Role of radiatively forced temperature changes in enhanced semi-arid warming in the cold season over east Asia

Guan, X.; Huang, J.; Guo, R.; Yu, H.; Lin, P.; Zhang, Y.

doi:10.5194/acp-15-13777-2015

Articles | Volume 15, issue 23

https://doi.org/10.5194/acp-15-13777-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/acp-15-13777-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 15, issue 23

Research article

|

15 Dec 2015

Research article |

| 15 Dec 2015

Role of radiatively forced temperature changes in enhanced semi-arid warming in the cold season over east Asia

X. Guan, J. Huang, R. Guo, H. Yu, P. Lin, and Y. Zhang

Viewed

Total article views: 4,673 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
3,127	1,367	179	4,673	174	194

HTML: 3,127
PDF: 1,367
XML: 179
Total: 4,673
BibTeX: 174
EndNote: 194

Views and downloads (calculated since 27 Aug 2015)

Month	HTML	PDF	XML	Total
Aug 2015	54	34	2	90
Sep 2015	18	55	1	74
Oct 2015	18	43	10	71
Nov 2015	23	46	0	69
Dec 2015	72	96	3	171
Jan 2016	51	54	2	107
Feb 2016	26	34	1	61
Mar 2016	36	16	0	52
Apr 2016	10	7	1	18
May 2016	9	7	0	16
Jun 2016	9	9	1	19
Jul 2016	9	4	3	16
Aug 2016	8	8	0	16
Sep 2016	9	4	0	13
Oct 2016	15	11	0	26
Nov 2016	7	16	0	23
Dec 2016	3	3	0	6
Jan 2017	13	5	0	18
Feb 2017	13	11	0	24
Mar 2017	18	10	1	29
Apr 2017	20	7	0	27
May 2017	22	10	2	34
Jun 2017	19	5	1	25
Jul 2017	18	4	0	22
Aug 2017	8	7	0	15
Sep 2017	11	18	1	30
Oct 2017	12	17	0	29
Nov 2017	13	10	0	23
Dec 2017	6	14	0	20
Jan 2018	6	6	0	12
Feb 2018	8	4	1	13
Mar 2018	29	14	3	46
Apr 2018	28	11	3	42
May 2018	42	12	2	56
Jun 2018	27	12	1	40
Jul 2018	34	18	3	55
Aug 2018	53	17	5	75
Sep 2018	33	12	1	46
Oct 2018	36	10	6	52
Nov 2018	41	16	3	60
Dec 2018	24	8	5	37
Jan 2019	26	6	1	33
Feb 2019	11	3	1	15
Mar 2019	22	8	0	30
Apr 2019	15	5	0	20
May 2019	9	5	0	14
Jun 2019	27	6	1	34
Jul 2019	27	11	1	39
Aug 2019	26	14	3	43
Sep 2019	24	5	2	31
Oct 2019	20	7	4	31
Nov 2019	31	8	2	41
Dec 2019	21	4	1	26
Jan 2020	31	7	1	39
Feb 2020	29	5	4	38
Mar 2020	4	7	0	11
Apr 2020	4	6	0	10
May 2020	7	4	0	11
Jun 2020	22	6	1	29
Jul 2020	18	6	3	27
Aug 2020	16	6	2	24
Sep 2020	14	7	0	21
Oct 2020	13	6	0	19
Nov 2020	16	3	4	23
Dec 2020	10	7	0	17
Jan 2021	20	9	0	29
Feb 2021	11	5	0	16
Mar 2021	9	3	0	12
Apr 2021	13	8	0	21
May 2021	6	7	2	15
Jun 2021	12	2	1	15
Jul 2021	5	8	0	13
Aug 2021	15	8	1	24
Sep 2021	10	10	1	21
Oct 2021	9	25	1	35
Nov 2021	11	22	0	33
Dec 2021	20	7	0	27
Jan 2022	11	7	2	20
Feb 2022	12	6	2	20
Mar 2022	16	8	0	24
Apr 2022	10	1	1	12
May 2022	7	3	0	10
Jun 2022	14	8	1	23
Jul 2022	12	4	1	17
Aug 2022	16	6	1	23
Sep 2022	10	13	0	23
Oct 2022	11	4	3	18
Nov 2022	11	6	1	18
Dec 2022	14	3	0	17
Jan 2023	14	8	1	23
Feb 2023	15	5	0	20
Mar 2023	17	36	0	53
Apr 2023	12	8	0	20
May 2023	33	9	0	42
Jun 2023	35	5	2	42
Jul 2023	40	5	2	47
Aug 2023	51	4	1	56
Sep 2023	98	4	0	102
Oct 2023	211	1	1	213
Nov 2023	209	6	0	215
Dec 2023	45	11	2	58
Jan 2024	52	9	2	63
Feb 2024	49	3	0	52
Mar 2024	48	12	5	65
Apr 2024	49	6	2	57
May 2024	17	14	2	33
Jun 2024	13	9	1	23
Jul 2024	19	9	2	30
Aug 2024	15	6	5	26
Sep 2024	10	6	0	16
Oct 2024	11	8	2	21
Nov 2024	13	8	3	24
Dec 2024	16	6	0	22
Jan 2025	34	14	2	50
Feb 2025	40	13	6	59
Mar 2025	25	5	2	32
Apr 2025	46	14	5	65
May 2025	35	5	0	40
Jun 2025	51	9	5	65
Jul 2025	24	11	1	36
Aug 2025	44	18	2	64
Sep 2025	55	8	2	65
Oct 2025	15	15	3	33
Nov 2025	27	17	7	51

