Chemistry and deposition in the Model of Atmospheric composition at Global and Regional scales using Inversion Techniques for Trace gas Emissions (MAGRITTE v1.1) – Part 1: Chemical mechanism

Müller, Jean-François; Stavrakou, Trissevgeni; Peeters, Jozef

doi:10.5194/gmd-12-2307-2019

Articles | Volume 12, issue 6

https://doi.org/10.5194/gmd-12-2307-2019

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

https://doi.org/10.5194/gmd-12-2307-2019

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

Articles | Volume 12, issue 6

Development and technical paper

|

14 Jun 2019

Development and technical paper |

| 14 Jun 2019

Chemistry and deposition in the Model of Atmospheric composition at Global and Regional scales using Inversion Techniques for Trace gas Emissions (MAGRITTE v1.1) – Part 1: Chemical mechanism

Jean-François Müller, Trissevgeni Stavrakou, and Jozef Peeters

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Total article views: 4,713 (including HTML, PDF, and XML)

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Views and downloads (calculated since 19 Dec 2018)

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Mar 2019	15	12	0	27
Apr 2019	27	13	1	41
May 2019	17	16	0	33
Jun 2019	132	45	4	181
Jul 2019	78	38	1	117
Aug 2019	29	23	0	52
Sep 2019	30	23	0	53
Oct 2019	26	17	0	43
Nov 2019	16	15	0	31
Dec 2019	22	22	0	44
Jan 2020	26	14	2	42
Feb 2020	19	8	0	27
Mar 2020	13	18	1	32
Apr 2020	23	11	0	34
May 2020	20	12	0	32
Jun 2020	18	15	0	33
Jul 2020	45	42	11	98
Aug 2020	31	11	1	43
Sep 2020	27	9	0	36
Oct 2020	13	7	0	20
Nov 2020	16	16	0	32
Dec 2020	20	8	0	28
Jan 2021	37	13	0	50
Feb 2021	18	8	0	26
Mar 2021	24	17	0	41
Apr 2021	7	11	1	19
May 2021	19	18	1	38
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Aug 2021	9	17	0	26
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Oct 2021	9	38	0	47
Nov 2021	30	30	0	60
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Jan 2022	17	16	0	33
Feb 2022	19	13	1	33
Mar 2022	17	13	0	30
Apr 2022	26	7	2	35
May 2022	19	10	0	29
Jun 2022	23	9	0	32
Jul 2022	46	5	0	51
Aug 2022	133	3	0	136
Sep 2022	28	11	0	39
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Jan 2023	19	14	1	34
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Apr 2023	9	9	0	18
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Apr 2024	35	13	3	51
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Aug 2025	66	18	4	88
Sep 2025	314	30	3	347
Oct 2025	70	32	3	105
Nov 2025	198	49	8	255
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Cumulative views and downloads (calculated since 19 Dec 2018)

Month	HTML	PDF	XML	Total
Dec 2018	134	26	2	162
Jan 2019	113	23	1	137
Feb 2019	37	15	0	52
Mar 2019	15	12	0	27
Apr 2019	27	13	1	41
May 2019	17	16	0	33
Jun 2019	132	45	4	181
Jul 2019	78	38	1	117
Aug 2019	29	23	0	52
Sep 2019	30	23	0	53
Oct 2019	26	17	0	43
Nov 2019	16	15	0	31
Dec 2019	22	22	0	44
Jan 2020	26	14	2	42
Feb 2020	19	8	0	27
Mar 2020	13	18	1	32
Apr 2020	23	11	0	34
May 2020	20	12	0	32
Jun 2020	18	15	0	33
Jul 2020	45	42	11	98
Aug 2020	31	11	1	43
Sep 2020	27	9	0	36
Oct 2020	13	7	0	20
Nov 2020	16	16	0	32
Dec 2020	20	8	0	28
Jan 2021	37	13	0	50
Feb 2021	18	8	0	26
Mar 2021	24	17	0	41
Apr 2021	7	11	1	19
May 2021	19	18	1	38
Jun 2021	13	17	1	31
Jul 2021	15	16	0	31
Aug 2021	9	17	0	26
Sep 2021	21	25	0	46
Oct 2021	9	38	0	47
Nov 2021	30	30	0	60
Dec 2021	16	10	0	26
Jan 2022	17	16	0	33
Feb 2022	19	13	1	33
Mar 2022	17	13	0	30
Apr 2022	26	7	2	35
May 2022	19	10	0	29
Jun 2022	23	9	0	32
Jul 2022	46	5	0	51
Aug 2022	133	3	0	136
Sep 2022	28	11	0	39
Oct 2022	42	7	0	49
Nov 2022	12	8	2	22
Dec 2022	13	6	0	19
Jan 2023	19	14	1	34
Feb 2023	18	7	1	26
Mar 2023	24	17	3	44
Apr 2023	9	9	0	18
May 2023	22	21	1	44
Jun 2023	10	12	0	22
Jul 2023	14	7	2	23
Aug 2023	22	15	2	39
Sep 2023	14	3	0	17
Oct 2023	20	9	1	30
Nov 2023	14	9	0	23
Dec 2023	25	8	1	34
Jan 2024	15	12	2	29
Feb 2024	28	19	0	47
Mar 2024	21	18	0	39
Apr 2024	35	13	3	51
May 2024	48	18	3	69
Jun 2024	43	8	2	53
Jul 2024	32	6	1	39
Aug 2024	44	10	3	57
Sep 2024	36	13	0	49
Oct 2024	93	15	2	110
Nov 2024	43	9	1	53
Dec 2024	40	7	2	49
Jan 2025	57	14	2	73
Feb 2025	46	11	2	59
Mar 2025	56	10	2	68
Apr 2025	44	17	1	62
May 2025	75	17	3	95
Jun 2025	71	14	1	86
Jul 2025	48	22	2	72
Aug 2025	66	18	4	88
Sep 2025	314	30	3	347
Oct 2025	70	32	3	105
Nov 2025	198	49	8	255
Dec 2025	16	9	0	25

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Short summary

A new oxidation mechanism for biogenic volatile organic compounds is presented and implemented in the large-scale chemistry transport model MAGRITTE. The mechanism accounts for all major recent advances regarding isoprene oxidation. Evaluation against airborne measurements over the US demonstrates a good overall agreement. The mechanism incorporates newly-proposed pathways for formic and acetic acid formation, representing ~ 20 % of their global identified source.


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