Improved methodologies for Earth system modelling of atmospheric soluble iron and observation comparisons using the Mechanism of Intermediate complexity for Modelling Iron (MIMI v1.0)

Hamilton, Douglas S.; Scanza, Rachel A.; Feng, Yan; Guinness, Joseph; Kok, Jasper F.; Li, Longlei; Liu, Xiaohong; Rathod, Sagar D.; Wan, Jessica S.; Wu, Mingxuan; Mahowald, Natalie M.

doi:10.5194/gmd-12-3835-2019

Articles | Volume 12, issue 9

https://doi.org/10.5194/gmd-12-3835-2019

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

https://doi.org/10.5194/gmd-12-3835-2019

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

Articles | Volume 12, issue 9

Development and technical paper

| Highlight paper

|

02 Sep 2019

Development and technical paper | Highlight paper |

| 02 Sep 2019

Improved methodologies for Earth system modelling of atmospheric soluble iron and observation comparisons using the Mechanism of Intermediate complexity for Modelling Iron (MIMI v1.0)

Douglas S. Hamilton, Rachel A. Scanza, Yan Feng, Joseph Guinness, Jasper F. Kok, Longlei Li, Xiaohong Liu, Sagar D. Rathod, Jessica S. Wan, Mingxuan Wu, and Natalie M. Mahowald

Viewed

Total article views: 7,807 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
6,041	1,639	127	7,807	541	137	191

HTML: 6,041
PDF: 1,639
XML: 127
Total: 7,807
Supplement: 541
BibTeX: 137
EndNote: 191

Views and downloads (calculated since 06 May 2019)

Month	HTML	PDF	XML	Total
May 2019	121	53	1	175
Jun 2019	31	18	0	49
Jul 2019	28	18	1	47
Aug 2019	21	12	0	33
Sep 2019	467	134	9	610
Oct 2019	167	71	1	239
Nov 2019	105	23	0	128
Dec 2019	132	25	2	159
Jan 2020	81	28	1	110
Feb 2020	89	16	2	107
Mar 2020	65	15	2	82
Apr 2020	81	13	0	94
May 2020	102	10	0	112
Jun 2020	70	16	0	86
Jul 2020	94	46	8	148
Aug 2020	75	26	1	102
Sep 2020	83	12	0	95
Oct 2020	76	28	1	105
Nov 2020	71	16	2	89
Dec 2020	99	11	3	113
Jan 2021	124	31	1	156
Feb 2021	80	21	0	101
Mar 2021	61	16	0	77
Apr 2021	51	10	0	61
May 2021	72	21	0	93
Jun 2021	63	11	1	75
Jul 2021	88	20	0	108
Aug 2021	61	19	1	81
Sep 2021	60	32	0	92
Oct 2021	60	60	0	120
Nov 2021	72	55	1	128
Dec 2021	67	11	0	78
Jan 2022	60	25	0	85
Feb 2022	67	16	2	85
Mar 2022	59	18	1	78
Apr 2022	70	15	1	86
May 2022	53	7	2	62
Jun 2022	50	8	1	59
Jul 2022	85	4	0	89
Aug 2022	216	6	0	222
Sep 2022	137	10	1	148
Oct 2022	96	17	0	113
Nov 2022	81	17	2	100
Dec 2022	59	19	0	78
Jan 2023	80	24	1	105
Feb 2023	56	12	0	68
Mar 2023	76	15	0	91
Apr 2023	49	12	0	61
May 2023	71	15	0	86
Jun 2023	47	9	1	57
Jul 2023	54	5	1	60
Aug 2023	62	14	2	78
Sep 2023	70	15	0	85
Oct 2023	92	20	1	113
Nov 2023	178	8	0	186
Dec 2023	37	32	2	71
Jan 2024	51	3	1	55
Feb 2024	19	11	0	30
Mar 2024	53	21	2	76
Apr 2024	62	16	5	83
May 2024	39	15	6	60
Jun 2024	62	13	24	99
Jul 2024	35	8	1	44
Aug 2024	32	10	1	43
Sep 2024	34	21	0	55
Oct 2024	29	10	0	39
Nov 2024	39	15	3	57
Dec 2024	44	11	0	55
Jan 2025	41	9	3	53
Feb 2025	71	20	5	96
Mar 2025	51	15	1	67
Apr 2025	54	22	1	77
May 2025	49	23	1	73
Jun 2025	85	35	0	120
Jul 2025	50	20	3	73
Aug 2025	84	18	7	109
Sep 2025	114	24	1	139
Oct 2025	74	38	4	116
Nov 2025	47	20	2	69

