Aerosol–cloud interactions: the representation of heterogeneous ice activation in cloud models

Kärcher, Bernd; Marcolli, Claudia

doi:https://doi.org/10.5194/acp-21-15213-2021

Articles | Volume 21, issue 19

https://doi.org/10.5194/acp-21-15213-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-21-15213-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 21, issue 19

Research article

| Highlight paper

|

13 Oct 2021

Research article | Highlight paper |

| 13 Oct 2021

Aerosol–cloud interactions: the representation of heterogeneous ice activation in cloud models

Bernd Kärcher and Claudia Marcolli

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Month	HTML	PDF	XML	Total
Jun 2021	227	89	4	320
Jul 2021	84	33	3	120
Aug 2021	102	35	4	141
Sep 2021	83	24	2	109
Oct 2021	431	119	4	554
Nov 2021	205	57	3	265
Dec 2021	125	23	2	150
Jan 2022	91	23	6	120
Feb 2022	54	13	3	70
Mar 2022	58	13	2	73
Apr 2022	82	16	2	100
May 2022	67	5	0	72
Jun 2022	69	11	2	82
Jul 2022	81	7	0	88
Aug 2022	66	16	0	82
Sep 2022	45	8	0	53
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Nov 2022	49	10	0	59
Dec 2022	45	8	1	54
Jan 2023	45	22	0	67
Feb 2023	51	7	0	58
Mar 2023	48	10	1	59
Apr 2023	44	14	0	58
May 2023	42	9	0	51
Jun 2023	48	12	1	61
Jul 2023	47	13	1	61
Aug 2023	50	18	2	70
Sep 2023	65	12	0	77
Oct 2023	76	10	1	87
Nov 2023	34	4	0	38
Dec 2023	39	8	1	48
Jan 2024	17	4	1	22
Feb 2024	23	14	1	38
Mar 2024	16	18	2	36
Apr 2024	25	13	3	41
May 2024	23	9	1	33
Jun 2024	35	10	3	48
Jul 2024	133	8	5	146
Aug 2024	19	14	2	35
Sep 2024	25	4	2	31
Oct 2024	37	10	0	47
Nov 2024	16	7	1	24
Dec 2024	9	3	5	17
Jan 2025	18	13	0	31
Feb 2025	34	3	5	42
Mar 2025	17	15	3	35
Apr 2025	11	11	0	22
May 2025	41	6	1	48

Cumulative views and downloads (calculated since 21 Jun 2021)

Month	HTML	PDF	XML	Total
Jun 2021	227	89	4	320
Jul 2021	84	33	3	120
Aug 2021	102	35	4	141
Sep 2021	83	24	2	109
Oct 2021	431	119	4	554
Nov 2021	205	57	3	265
Dec 2021	125	23	2	150
Jan 2022	91	23	6	120
Feb 2022	54	13	3	70
Mar 2022	58	13	2	73
Apr 2022	82	16	2	100
May 2022	67	5	0	72
Jun 2022	69	11	2	82
Jul 2022	81	7	0	88
Aug 2022	66	16	0	82
Sep 2022	45	8	0	53
Oct 2022	82	9	1	92
Nov 2022	49	10	0	59
Dec 2022	45	8	1	54
Jan 2023	45	22	0	67
Feb 2023	51	7	0	58
Mar 2023	48	10	1	59
Apr 2023	44	14	0	58
May 2023	42	9	0	51
Jun 2023	48	12	1	61
Jul 2023	47	13	1	61
Aug 2023	50	18	2	70
Sep 2023	65	12	0	77
Oct 2023	76	10	1	87
Nov 2023	34	4	0	38
Dec 2023	39	8	1	48
Jan 2024	17	4	1	22
Feb 2024	23	14	1	38
Mar 2024	16	18	2	36
Apr 2024	25	13	3	41
May 2024	23	9	1	33
Jun 2024	35	10	3	48
Jul 2024	133	8	5	146
Aug 2024	19	14	2	35
Sep 2024	25	4	2	31
Oct 2024	37	10	0	47
Nov 2024	16	7	1	24
Dec 2024	9	3	5	17
Jan 2025	18	13	0	31
Feb 2025	34	3	5	42
Mar 2025	17	15	3	35
Apr 2025	11	11	0	22
May 2025	41	6	1	48

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Short summary

Aerosol–cloud interactions play an important role in climate change. Simulations of the competition between homogeneous solution droplet freezing and heterogeneous ice nucleation can be compromised by the misapplication of ice-active particle fractions frequently derived from laboratory measurements or parametrizations. Our study frames the problem and establishes a solution that is easy to implement in cloud models.

Aerosol–cloud interactions: the representation of heterogeneous ice activation in cloud models

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6 citations as recorded by crossref.

5 citations as recorded by crossref.

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