Ice particle production in mid-level stratiform mixed-phase  clouds observed with collocated A-Train measurements

Zhang, Damao; Wang, Zhien; Kollias, Pavlos; Vogelmann, Andrew M.; Yang, Kang; Luo, Tao

doi:10.5194/acp-18-4317-2018

Articles | Volume 18, issue 6

https://doi.org/10.5194/acp-18-4317-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-18-4317-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 18, issue 6

Research article

|

28 Mar 2018

Research article |

| 28 Mar 2018

Ice particle production in mid-level stratiform mixed-phase clouds observed with collocated A-Train measurements

Damao Zhang, Zhien Wang, Pavlos Kollias, Andrew M. Vogelmann, Kang Yang, and Tao Luo

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Mar 2018	149	67	4	220
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Jan 2020	8	6	0	14
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Mar 2022	8	8	0	16
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Mar 2023	42	11	0	53
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Jan 2024	14	10	1	25
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Jul 2024	22	11	1	34
Aug 2024	36	9	1	46
Sep 2024	18	4	0	22
Oct 2024	37	4	2	43
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Dec 2024	9	7	0	16
Jan 2025	23	11	1	35
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Apr 2025	31	18	1	50
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Jun 2025	51	12	1	64
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Cumulative views and downloads (calculated since 18 Oct 2017)

Month	HTML	PDF	XML	Total
Oct 2017	131	47	3	181
Nov 2017	38	12	1	51
Dec 2017	16	13	1	30
Jan 2018	25	6	1	32
Feb 2018	20	14	1	35
Mar 2018	149	67	4	220
Apr 2018	129	74	6	209
May 2018	31	32	1	64
Jun 2018	17	28	0	45
Jul 2018	14	26	0	40
Aug 2018	19	20	0	39
Sep 2018	10	14	0	24
Oct 2018	22	10	2	34
Nov 2018	19	23	0	42
Dec 2018	14	5	2	21
Jan 2019	16	11	1	28
Feb 2019	12	5	0	17
Mar 2019	6	4	0	10
Apr 2019	8	13	0	21
May 2019	15	13	0	28
Jun 2019	24	7	0	31
Jul 2019	12	9	0	21
Aug 2019	10	4	0	14
Sep 2019	1	12	0	13
Oct 2019	18	10	1	29
Nov 2019	6	8	0	14
Dec 2019	8	11	0	19
Jan 2020	8	6	0	14
Feb 2020	9	9	0	18
Mar 2020	3	9	0	12
Apr 2020	8	6	0	14
May 2020	10	7	1	18
Jun 2020	12	9	0	21
Jul 2020	14	14	5	33
Aug 2020	15	8	2	25
Sep 2020	8	5	2	15
Oct 2020	6	3	1	10
Nov 2020	7	6	0	13
Dec 2020	24	5	1	30
Jan 2021	43	11	0	54
Feb 2021	8	5	0	13
Mar 2021	10	8	0	18
Apr 2021	7	5	0	12
May 2021	8	9	1	18
Jun 2021	12	5	0	17
Jul 2021	10	9	0	19
Aug 2021	3	13	0	16
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Oct 2021	4	27	0	31
Nov 2021	17	30	1	48
Dec 2021	18	9	0	27
Jan 2022	10	9	0	19
Feb 2022	12	11	1	24
Mar 2022	8	8	0	16
Apr 2022	13	7	1	21
May 2022	6	4	0	10
Jun 2022	6	3	1	10
Jul 2022	11	6	0	17
Aug 2022	16	4	0	20
Sep 2022	14	4	0	18
Oct 2022	7	5	2	14
Nov 2022	17	8	0	25
Dec 2022	10	8	0	18
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Mar 2023	42	11	0	53
Apr 2023	15	12	0	27
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Jun 2023	24	8	2	34
Jul 2023	13	10	2	25
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Oct 2023	19	11	2	32
Nov 2023	1	2	0	3
Dec 2023	18	18	3	39
Jan 2024	14	10	1	25
Feb 2024	14	14	0	28
Mar 2024	17	41	2	60
Apr 2024	17	21	5	43
May 2024	19	23	2	44
Jun 2024	47	9	1	57
Jul 2024	22	11	1	34
Aug 2024	36	9	1	46
Sep 2024	18	4	0	22
Oct 2024	37	4	2	43
Nov 2024	18	7	1	26
Dec 2024	9	7	0	16
Jan 2025	23	11	1	35
Feb 2025	33	21	0	54
Mar 2025	37	10	5	52
Apr 2025	31	18	1	50
May 2025	36	9	0	45
Jun 2025	51	12	1	64
Jul 2025	23	16	1	40
Aug 2025	35	23	3	61
Sep 2025	49	18	4	71
Oct 2025	31	23	0	54
Nov 2025	17	18	1	36

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Short summary

Ice production in atmospheric clouds is important for global water cycle and radiation budget. Active satellite remote sensing measurements are analyzed to quantitatively study primary ice particle production in stratiform mixed-phase clouds on a global scale. We quantify the geographic and seasonal variations of ice production and their correlations with aerosol, especially mineral dust activities. The results can be used to evaluate mixed-phased clouds simulations by global climate models.


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