Assessing the impact of sea surface temperatures on a simulated medicane using ensemble simulations

Noyelle, Robin; Ulbrich, Uwe; Becker, Nico; Meredith, Edmund P.

doi:10.5194/nhess-19-941-2019

Articles | Volume 19, issue 4

https://doi.org/10.5194/nhess-19-941-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/nhess-19-941-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 19, issue 4

Research article

|

26 Apr 2019

Research article |

| 26 Apr 2019

Assessing the impact of sea surface temperatures on a simulated medicane using ensemble simulations

Robin Noyelle, Uwe Ulbrich, Nico Becker, and Edmund P. Meredith

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Jul 2019	26	13	2	41
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Nov 2020	14	13	2	29
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Jan 2021	25	15	0	40
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Jan 2024	46	5	2	53
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Jun 2024	32	11	3	46
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Dec 2024	16	10	3	29
Jan 2025	14	13	0	27
Feb 2025	34	8	1	43
Mar 2025	18	4	0	22
Apr 2025	52	22	1	75
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Jun 2025	46	20	0	66
Jul 2025	41	19	2	62
Aug 2025	28	26	2	56
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Oct 2025	19	24	1	44
Nov 2025	54	19	1	74
Dec 2025	109	34	5	148
Jan 2026	448	21	6	475
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Mar 2026	45	21	5	71
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Cumulative views and downloads (calculated since 17 Sep 2018)

Month	HTML	PDF	XML	Total
Sep 2018	117	33	3	153
Oct 2018	103	16	2	121
Nov 2018	47	7	3	57
Dec 2018	14	5	1	20
Jan 2019	23	6	0	29
Feb 2019	9	2	0	11
Mar 2019	7	10	0	17
Apr 2019	118	37	2	157
May 2019	118	33	2	153
Jun 2019	87	28	1	116
Jul 2019	26	13	2	41
Aug 2019	18	9	1	28
Sep 2019	21	11	0	32
Oct 2019	27	8	1	36
Nov 2019	15	11	0	26
Dec 2019	18	11	0	29
Jan 2020	16	9	2	27
Feb 2020	22	5	2	29
Mar 2020	15	11	1	27
Apr 2020	19	6	0	25
May 2020	20	2	0	22
Jun 2020	26	9	3	38
Jul 2020	27	13	2	42
Aug 2020	26	15	2	43
Sep 2020	48	44	0	92
Oct 2020	13	10	2	25
Nov 2020	14	13	2	29
Dec 2020	15	7	1	23
Jan 2021	25	15	0	40
Feb 2021	8	5	0	13
Mar 2021	20	17	0	37
Apr 2021	10	11	0	21
May 2021	12	12	0	24
Jun 2021	5	4	0	9
Jul 2021	10	7	0	17
Aug 2021	8	10	0	18
Sep 2021	12	14	0	26
Oct 2021	8	35	0	43
Nov 2021	16	37	0	53
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Jan 2022	11	11	1	23
Feb 2022	9	13	2	24
Mar 2022	18	15	0	33
Apr 2022	14	11	2	27
May 2022	9	10	2	21
Jun 2022	11	8	2	21
Jul 2022	12	7	0	19
Aug 2022	23	10	0	33
Sep 2022	15	4	1	20
Oct 2022	33	3	2	38
Nov 2022	25	11	0	36
Dec 2022	17	6	0	23
Jan 2023	8	19	0	27
Feb 2023	14	15	0	29
Mar 2023	39	10	0	49
Apr 2023	7	2	0	9
May 2023	16	13	3	32
Jun 2023	15	14	2	31
Jul 2023	6	10	0	16
Aug 2023	10	5	2	17
Sep 2023	26	9	0	35
Oct 2023	12	9	0	21
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Dec 2023	26	7	1	34
Jan 2024	46	5	2	53
Feb 2024	13	13	2	28
Mar 2024	17	10	1	28
Apr 2024	15	13	4	32
May 2024	20	8	2	30
Jun 2024	32	11	3	46
Jul 2024	30	17	3	50
Aug 2024	44	7	2	53
Sep 2024	32	12	1	45
Oct 2024	24	6	2	32
Nov 2024	9	4	0	13
Dec 2024	16	10	3	29
Jan 2025	14	13	0	27
Feb 2025	34	8	1	43
Mar 2025	18	4	0	22
Apr 2025	52	22	1	75
May 2025	27	5	2	34
Jun 2025	46	20	0	66
Jul 2025	41	19	2	62
Aug 2025	28	26	2	56
Sep 2025	116	33	1	150
Oct 2025	19	24	1	44
Nov 2025	54	19	1	74
Dec 2025	109	34	5	148
Jan 2026	448	21	6	475
Feb 2026	268	12	4	284
Mar 2026	45	21	5	71
Apr 2026	3	0	3

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Total article views: 4,481 (including HTML, PDF, and XML) Thereof 4,096 with geography defined and 385 with unknown origin.

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Short summary

This paper investigates the formation of the Mediterranean hurricane that developed between Balearic Islands and Sardinia in October 1996, with a particular focus on the influence of sea surface temperature. We show that increased sea surface temperatures lead to greater probabilities of appearance and a greater strength of the resulting hurricane, suggesting that the processes for Mediterranean hurricanes at steady state are very similar to tropical cyclones.


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