Deriving tropospheric ozone from assimilated profiles

van Peet, Jacob C. A.; van der A, Ronald J.

doi:https://doi.org/10.5194/acp-19-8297-2019

Articles | Volume 19, issue 12

https://doi.org/10.5194/acp-19-8297-2019

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

https://doi.org/10.5194/acp-19-8297-2019

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

Articles | Volume 19, issue 12

Research article

|

27 Jun 2019

Research article |

| 27 Jun 2019

Deriving tropospheric ozone from assimilated profiles

Jacob C. A. van Peet and Ronald J. van der A

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Total article views: 1,632 (including HTML, PDF, and XML)

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Views and downloads (calculated since 05 Feb 2019)

Month	HTML	PDF	XML	Total
Feb 2019	208	48	2	258
Mar 2019	14	7	1	22
Apr 2019	11	7	1	19
May 2019	14	6	2	22
Jun 2019	8	4	0	12
Jul 2019	96	32	3	131
Aug 2019	17	10	0	27
Sep 2019	14	8	0	22
Oct 2019	11	11	0	22
Nov 2019	9	10	0	19
Dec 2019	14	8	1	23
Jan 2020	10	4	1	15
Feb 2020	11	4	1	16
Mar 2020	6	5	0	11
Apr 2020	11	5	0	16
May 2020	18	1	1	20
Jun 2020	21	7	0	28
Jul 2020	17	14	5	36
Aug 2020	24	9	2	35
Sep 2020	28	3	0	31
Oct 2020	20	4	0	24
Nov 2020	14	1	0	15
Dec 2020	55	7	1	63
Jan 2021	31	5	0	36
Feb 2021	26	7	0	33
Mar 2021	33	11	0	44
Apr 2021	31	10	1	42
May 2021	21	11	0	32
Jun 2021	21	10	0	31
Jul 2021	25	14	0	39
Aug 2021	27	13	0	40
Sep 2021	28	11	0	39
Oct 2021	24	27	0	51
Nov 2021	38	27	2	67
Dec 2021	11	12	0	23
Jan 2022	13	8	0	21
Feb 2022	14	10	2	26
Mar 2022	10	7	0	17
Apr 2022	11	3	2	16
May 2022	13	5	0	18
Jun 2022	10	2	0	12
Jul 2022	8	2	0	10
Aug 2022	15	5	0	20
Sep 2022	8	3	0	11
Oct 2022	6	3	2	11
Nov 2022	4	5	1	10
Dec 2022	12	4	1	17
Jan 2023	8	6	0	14
Feb 2023	15	7	1	23
Mar 2023	11	5	5	21
Apr 2023	3	1	0	4
May 2023	7	7	1	15
Jun 2023	1	1	0	2

Cumulative views and downloads (calculated since 05 Feb 2019)

Month	HTML	PDF	XML	Total
Feb 2019	208	48	2	258
Mar 2019	14	7	1	22
Apr 2019	11	7	1	19
May 2019	14	6	2	22
Jun 2019	8	4	0	12
Jul 2019	96	32	3	131
Aug 2019	17	10	0	27
Sep 2019	14	8	0	22
Oct 2019	11	11	0	22
Nov 2019	9	10	0	19
Dec 2019	14	8	1	23
Jan 2020	10	4	1	15
Feb 2020	11	4	1	16
Mar 2020	6	5	0	11
Apr 2020	11	5	0	16
May 2020	18	1	1	20
Jun 2020	21	7	0	28
Jul 2020	17	14	5	36
Aug 2020	24	9	2	35
Sep 2020	28	3	0	31
Oct 2020	20	4	0	24
Nov 2020	14	1	0	15
Dec 2020	55	7	1	63
Jan 2021	31	5	0	36
Feb 2021	26	7	0	33
Mar 2021	33	11	0	44
Apr 2021	31	10	1	42
May 2021	21	11	0	32
Jun 2021	21	10	0	31
Jul 2021	25	14	0	39
Aug 2021	27	13	0	40
Sep 2021	28	11	0	39
Oct 2021	24	27	0	51
Nov 2021	38	27	2	67
Dec 2021	11	12	0	23
Jan 2022	13	8	0	21
Feb 2022	14	10	2	26
Mar 2022	10	7	0	17
Apr 2022	11	3	2	16
May 2022	13	5	0	18
Jun 2022	10	2	0	12
Jul 2022	8	2	0	10
Aug 2022	15	5	0	20
Sep 2022	8	3	0	11
Oct 2022	6	3	2	11
Nov 2022	4	5	1	10
Dec 2022	12	4	1	17
Jan 2023	8	6	0	14
Feb 2023	15	7	1	23
Mar 2023	11	5	5	21
Apr 2023	3	1	0	4
May 2023	7	7	1	15
Jun 2023	1	1	0	2

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Short summary

In this research, we combine satellite measurements of ozone with a chemical transport model of the atmosphere. The focus is on the ozone concentration between the surface and 6 km above mean sea level, since in that altitude range ozone has the highest impact on living organisms. Monthly mean ozone fields show significant improvements and more detail, especially for features such as biomass-burning-enhanced ozone concentrations and outflow of ozone-rich air from Asia over the Pacific.


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