Surface temperature response to the major volcanic eruptions in multiple reanalysis data sets

Fujiwara, Masatomo; Martineau, Patrick; Wright, Jonathon S.

doi:https://doi.org/10.5194/acp-20-345-2020

Articles | Volume 20, issue 1

https://doi.org/10.5194/acp-20-345-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

The SPARC Reanalysis Intercomparison Project (S-RIP) (ACP/ESSD...

https://doi.org/10.5194/acp-20-345-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 20, issue 1

Research article

|

10 Jan 2020

Research article |

| 10 Jan 2020

Surface temperature response to the major volcanic eruptions in multiple reanalysis data sets

Masatomo Fujiwara, Patrick Martineau, and Jonathon S. Wright

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Total article views: 4,033 (including HTML, PDF, and XML)

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Views and downloads (calculated since 20 Jun 2019)

Month	HTML	PDF	XML	Total
Jun 2019	111	36	3	150
Jul 2019	44	6	2	52
Aug 2019	24	9	1	34
Sep 2019	14	6	0	20
Oct 2019	11	13	1	25
Nov 2019	18	8	2	28
Dec 2019	18	10	0	28
Jan 2020	170	48	5	223
Feb 2020	46	21	1	68
Mar 2020	24	15	0	39
Apr 2020	25	15	0	40
May 2020	27	8	0	35
Jun 2020	28	15	0	43
Jul 2020	57	23	4	84
Aug 2020	30	16	2	48
Sep 2020	36	8	1	45
Oct 2020	18	5	0	23
Nov 2020	21	9	0	30
Dec 2020	15	10	0	25
Jan 2021	30	13	0	43
Feb 2021	17	8	2	27
Mar 2021	19	9	0	28
Apr 2021	24	10	0	34
May 2021	16	15	2	33
Jun 2021	21	8	2	31
Jul 2021	27	6	0	33
Aug 2021	31	10	0	41
Sep 2021	34	5	1	40
Oct 2021	21	17	0	38
Nov 2021	29	23	1	53
Dec 2021	15	12	0	27
Jan 2022	22	13	8	43
Feb 2022	24	29	9	62
Mar 2022	16	9	2	27
Apr 2022	16	6	1	23
May 2022	5	8	0	13
Jun 2022	14	5	0	19
Jul 2022	21	5	0	26
Aug 2022	96	4	1	101
Sep 2022	12	5	1	18
Oct 2022	14	3	3	20
Nov 2022	20	5	2	27
Dec 2022	19	11	0	30
Jan 2023	20	9	1	30
Feb 2023	23	3	0	26
Mar 2023	16	13	2	31
Apr 2023	9	6	0	15
May 2023	14	9	1	24
Jun 2023	25	3	1	29
Jul 2023	21	7	1	29
Aug 2023	19	11	2	32
Sep 2023	13	3	2	18
Oct 2023	62	10	1	73
Nov 2023	63	6	1	70
Dec 2023	37	24	3	64
Jan 2024	86	67	0	153
Feb 2024	44	29	2	75
Mar 2024	51	41	2	94
Apr 2024	44	27	5	76
May 2024	56	23	2	81
Jun 2024	59	24	3	86
Jul 2024	102	55	1	158
Aug 2024	155	109	2	266
Sep 2024	69	32	1	102
Oct 2024	51	16	0	67
Nov 2024	53	29	4	86
Dec 2024	52	15	3	70
Jan 2025	77	29	3	109
Feb 2025	50	21	0	71
Mar 2025	54	24	4	82
Apr 2025	34	19	0	53
May 2025	51	34	1	86

Cumulative views and downloads (calculated since 20 Jun 2019)

Month	HTML	PDF	XML	Total
Jun 2019	111	36	3	150
Jul 2019	44	6	2	52
Aug 2019	24	9	1	34
Sep 2019	14	6	0	20
Oct 2019	11	13	1	25
Nov 2019	18	8	2	28
Dec 2019	18	10	0	28
Jan 2020	170	48	5	223
Feb 2020	46	21	1	68
Mar 2020	24	15	0	39
Apr 2020	25	15	0	40
May 2020	27	8	0	35
Jun 2020	28	15	0	43
Jul 2020	57	23	4	84
Aug 2020	30	16	2	48
Sep 2020	36	8	1	45
Oct 2020	18	5	0	23
Nov 2020	21	9	0	30
Dec 2020	15	10	0	25
Jan 2021	30	13	0	43
Feb 2021	17	8	2	27
Mar 2021	19	9	0	28
Apr 2021	24	10	0	34
May 2021	16	15	2	33
Jun 2021	21	8	2	31
Jul 2021	27	6	0	33
Aug 2021	31	10	0	41
Sep 2021	34	5	1	40
Oct 2021	21	17	0	38
Nov 2021	29	23	1	53
Dec 2021	15	12	0	27
Jan 2022	22	13	8	43
Feb 2022	24	29	9	62
Mar 2022	16	9	2	27
Apr 2022	16	6	1	23
May 2022	5	8	0	13
Jun 2022	14	5	0	19
Jul 2022	21	5	0	26
Aug 2022	96	4	1	101
Sep 2022	12	5	1	18
Oct 2022	14	3	3	20
Nov 2022	20	5	2	27
Dec 2022	19	11	0	30
Jan 2023	20	9	1	30
Feb 2023	23	3	0	26
Mar 2023	16	13	2	31
Apr 2023	9	6	0	15
May 2023	14	9	1	24
Jun 2023	25	3	1	29
Jul 2023	21	7	1	29
Aug 2023	19	11	2	32
Sep 2023	13	3	2	18
Oct 2023	62	10	1	73
Nov 2023	63	6	1	70
Dec 2023	37	24	3	64
Jan 2024	86	67	0	153
Feb 2024	44	29	2	75
Mar 2024	51	41	2	94
Apr 2024	44	27	5	76
May 2024	56	23	2	81
Jun 2024	59	24	3	86
Jul 2024	102	55	1	158
Aug 2024	155	109	2	266
Sep 2024	69	32	1	102
Oct 2024	51	16	0	67
Nov 2024	53	29	4	86
Dec 2024	52	15	3	70
Jan 2025	77	29	3	109
Feb 2025	50	21	0	71
Mar 2025	54	24	4	82
Apr 2025	34	19	0	53
May 2025	51	34	1	86

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Short summary

The global response of surface air temperature (SST) to the eruptions of Mount Agung in 1963, El Chichón in 1982, and Mount Pinatubo in 1991 is investigated using 11 global atmospheric reanalysis data sets. Multiple linear regression is applied, with a set of climatic indices orthogonalized, and the residuals are investigated. It is found that careful treatment of tropical SST variability is necessary to evaluate the surface response to volcanic eruptions in observations and reanalyses.

Surface temperature response to the major volcanic eruptions in multiple reanalysis data sets

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10 citations as recorded by crossref.

10 citations as recorded by crossref.


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