Impact of stratospheric aerosol intervention geoengineering on surface air temperature in China: a surface energy budget perspective

Liu, Zhaochen; Lang, Xianmei; Jiang, Dabang

doi:https://doi.org/10.5194/acp-22-7667-2022

Articles | Volume 22, issue 11

https://doi.org/10.5194/acp-22-7667-2022

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

https://doi.org/10.5194/acp-22-7667-2022

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

Articles | Volume 22, issue 11

Research article

|

14 Jun 2022

Research article |

| 14 Jun 2022

Impact of stratospheric aerosol intervention geoengineering on surface air temperature in China: a surface energy budget perspective

Zhaochen Liu, Xianmei Lang, and Dabang Jiang

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Total article views: 3,324 (including HTML, PDF, and XML)

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PDF: 942
XML: 95
Total: 3,324
Supplement: 346
BibTeX: 232
EndNote: 240

Views and downloads (calculated since 07 Jul 2021)

Month	HTML	PDF	XML	Total
Jul 2021	164	46	3	213
Aug 2021	104	17	7	128
Sep 2021	32	4	0	36
Oct 2021	61	24	8	93
Nov 2021	42	25	1	68
Dec 2021	31	17	1	49
Jan 2022	33	8	2	43
Feb 2022	25	2	1	28
Mar 2022	26	10	1	37
Apr 2022	14	9	0	23
May 2022	18	7	1	26
Jun 2022	159	40	5	204
Jul 2022	132	14	1	147
Aug 2022	96	20	0	116
Sep 2022	99	15	0	114
Oct 2022	92	8	1	101
Nov 2022	78	29	0	107
Dec 2022	74	11	1	86
Jan 2023	34	32	1	67
Feb 2023	17	9	0	26
Mar 2023	29	18	2	49
Apr 2023	42	16	0	58
May 2023	25	9	1	35
Jun 2023	19	15	1	35
Jul 2023	28	12	0	40
Aug 2023	10	18	5	33
Sep 2023	18	11	0	29
Oct 2023	23	13	1	37
Nov 2023	20	6	1	27
Dec 2023	33	26	2	61
Jan 2024	23	11	2	36
Feb 2024	50	25	1	76
Mar 2024	66	76	3	145
Apr 2024	65	56	6	127
May 2024	72	50	2	124
Jun 2024	91	48	2	141
Jul 2024	56	32	2	90
Aug 2024	67	60	2	129
Sep 2024	71	36	10	117
Oct 2024	69	26	15	110
Nov 2024	50	17	2	69
Dec 2024	29	14	1	44

Cumulative views and downloads (calculated since 07 Jul 2021)

Month	HTML	PDF	XML	Total
Jul 2021	164	46	3	213
Aug 2021	104	17	7	128
Sep 2021	32	4	0	36
Oct 2021	61	24	8	93
Nov 2021	42	25	1	68
Dec 2021	31	17	1	49
Jan 2022	33	8	2	43
Feb 2022	25	2	1	28
Mar 2022	26	10	1	37
Apr 2022	14	9	0	23
May 2022	18	7	1	26
Jun 2022	159	40	5	204
Jul 2022	132	14	1	147
Aug 2022	96	20	0	116
Sep 2022	99	15	0	114
Oct 2022	92	8	1	101
Nov 2022	78	29	0	107
Dec 2022	74	11	1	86
Jan 2023	34	32	1	67
Feb 2023	17	9	0	26
Mar 2023	29	18	2	49
Apr 2023	42	16	0	58
May 2023	25	9	1	35
Jun 2023	19	15	1	35
Jul 2023	28	12	0	40
Aug 2023	10	18	5	33
Sep 2023	18	11	0	29
Oct 2023	23	13	1	37
Nov 2023	20	6	1	27
Dec 2023	33	26	2	61
Jan 2024	23	11	2	36
Feb 2024	50	25	1	76
Mar 2024	66	76	3	145
Apr 2024	65	56	6	127
May 2024	72	50	2	124
Jun 2024	91	48	2	141
Jul 2024	56	32	2	90
Aug 2024	67	60	2	129
Sep 2024	71	36	10	117
Oct 2024	69	26	15	110
Nov 2024	50	17	2	69
Dec 2024	29	14	1	44

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Total article views: 3,324 (including HTML, PDF, and XML) Thereof 3,371 with geography defined and -47 with unknown origin.

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Short summary

Stratospheric aerosol intervention geoengineering is considered a potential means to counteract global warming. Here the impact of stratospheric aerosol intervention geoengineering on surface air temperature over China and related physical processes are investigated. Results show that the increased stratospheric aerosols cause surface cooling over China. The temperature responses vary with models, regions, and seasons and are largely related to net surface shortwave radiation changes.

Impact of stratospheric aerosol intervention geoengineering on surface air temperature in China: a surface energy budget perspective

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2 citations as recorded by crossref.

2 citations as recorded by crossref.


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