Cumulative views and downloads (calculated since 27 Aug 2015)

Month	HTML	PDF	XML	Total
Aug 2015	54	34	2	90
Sep 2015	18	55	1	74
Oct 2015	18	43	10	71
Nov 2015	23	46	0	69
Dec 2015	72	96	3	171
Jan 2016	51	54	2	107
Feb 2016	26	34	1	61
Mar 2016	36	16	0	52
Apr 2016	10	7	1	18
May 2016	9	7	0	16
Jun 2016	9	9	1	19
Jul 2016	9	4	3	16
Aug 2016	8	8	0	16
Sep 2016	9	4	0	13
Oct 2016	15	11	0	26
Nov 2016	7	16	0	23
Dec 2016	3	3	0	6
Jan 2017	13	5	0	18
Feb 2017	13	11	0	24
Mar 2017	18	10	1	29
Apr 2017	20	7	0	27
May 2017	22	10	2	34
Jun 2017	19	5	1	25
Jul 2017	18	4	0	22
Aug 2017	8	7	0	15
Sep 2017	11	18	1	30
Oct 2017	12	17	0	29
Nov 2017	13	10	0	23
Dec 2017	6	14	0	20
Jan 2018	6	6	0	12
Feb 2018	8	4	1	13
Mar 2018	29	14	3	46
Apr 2018	28	11	3	42
May 2018	42	12	2	56
Jun 2018	27	12	1	40
Jul 2018	34	18	3	55
Aug 2018	53	17	5	75
Sep 2018	33	12	1	46
Oct 2018	36	10	6	52
Nov 2018	41	16	3	60
Dec 2018	24	8	5	37
Jan 2019	26	6	1	33
Feb 2019	11	3	1	15
Mar 2019	22	8	0	30
Apr 2019	15	5	0	20
May 2019	9	5	0	14
Jun 2019	27	6	1	34
Jul 2019	27	11	1	39
Aug 2019	26	14	3	43
Sep 2019	24	5	2	31
Oct 2019	20	7	4	31
Nov 2019	31	8	2	41
Dec 2019	21	4	1	26
Jan 2020	31	7	1	39
Feb 2020	29	5	4	38
Mar 2020	4	7	0	11
Apr 2020	4	6	0	10
May 2020	7	4	0	11
Jun 2020	22	6	1	29
Jul 2020	18	6	3	27
Aug 2020	16	6	2	24
Sep 2020	14	7	0	21
Oct 2020	13	6	0	19
Nov 2020	16	3	4	23
Dec 2020	10	7	0	17
Jan 2021	20	9	0	29
Feb 2021	11	5	0	16
Mar 2021	9	3	0	12
Apr 2021	13	8	0	21
May 2021	6	7	2	15
Jun 2021	12	2	1	15
Jul 2021	5	8	0	13
Aug 2021	15	8	1	24
Sep 2021	10	10	1	21
Oct 2021	9	25	1	35
Nov 2021	11	22	0	33
Dec 2021	20	7	0	27
Jan 2022	11	7	2	20
Feb 2022	12	6	2	20
Mar 2022	16	8	0	24
Apr 2022	10	1	1	12
May 2022	7	3	0	10
Jun 2022	14	8	1	23
Jul 2022	12	4	1	17
Aug 2022	16	6	1	23
Sep 2022	10	13	0	23
Oct 2022	11	4	3	18
Nov 2022	11	6	1	18
Dec 2022	14	3	0	17
Jan 2023	14	8	1	23
Feb 2023	15	5	0	20
Mar 2023	17	36	0	53
Apr 2023	12	8	0	20
May 2023	33	9	0	42
Jun 2023	35	5	2	42
Jul 2023	40	5	2	47
Aug 2023	51	4	1	56
Sep 2023	98	4	0	102
Oct 2023	211	1	1	213
Nov 2023	209	6	0	215
Dec 2023	45	11	2	58
Jan 2024	52	9	2	63
Feb 2024	49	3	0	52
Mar 2024	48	12	5	65
Apr 2024	49	6	2	57
May 2024	17	14	2	33
Jun 2024	13	9	1	23
Jul 2024	19	9	2	30
Aug 2024	15	6	5	26
Sep 2024	10	6	0	16
Oct 2024	11	8	2	21
Nov 2024	13	8	3	24
Dec 2024	16	6	0	22
Jan 2025	34	14	2	50
Feb 2025	40	13	6	59
Mar 2025	25	5	2	32
Apr 2025	46	14	5	65
May 2025	35	5	0	40
Jun 2025	51	9	5	65
Jul 2025	24	11	1	36
Aug 2025	44	18	2	64
Sep 2025	55	8	2	65
Oct 2025	15	15	3	33
Nov 2025	27	17	7	51

Latest update: 28 Nov 2025

Short summary

Dynamical adjustment methodology has been applied to the raw surface air temperature and has successfully identified and separated the contribution of dynamically induced temperature (DIT) and radiatively forced temperature (RFT). It found that regional anthropogenic radiative forcing caused the enhanced warming in the semi-arid region, which may be closely associated with local human activities.