Evaluation of interactive and prescribed agricultural ammonia emissions for simulating atmospheric composition in CAM-chem

Vira, Julius; Hess, Peter; Ossohou, Money; Galy-Lacaux, Corinne

doi:https://doi.org/10.5194/acp-22-1883-2022

Articles | Volume 22, issue 3

https://doi.org/10.5194/acp-22-1883-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-22-1883-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 22, issue 3

Research article

|

09 Feb 2022

Research article |

| 09 Feb 2022

Evaluation of interactive and prescribed agricultural ammonia emissions for simulating atmospheric composition in CAM-chem

Julius Vira, Peter Hess, Money Ossohou, and Corinne Galy-Lacaux

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Total article views: 3,414 (including HTML, PDF, and XML)

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Month	HTML	PDF	XML	Total
Aug 2021	215	70	4	289
Sep 2021	64	21	0	85
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Nov 2021	57	21	1	79
Dec 2021	16	13	2	31
Jan 2022	25	11	3	39
Feb 2022	205	56	5	266
Mar 2022	108	30	1	139
Apr 2022	100	18	1	119
May 2022	108	14	0	122
Jun 2022	98	13	0	111
Jul 2022	145	10	0	155
Aug 2022	93	13	1	107
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Jan 2023	39	21	0	60
Feb 2023	15	6	0	21
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Apr 2023	26	17	0	43
May 2023	19	7	0	26
Jun 2023	25	13	1	39
Jul 2023	12	11	0	23
Aug 2023	34	14	3	51
Sep 2023	31	9	0	40
Oct 2023	57	10	2	69
Nov 2023	26	5	0	31
Dec 2023	43	8	0	51
Jan 2024	52	12	0	64
Feb 2024	21	14	2	37
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Apr 2024	26	22	3	51
May 2024	26	6	0	32
Jun 2024	79	11	0	90
Jul 2024	346	5	4	355
Aug 2024	31	13	8	52
Sep 2024	18	9	0	27
Oct 2024	19	15	0	34
Nov 2024	15	17	2	34
Dec 2024	17	12	0	29
Jan 2025	16	5	0	21

Cumulative views and downloads (calculated since 02 Aug 2021)

Month	HTML	PDF	XML	Total
Aug 2021	215	70	4	289
Sep 2021	64	21	0	85
Oct 2021	79	27	4	110
Nov 2021	57	21	1	79
Dec 2021	16	13	2	31
Jan 2022	25	11	3	39
Feb 2022	205	56	5	266
Mar 2022	108	30	1	139
Apr 2022	100	18	1	119
May 2022	108	14	0	122
Jun 2022	98	13	0	111
Jul 2022	145	10	0	155
Aug 2022	93	13	1	107
Sep 2022	60	12	0	72
Oct 2022	85	13	3	101
Nov 2022	84	30	0	114
Dec 2022	74	17	1	92
Jan 2023	39	21	0	60
Feb 2023	15	6	0	21
Mar 2023	31	13	1	45
Apr 2023	26	17	0	43
May 2023	19	7	0	26
Jun 2023	25	13	1	39
Jul 2023	12	11	0	23
Aug 2023	34	14	3	51
Sep 2023	31	9	0	40
Oct 2023	57	10	2	69
Nov 2023	26	5	0	31
Dec 2023	43	8	0	51
Jan 2024	52	12	0	64
Feb 2024	21	14	2	37
Mar 2024	30	26	2	58
Apr 2024	26	22	3	51
May 2024	26	6	0	32
Jun 2024	79	11	0	90
Jul 2024	346	5	4	355
Aug 2024	31	13	8	52
Sep 2024	18	9	0	27
Oct 2024	19	15	0	34
Nov 2024	15	17	2	34
Dec 2024	17	12	0	29
Jan 2025	16	5	0	21

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Short summary

Ammonia is one of the main components of nitrogen deposition. Here we use a new model to assess the ammonia emissions from agriculture, the largest anthropogenic source of ammonia. The model results are consistent with earlier estimates over industrialized regions in agreement with observations. However, the model predicts much higher emissions over sub-Saharan Africa compared to earlier estimates. Available observations from surface stations and satellites support these higher emissions.

Evaluation of interactive and prescribed agricultural ammonia emissions for simulating atmospheric composition in CAM-chem

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4 citations as recorded by crossref.

4 citations as recorded by crossref.


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