Examination of effects of aerosols on a pyroCb and their dependence on fire intensity and aerosol perturbation

Lee, Seoung Soo; Kablick III, George; Li, Zhanqing; Jung, Chang Hoon; Choi, Yong-Sang; Um, Junshik; Choi, Won Jun

doi:10.5194/acp-20-3357-2020

Articles | Volume 20, issue 6

https://doi.org/10.5194/acp-20-3357-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-20-3357-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 20, issue 6

Research article

|

23 Mar 2020

Research article |

| 23 Mar 2020

Examination of effects of aerosols on a pyroCb and their dependence on fire intensity and aerosol perturbation

Seoung Soo Lee, George Kablick III, Zhanqing Li, Chang Hoon Jung, Yong-Sang Choi, Junshik Um, and Won Jun Choi

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Month	HTML	PDF	XML	Total
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Sep 2019	9	7	3	19
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Nov 2019	7	2	2	11
Dec 2019	3	3	0	6
Jan 2020	7	3	0	10
Feb 2020	9	2	1	12
Mar 2020	184	37	4	225
Apr 2020	57	16	3	76
May 2020	27	11	3	41
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Jul 2020	48	22	3	73
Aug 2020	26	11	1	38
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Oct 2020	10	8	0	18
Nov 2020	16	9	0	25
Dec 2020	10	7	0	17
Jan 2021	22	16	0	38
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May 2021	13	8	0	21
Jun 2021	6	4	0	10
Jul 2021	8	11	0	19
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Feb 2023	15	4	0	19
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Feb 2024	9	10	0	19
Mar 2024	13	20	3	36
Apr 2024	17	20	2	39
May 2024	21	7	0	28
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Aug 2024	26	9	2	37
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Oct 2024	38	9	1	48
Nov 2024	51	5	6	62
Dec 2024	16	4	3	23
Jan 2025	26	6	5	37
Feb 2025	26	14	0	40
Mar 2025	14	3	1	18
Apr 2025	23	12	0	35
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Sep 2025	67	10	2	79
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Nov 2025	44	26	4	74
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Cumulative views and downloads (calculated since 19 Jun 2019)

Month	HTML	PDF	XML	Total
Jun 2019	114	34	0	148
Jul 2019	30	9	2	41
Aug 2019	16	5	0	21
Sep 2019	9	7	3	19
Oct 2019	5	4	0	9
Nov 2019	7	2	2	11
Dec 2019	3	3	0	6
Jan 2020	7	3	0	10
Feb 2020	9	2	1	12
Mar 2020	184	37	4	225
Apr 2020	57	16	3	76
May 2020	27	11	3	41
Jun 2020	26	13	0	39
Jul 2020	48	22	3	73
Aug 2020	26	11	1	38
Sep 2020	17	3	1	21
Oct 2020	10	8	0	18
Nov 2020	16	9	0	25
Dec 2020	10	7	0	17
Jan 2021	22	16	0	38
Feb 2021	8	5	0	13
Mar 2021	12	7	0	19
Apr 2021	14	6	0	20
May 2021	13	8	0	21
Jun 2021	6	4	0	10
Jul 2021	8	11	0	19
Aug 2021	9	4	0	13
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Oct 2021	11	43	0	54
Nov 2021	12	28	1	41
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Jan 2022	10	14	0	24
Feb 2022	11	5	0	16
Mar 2022	10	7	0	17
Apr 2022	10	2	1	13
May 2022	7	6	0	13
Jun 2022	8	3	0	11
Jul 2022	14	4	0	18
Aug 2022	12	6	2	20
Sep 2022	10	2	1	13
Oct 2022	11	3	2	16
Nov 2022	13	10	2	25
Dec 2022	12	6	0	18
Jan 2023	13	8	0	21
Feb 2023	15	4	0	19
Mar 2023	14	6	0	20
Apr 2023	11	7	0	18
May 2023	6	9	0	15
Jun 2023	11	6	2	19
Jul 2023	8	7	1	16
Aug 2023	10	10	3	23
Sep 2023	10	6	1	17
Oct 2023	15	5	1	21
Nov 2023	5	2	0	7
Dec 2023	18	6	0	24
Jan 2024	8	3	0	11
Feb 2024	9	10	0	19
Mar 2024	13	20	3	36
Apr 2024	17	20	2	39
May 2024	21	7	0	28
Jun 2024	57	12	11	80
Jul 2024	31	7	1	39
Aug 2024	26	9	2	37
Sep 2024	19	7	1	27
Oct 2024	38	9	1	48
Nov 2024	51	5	6	62
Dec 2024	16	4	3	23
Jan 2025	26	6	5	37
Feb 2025	26	14	0	40
Mar 2025	14	3	1	18
Apr 2025	23	12	0	35
May 2025	31	2	1	34
Jun 2025	46	11	3	60
Jul 2025	26	13	0	39
Aug 2025	29	10	2	41
Sep 2025	67	10	2	79
Oct 2025	30	23	2	55
Nov 2025	44	26	4	74
Dec 2025	13	3	0	16

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1

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Short summary

This paper examines a thunderstorm-type cloud that is triggered by wildfire. This paper shows that this cloud has a substantial impact on air components such as water vapor that act as a global warming agent together with carbon dioxide. This paper also shows that that impact is strongly dependent on fire intensity. This raises a possibility that clouds, which are triggered by fire, act as a modulator of climate changes and this function as a modulator is altered by how intense fire is.


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