Changes in chemical components of aerosol particles in different haze regions in China from 2006 to 2013 and contribution of meteorological factors

Zhang, X. Y.; Wang, J. Z.; Wang, Y. Q.; Liu, H. L.; Sun, J. Y.; Zhang, Y. M.

doi:10.5194/acp-15-12935-2015

Articles | Volume 15, issue 22

https://doi.org/10.5194/acp-15-12935-2015

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

Special issue:

Haze-fog forecasts and near real time (NRT) data application...

https://doi.org/10.5194/acp-15-12935-2015

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

Articles | Volume 15, issue 22

Research article

|

22 Nov 2015

Research article |

| 22 Nov 2015

Changes in chemical components of aerosol particles in different haze regions in China from 2006 to 2013 and contribution of meteorological factors

X. Y. Zhang, J. Z. Wang, Y. Q. Wang, H. L. Liu, J. Y. Sun, and Y. M. Zhang

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Total article views: 6,449 (including HTML, PDF, and XML)

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Views and downloads (calculated since 13 Jul 2015)

Month	HTML	PDF	XML	Total
Jul 2015	131	156	6	293
Aug 2015	24	58	2	84
Sep 2015	16	56	3	75
Oct 2015	19	46	1	66
Nov 2015	200	190	11	401
Dec 2015	82	133	8	223
Jan 2016	103	109	5	217
Feb 2016	46	59	1	106
Mar 2016	48	65	2	115
Apr 2016	11	36	0	47
May 2016	20	22	0	42
Jun 2016	11	8	2	21
Jul 2016	19	24	3	46
Aug 2016	13	10	1	24
Sep 2016	17	7	0	24
Oct 2016	14	8	0	22
Nov 2016	12	26	0	38
Dec 2016	5	24	0	29
Jan 2017	30	35	3	68
Feb 2017	15	23	1	39
Mar 2017	26	48	3	77
Apr 2017	25	48	2	75
May 2017	38	29	1	68
Jun 2017	31	18	3	52
Jul 2017	28	14	0	42
Aug 2017	15	20	1	36
Sep 2017	14	23	2	39
Oct 2017	16	17	1	34
Nov 2017	16	18	0	34
Dec 2017	13	32	0	45
Jan 2018	15	24	0	39
Feb 2018	7	21	0	28
Mar 2018	20	31	2	53
Apr 2018	18	23	4	45
May 2018	13	28	0	41
Jun 2018	5	9	5	19
Jul 2018	5	15	0	20
Aug 2018	13	17	0	30
Sep 2018	22	14	0	36
Oct 2018	15	11	1	27
Nov 2018	22	13	0	35
Dec 2018	13	19	1	33
Jan 2019	10	11	0	21
Feb 2019	12	13	0	25
Mar 2019	9	21	0	30
Apr 2019	10	15	0	25
May 2019	21	13	0	34
Jun 2019	15	11	1	27
Jul 2019	9	6	0	15
Aug 2019	21	6	0	27
Sep 2019	8	7	0	15
Oct 2019	21	10	2	33
Nov 2019	18	12	0	30
Dec 2019	17	10	0	27
Jan 2020	17	4	0	21
Feb 2020	26	7	1	34
Mar 2020	16	6	0	22
Apr 2020	15	14	1	30
May 2020	18	10	0	28
Jun 2020	33	11	0	44
Jul 2020	40	11	4	55
Aug 2020	19	9	1	29
Sep 2020	18	6	0	24
Oct 2020	17	6	0	23
Nov 2020	17	12	1	30
Dec 2020	23	8	0	31
Jan 2021	32	11	0	43
Feb 2021	26	3	0	29
Mar 2021	52	8	0	60
Apr 2021	36	9	0	45
May 2021	101	13	1	115
Jun 2021	80	11	0	91
Jul 2021	41	10	0	51
Aug 2021	23	10	0	33
Sep 2021	36	12	0	48
Oct 2021	23	33	1	57
Nov 2021	23	23	0	46
Dec 2021	24	11	0	35
Jan 2022	23	13	0	36
Feb 2022	25	8	4	37
Mar 2022	15	9	0	24
Apr 2022	16	6	2	24
May 2022	13	7	0	20
Jun 2022	19	9	1	29
Jul 2022	12	5	0	17
Aug 2022	15	1	0	16
Sep 2022	16	10	0	26
Oct 2022	17	6	2	25
Nov 2022	23	6	0	29
Dec 2022	39	7	0	46
Jan 2023	44	17	3	64
Feb 2023	23	10	1	34
Mar 2023	50	20	3	73
Apr 2023	18	22	0	40
May 2023	58	12	1	71
Jun 2023	51	3	1	55
Jul 2023	57	8	1	66
Aug 2023	46	9	3	58
Sep 2023	44	8	2	54
Oct 2023	63	10	4	77
Nov 2023	31	9	0	40
Dec 2023	57	9	2	68
Jan 2024	61	10	0	71
Feb 2024	54	12	0	66
Mar 2024	70	19	1	90
Apr 2024	57	19	5	81
May 2024	22	14	3	39
Jun 2024	18	15	4	37
Jul 2024	22	9	1	32
Aug 2024	35	7	1	43
Sep 2024	16	5	0	21
Oct 2024	25	8	0	33
Nov 2024	13	15	3	31
Dec 2024	31	9	3	43
Jan 2025	24	17	1	42
Feb 2025	33	9	7	49
Mar 2025	35	12	1	48
Apr 2025	23	31	0	54
May 2025	30	15	0	45
Jun 2025	46	8	1	55
Jul 2025	26	16	1	43
Aug 2025	38	19	2	59
Sep 2025	49	21	6	76
Oct 2025	31	38	2	71
Nov 2025	38	27	5	70

