Shipborne lidar measurements showing the progression of the tropical reservoir of volcanic aerosol after the June 1991 Pinatubo eruption

Antuña-Marrero, Juan-Carlos; Mann, Graham W.; Keckhut, Philippe; Avdyushin, Sergey; Nardi, Bruno; Thomason, Larry W.

doi:https://doi.org/10.5194/essd-12-2843-2020

Articles | Volume 12, issue 4

https://doi.org/10.5194/essd-12-2843-2020

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

https://doi.org/10.5194/essd-12-2843-2020

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

Articles | Volume 12, issue 4

Data description paper

|

14 Nov 2020

Data description paper |

| 14 Nov 2020

Shipborne lidar measurements showing the progression of the tropical reservoir of volcanic aerosol after the June 1991 Pinatubo eruption

Juan-Carlos Antuña-Marrero, Graham W. Mann, Philippe Keckhut, Sergey Avdyushin, Bruno Nardi, and Larry W. Thomason

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Jun 2020	46	20	1	67
Jul 2020	56	35	26	117
Aug 2020	22	4	1	27
Sep 2020	41	3	0	44
Oct 2020	28	3	2	33
Nov 2020	138	25	2	165
Dec 2020	48	15	2	65
Jan 2021	46	13	1	60
Feb 2021	24	6	0	30
Mar 2021	19	7	0	26
Apr 2021	21	12	0	33
May 2021	12	18	0	30
Jun 2021	17	10	0	27
Jul 2021	13	7	0	20
Aug 2021	18	28	1	47
Sep 2021	18	14	66	98
Oct 2021	13	31	0	44
Nov 2021	16	36	1	53
Dec 2021	23	8	2	33
Jan 2022	11	12	0	23
Feb 2022	15	16	2	33
Mar 2022	25	11	0	36
Apr 2022	18	7	3	28
May 2022	9	1	1	11
Jun 2022	10	1	1	12
Jul 2022	12	5	0	17
Aug 2022	22	7	1	30
Sep 2022	8	2	0	10
Oct 2022	16	14	2	32
Nov 2022	23	4	0	27
Dec 2022	17	7	0	24
Jan 2023	14	6	0	20
Feb 2023	6	7	1	14
Mar 2023	35	6	2	43
Apr 2023	16	8	3	27
May 2023	13	6	1	20
Jun 2023	15	7	1	23
Jul 2023	15	4	1	20
Aug 2023	11	5	1	17
Sep 2023	15	3	2	20
Oct 2023	23	10	3	36
Nov 2023	15	6	1	22
Dec 2023	21	5	3	29
Jan 2024	19	4	1	24
Feb 2024	9	9	1	19
Mar 2024	10	5	1	16
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Jul 2024	32	9	2	43
Aug 2024	31	5	5	41
Sep 2024	9	9	0	18
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Nov 2024	6	16	0	22
Dec 2024	11	9	1	21
Jan 2025	17	6	0	23
Feb 2025	16	5	0	21
Mar 2025	28	5	1	34
Apr 2025	20	12	3	35
May 2025	23	6	6	35

Cumulative views and downloads (calculated since 07 May 2020)

Month	HTML	PDF	XML	Total
May 2020	148	15	12	175
Jun 2020	46	20	1	67
Jul 2020	56	35	26	117
Aug 2020	22	4	1	27
Sep 2020	41	3	0	44
Oct 2020	28	3	2	33
Nov 2020	138	25	2	165
Dec 2020	48	15	2	65
Jan 2021	46	13	1	60
Feb 2021	24	6	0	30
Mar 2021	19	7	0	26
Apr 2021	21	12	0	33
May 2021	12	18	0	30
Jun 2021	17	10	0	27
Jul 2021	13	7	0	20
Aug 2021	18	28	1	47
Sep 2021	18	14	66	98
Oct 2021	13	31	0	44
Nov 2021	16	36	1	53
Dec 2021	23	8	2	33
Jan 2022	11	12	0	23
Feb 2022	15	16	2	33
Mar 2022	25	11	0	36
Apr 2022	18	7	3	28
May 2022	9	1	1	11
Jun 2022	10	1	1	12
Jul 2022	12	5	0	17
Aug 2022	22	7	1	30
Sep 2022	8	2	0	10
Oct 2022	16	14	2	32
Nov 2022	23	4	0	27
Dec 2022	17	7	0	24
Jan 2023	14	6	0	20
Feb 2023	6	7	1	14
Mar 2023	35	6	2	43
Apr 2023	16	8	3	27
May 2023	13	6	1	20
Jun 2023	15	7	1	23
Jul 2023	15	4	1	20
Aug 2023	11	5	1	17
Sep 2023	15	3	2	20
Oct 2023	23	10	3	36
Nov 2023	15	6	1	22
Dec 2023	21	5	3	29
Jan 2024	19	4	1	24
Feb 2024	9	9	1	19
Mar 2024	10	5	1	16
Apr 2024	15	11	3	29
May 2024	30	7	13	50
Jun 2024	65	6	3	74
Jul 2024	32	9	2	43
Aug 2024	31	5	5	41
Sep 2024	9	9	0	18
Oct 2024	13	12	1	26
Nov 2024	6	16	0	22
Dec 2024	11	9	1	21
Jan 2025	17	6	0	23
Feb 2025	16	5	0	21
Mar 2025	28	5	1	34
Apr 2025	20	12	3	35
May 2025	23	6	6	35

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Short summary

We report the recovery of lidar measurements of the 1991 Pinatubo eruption. Two Soviet ships crossing the tropical Atlantic in July–September 1991 and January–February 1992 measured the vertical profile of the Pinatubo cloud at different points in its spatio-temporal evolution. The datasets provide valuable new information on the eruption's impacts on climate, with the SAGE-II satellite measurements not able to measure most of the lower half of the Pinatubo cloud in the tropics in this period.

Shipborne lidar measurements showing the progression of the tropical reservoir of volcanic aerosol after the June 1991 Pinatubo eruption

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