Analysis of the evolution of parametric drivers of high-end sea-level hazards

Hough, Alana; Wong, Tony E.

doi:10.5194/ascmo-8-117-2022

Articles | Volume 8, issue 1

https://doi.org/10.5194/ascmo-8-117-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/ascmo-8-117-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 8, issue 1

02 Jun 2022

| 02 Jun 2022

Analysis of the evolution of parametric drivers of high-end sea-level hazards

Alana Hough and Tony E. Wong

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Total article views: 3,257 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,878	304	75	3,257	86	187

HTML: 2,878
PDF: 304
XML: 75
Total: 3,257
BibTeX: 86
EndNote: 187

Views and downloads (calculated since 02 Jun 2022)

Month	HTML	PDF	XML	Total
Jun 2022	70	24	4	98
Jul 2022	50	12	0	62
Aug 2022	58	7	0	65
Sep 2022	44	7	2	53
Oct 2022	9	3	1	13
Nov 2022	17	2	1	20
Dec 2022	8	1	0	9
Jan 2023	12	6	0	18
Feb 2023	11	9	0	20
Mar 2023	18	8	0	26
Apr 2023	12	4	0	16
May 2023	17	4	0	21
Jun 2023	7	1	0	8
Jul 2023	12	2	1	15
Aug 2023	4	5	2	11
Sep 2023	8	1	2	11
Oct 2023	7	4	2	13
Nov 2023	5	1	6
Dec 2023	24	7	0	31
Jan 2024	18	1	19
Feb 2024	5	3	1	9
Mar 2024	12	3	0	15
Apr 2024	12	5	1	18
May 2024	14	4	1	19
Jun 2024	50	7	4	61
Jul 2024	21	3	3	27
Aug 2024	274	2	7	283
Sep 2024	14	1	5	20
Oct 2024	17	6	2	25
Nov 2024	13	1	0	14
Dec 2024	20	1	0	21
Jan 2025	16	7	2	25
Feb 2025	20	1	0	21
Mar 2025	24	4	2	30
Apr 2025	59	5	1	65
May 2025	30	5	1	36
Jun 2025	30	12	0	42
Jul 2025	17	12	2	31
Aug 2025	40	10	1	51
Sep 2025	106	13	1	120
Oct 2025	45	8	3	56
Nov 2025	50	16	1	67
Dec 2025	94	14	1	109
Jan 2026	930	18	3	951
Feb 2026	457	9	4	470
Mar 2026	38	10	9	57
Apr 2026	56	15	2	73
May 2026	3	2	1	6

Cumulative views and downloads (calculated since 02 Jun 2022)

Month	HTML	PDF	XML	Total
Jun 2022	70	24	4	98
Jul 2022	50	12	0	62
Aug 2022	58	7	0	65
Sep 2022	44	7	2	53
Oct 2022	9	3	1	13
Nov 2022	17	2	1	20
Dec 2022	8	1	0	9
Jan 2023	12	6	0	18
Feb 2023	11	9	0	20
Mar 2023	18	8	0	26
Apr 2023	12	4	0	16
May 2023	17	4	0	21
Jun 2023	7	1	0	8
Jul 2023	12	2	1	15
Aug 2023	4	5	2	11
Sep 2023	8	1	2	11
Oct 2023	7	4	2	13
Nov 2023	5	1	6
Dec 2023	24	7	0	31
Jan 2024	18	1	19
Feb 2024	5	3	1	9
Mar 2024	12	3	0	15
Apr 2024	12	5	1	18
May 2024	14	4	1	19
Jun 2024	50	7	4	61
Jul 2024	21	3	3	27
Aug 2024	274	2	7	283
Sep 2024	14	1	5	20
Oct 2024	17	6	2	25
Nov 2024	13	1	0	14
Dec 2024	20	1	0	21
Jan 2025	16	7	2	25
Feb 2025	20	1	0	21
Mar 2025	24	4	2	30
Apr 2025	59	5	1	65
May 2025	30	5	1	36
Jun 2025	30	12	0	42
Jul 2025	17	12	2	31
Aug 2025	40	10	1	51
Sep 2025	106	13	1	120
Oct 2025	45	8	3	56
Nov 2025	50	16	1	67
Dec 2025	94	14	1	109
Jan 2026	930	18	3	951
Feb 2026	457	9	4	470
Mar 2026	38	10	9	57
Apr 2026	56	15	2	73
May 2026	3	2	1	6

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Total article views: 3,250 (including HTML, PDF, and XML) Thereof 3,250 with geography defined and 0 with unknown origin.

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Short summary

We use machine learning to assess how different geophysical uncertainties relate to the severity of future sea-level rise. We show how the contributions to coastal hazard from different sea-level processes evolve over time and find that near-term sea-level hazards are driven by thermal expansion and the melting of glaciers and ice caps, while long-term hazards are driven by ice loss from the major ice sheets.


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Analysis of the evolution of parametric drivers of high-end sea-level hazards

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