Cumulative views and downloads (calculated since 13 Jul 2015)

Month	HTML	PDF	XML	Total
Jul 2015	131	156	6	293
Aug 2015	24	58	2	84
Sep 2015	16	56	3	75
Oct 2015	19	46	1	66
Nov 2015	200	190	11	401
Dec 2015	82	133	8	223
Jan 2016	103	109	5	217
Feb 2016	46	59	1	106
Mar 2016	48	65	2	115
Apr 2016	11	36	0	47
May 2016	20	22	0	42
Jun 2016	11	8	2	21
Jul 2016	19	24	3	46
Aug 2016	13	10	1	24
Sep 2016	17	7	0	24
Oct 2016	14	8	0	22
Nov 2016	12	26	0	38
Dec 2016	5	24	0	29
Jan 2017	30	35	3	68
Feb 2017	15	23	1	39
Mar 2017	26	48	3	77
Apr 2017	25	48	2	75
May 2017	38	29	1	68
Jun 2017	31	18	3	52
Jul 2017	28	14	0	42
Aug 2017	15	20	1	36
Sep 2017	14	23	2	39
Oct 2017	16	17	1	34
Nov 2017	16	18	0	34
Dec 2017	13	32	0	45
Jan 2018	15	24	0	39
Feb 2018	7	21	0	28
Mar 2018	20	31	2	53
Apr 2018	18	23	4	45
May 2018	13	28	0	41
Jun 2018	5	9	5	19
Jul 2018	5	15	0	20
Aug 2018	13	17	0	30
Sep 2018	22	14	0	36
Oct 2018	15	11	1	27
Nov 2018	22	13	0	35
Dec 2018	13	19	1	33
Jan 2019	10	11	0	21
Feb 2019	12	13	0	25
Mar 2019	9	21	0	30
Apr 2019	10	15	0	25
May 2019	21	13	0	34
Jun 2019	15	11	1	27
Jul 2019	9	6	0	15
Aug 2019	21	6	0	27
Sep 2019	8	7	0	15
Oct 2019	21	10	2	33
Nov 2019	18	12	0	30
Dec 2019	17	10	0	27
Jan 2020	17	4	0	21
Feb 2020	26	7	1	34
Mar 2020	16	6	0	22
Apr 2020	15	14	1	30
May 2020	18	10	0	28
Jun 2020	33	11	0	44
Jul 2020	40	11	4	55
Aug 2020	19	9	1	29
Sep 2020	18	6	0	24
Oct 2020	17	6	0	23
Nov 2020	17	12	1	30
Dec 2020	23	8	0	31
Jan 2021	32	11	0	43
Feb 2021	26	3	0	29
Mar 2021	52	8	0	60
Apr 2021	36	9	0	45
May 2021	101	13	1	115
Jun 2021	80	11	0	91
Jul 2021	41	10	0	51
Aug 2021	23	10	0	33
Sep 2021	36	12	0	48
Oct 2021	23	33	1	57
Nov 2021	23	23	0	46
Dec 2021	24	11	0	35
Jan 2022	23	13	0	36
Feb 2022	25	8	4	37
Mar 2022	15	9	0	24
Apr 2022	16	6	2	24
May 2022	13	7	0	20
Jun 2022	19	9	1	29
Jul 2022	12	5	0	17
Aug 2022	15	1	0	16
Sep 2022	16	10	0	26
Oct 2022	17	6	2	25
Nov 2022	23	6	0	29
Dec 2022	39	7	0	46
Jan 2023	44	17	3	64
Feb 2023	23	10	1	34
Mar 2023	50	20	3	73
Apr 2023	18	22	0	40
May 2023	58	12	1	71
Jun 2023	51	3	1	55
Jul 2023	57	8	1	66
Aug 2023	46	9	3	58
Sep 2023	44	8	2	54
Oct 2023	63	10	4	77
Nov 2023	31	9	0	40
Dec 2023	57	9	2	68
Jan 2024	61	10	0	71
Feb 2024	54	12	0	66
Mar 2024	70	19	1	90
Apr 2024	57	19	5	81
May 2024	22	14	3	39
Jun 2024	18	15	4	37
Jul 2024	22	9	1	32
Aug 2024	35	7	1	43
Sep 2024	16	5	0	21
Oct 2024	25	8	0	33
Nov 2024	13	15	3	31
Dec 2024	31	9	3	43
Jan 2025	24	17	1	42
Feb 2025	33	9	7	49
Mar 2025	35	12	1	48
Apr 2025	23	31	0	54
May 2025	30	15	0	45
Jun 2025	46	8	1	55
Jul 2025	26	16	1	43
Aug 2025	38	19	2	59
Sep 2025	49	21	6	76
Oct 2025	31	38	2	71
Nov 2025	38	27	5	70

Latest update: 28 Nov 2025

Short summary

No obvious changes were found in annual mean concentrations of major chemical components and PM10 in 2013, relative to 2012. But wintertime mass were quite different; approximately 60% of the winter mass increase from 2012 to 2013 can be attributed to severe meteorological conditions in the HBP area, and mass of chemical components exhibited a decline during 2006 to 2010, and then a rise till 2013. Coal-combustion was still the largest anthropogenic source of aerosol pollution in 2013 in China.