Cumulative views and downloads (calculated since 06 May 2019)

Month	HTML	PDF	XML	Total
May 2019	121	53	1	175
Jun 2019	31	18	0	49
Jul 2019	28	18	1	47
Aug 2019	21	12	0	33
Sep 2019	467	134	9	610
Oct 2019	167	71	1	239
Nov 2019	105	23	0	128
Dec 2019	132	25	2	159
Jan 2020	81	28	1	110
Feb 2020	89	16	2	107
Mar 2020	65	15	2	82
Apr 2020	81	13	0	94
May 2020	102	10	0	112
Jun 2020	70	16	0	86
Jul 2020	94	46	8	148
Aug 2020	75	26	1	102
Sep 2020	83	12	0	95
Oct 2020	76	28	1	105
Nov 2020	71	16	2	89
Dec 2020	99	11	3	113
Jan 2021	124	31	1	156
Feb 2021	80	21	0	101
Mar 2021	61	16	0	77
Apr 2021	51	10	0	61
May 2021	72	21	0	93
Jun 2021	63	11	1	75
Jul 2021	88	20	0	108
Aug 2021	61	19	1	81
Sep 2021	60	32	0	92
Oct 2021	60	60	0	120
Nov 2021	72	55	1	128
Dec 2021	67	11	0	78
Jan 2022	60	25	0	85
Feb 2022	67	16	2	85
Mar 2022	59	18	1	78
Apr 2022	70	15	1	86
May 2022	53	7	2	62
Jun 2022	50	8	1	59
Jul 2022	85	4	0	89
Aug 2022	216	6	0	222
Sep 2022	137	10	1	148
Oct 2022	96	17	0	113
Nov 2022	81	17	2	100
Dec 2022	59	19	0	78
Jan 2023	80	24	1	105
Feb 2023	56	12	0	68
Mar 2023	76	15	0	91
Apr 2023	49	12	0	61
May 2023	71	15	0	86
Jun 2023	47	9	1	57
Jul 2023	54	5	1	60
Aug 2023	62	14	2	78
Sep 2023	70	15	0	85
Oct 2023	92	20	1	113
Nov 2023	178	8	0	186
Dec 2023	37	32	2	71
Jan 2024	51	3	1	55
Feb 2024	19	11	0	30
Mar 2024	53	21	2	76
Apr 2024	62	16	5	83
May 2024	39	15	6	60
Jun 2024	62	13	24	99
Jul 2024	35	8	1	44
Aug 2024	32	10	1	43
Sep 2024	34	21	0	55
Oct 2024	29	10	0	39
Nov 2024	39	15	3	57
Dec 2024	44	11	0	55
Jan 2025	41	9	3	53
Feb 2025	71	20	5	96
Mar 2025	51	15	1	67
Apr 2025	54	22	1	77
May 2025	49	23	1	73
Jun 2025	85	35	0	120
Jul 2025	50	20	3	73
Aug 2025	84	18	7	109
Sep 2025	114	24	1	139
Oct 2025	74	38	4	116
Nov 2025	47	20	2	69

Viewed (geographical distribution)

Total article views: 7,807 (including HTML, PDF, and XML) Thereof 7,002 with geography defined and 805 with unknown origin.

Country	#	Views	%

1

1

Latest update: 17 Nov 2025

Short summary

MIMI v1.0 was designed for use within Earth system models to simulate the 3-D emission, atmospheric processing, and deposition of iron and its soluble fraction. Understanding the iron cycle is important due to its role as an essential micronutrient for ocean phytoplankton; its supply limits primary productivity in many of the world's oceans. Human activity has perturbed the iron cycle, and MIMI is capable of diagnosing many of these impacts; hence, it is important for future climate studies.


Total:	0
HTML:	0
PDF:	0
XML:	0


Total:	0
HTML:	0
PDF:	0
XML:	0


Total:	0
HTML:	0
PDF:	0
XML:	0