The Leibniz Association)
op_collection_id ftleibnizopen
language English
topic high-end sea level rise
550
spellingShingle high-end sea level rise
550
van de Wal, R.S.W.
Nicholls, R J.
Behar, D.
McInnes, K.
Stammer, D.
Lowe, J.A.
Church, J.A.
DeConto, R.
Fettweis, X.
Goelzer, H.
Haasnoot, M.
Haigh, I.D.
Hinkel, J.
Horton, B.P.
James, T.S.
Jenkins, A.
LeCozannet, G.
Levermann, A.
Lipscomb, W.H.
Marzeion, B.
Pattyn, F.
Payne, A.J.
Pfeffer, W.T.
Price, S.F.
Seroussi, H.
Sun, S.
Veatch, W.
White, K.
A High-End Estimate of Sea Level Rise for Practitioners
topic_facet high-end sea level rise
550
description Sea level rise (SLR) is a long-lasting consequence of climate change because global anthropogenic warming takes centuries to millennia to equilibrate for the deep ocean and ice sheets. SLR projections based on climate models support policy analysis, risk assessment and adaptation planning today, despite their large uncertainties. The central range of the SLR distribution is estimated by process-based models. However, risk-averse practitioners often require information about plausible future conditions that lie in the tails of the SLR distribution, which are poorly defined by existing models. Here, a community effort combining scientists and practitioners builds on a framework of discussing physical evidence to quantify high-end global SLR for practitioners. The approach is complementary to the IPCC AR6 report and provides further physically plausible high-end scenarios. High-end estimates for the different SLR components are developed for two climate scenarios at two timescales. For global warming of +2°C in 2100 (RCP2.6/SSP1-2.6) relative to pre-industrial values our high-end global SLR estimates are up to 0.9 m in 2100 and 2.5 m in 2300. Similarly, for a (RCP8.5/SSP5-8.5), we estimate up to 1.6 m in 2100 and up to 10.4 m in 2300. The large and growing differences between the scenarios beyond 2100 emphasize the long-term benefits of mitigation. However, even a modest 2°C warming may cause multi-meter SLR on centennial time scales with profound consequences for coastal areas. Earlier high-end assessments focused on instability mechanisms in Antarctica, while here we emphasize the importance of the timing of ice shelf collapse around Antarctica. This is highly uncertain due to low understanding of the driving processes. Hence both process understanding and emission scenario control high-end SLR. publishedVersion
format Article in Journal/Newspaper
author van de Wal, R.S.W.
Nicholls, R J.
Behar, D.
McInnes, K.
Stammer, D.
Lowe, J.A.
Church, J.A.
DeConto, R.
Fettweis, X.
Goelzer, H.
Haasnoot, M.
Haigh, I.D.
Hinkel, J.
Horton, B.P.
James, T.S.
Jenkins, A.
LeCozannet, G.
Levermann, A.
Lipscomb, W.H.
Marzeion, B.
Pattyn, F.
Payne, A.J.
Pfeffer, W.T.
Price, S.F.
Seroussi, H.
Sun, S.
Veatch, W.
White, K.
author_facet van de Wal, R.S.W.
Nicholls, R J.
Behar, D.
McInnes, K.
Stammer, D.
Lowe, J.A.
Church, J.A.
DeConto, R.
Fettweis, X.
Goelzer, H.
Haasnoot, M.
Haigh, I.D.
Hinkel, J.
Horton, B.P.
James, T.S.
Jenkins, A.
LeCozannet, G.
Levermann, A.
Lipscomb, W.H.
Marzeion, B.
Pattyn, F.
Payne, A.J.
Pfeffer, W.T.
Price, S.F.
Seroussi, H.
Sun, S.
Veatch, W.
White, K.
author_sort van de Wal, R.S.W.
title A High-End Estimate of Sea Level Rise for Practitioners
title_short A High-End Estimate of Sea Level Rise for Practitioners
title_full A High-End Estimate of Sea Level Rise for Practitioners
title_fullStr A High-End Estimate of Sea Level Rise for Practitioners
title_full_unstemmed A High-End Estimate of Sea Level Rise for Practitioners
title_sort high-end estimate of sea level rise for practitioners
publisher Hoboken, NJ : Wiley-Blackwell
publishDate 2022
url https://oa.tib.eu/renate/handle/123456789/11420
https://doi.org/10.34657/10454
genre Antarc*
Antarctica
Ice Shelf
genre_facet Antarc*
Antarctica
Ice Shelf
op_source Earth's Future 10 (2022), Nr. 11
op_rights CC BY-NC-ND 4.0 Unported
https://creativecommons.org/licenses/by-nc-nd/4.0
op_doi https://doi.org/10.34657/10454
_version_ 1774717862844301312

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