Effects of black carbon and boundary layer interaction on surface ozone in Nanjing, China

Gao, Jinhui; Zhu, Bin; Xiao, Hui; Kang, Hanqing; Pan, Chen; Wang, Dongdong; Wang, Honglei

doi:10.5194/acp-18-7081-2018

Articles | Volume 18, issue 10

https://doi.org/10.5194/acp-18-7081-2018

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

https://doi.org/10.5194/acp-18-7081-2018

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

Articles | Volume 18, issue 10

Research article

|

23 May 2018

Research article |

| 23 May 2018

Effects of black carbon and boundary layer interaction on surface ozone in Nanjing, China

Jinhui Gao, Bin Zhu, Hui Xiao, Hanqing Kang, Chen Pan, Dongdong Wang, and Honglei Wang

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Total article views: 6,810 (including HTML, PDF, and XML)

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4,837	1,769	204	6,810	345	142	181

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XML: 204
Total: 6,810
Supplement: 345
BibTeX: 142
EndNote: 181

Views and downloads (calculated since 15 Jan 2018)

Month	HTML	PDF	XML	Total
Jan 2018	207	69	9	285
Feb 2018	47	17	5	69
Mar 2018	41	25	0	66
Apr 2018	34	9	0	43
May 2018	239	71	5	315
Jun 2018	87	49	3	139
Jul 2018	27	23	0	50
Aug 2018	37	21	0	58
Sep 2018	24	26	1	51
Oct 2018	23	14	4	41
Nov 2018	28	18	3	49
Dec 2018	25	18	2	45
Jan 2019	18	12	1	31
Feb 2019	7	6	0	13
Mar 2019	11	14	3	28
Apr 2019	12	15	3	30
May 2019	24	9	6	39
Jun 2019	25	10	1	36
Jul 2019	11	11	0	22
Aug 2019	12	17	2	31
Sep 2019	20	22	3	45
Oct 2019	32	17	2	51
Nov 2019	13	16	8	37
Dec 2019	12	15	5	32
Jan 2020	22	9	0	31
Feb 2020	10	11	0	21
Mar 2020	7	11	2	20
Apr 2020	12	9	1	22
May 2020	19	12	2	33
Jun 2020	15	11	2	28
Jul 2020	28	16	3	47
Aug 2020	12	16	0	28
Sep 2020	17	10	1	28
Oct 2020	25	16	0	41
Nov 2020	11	11	1	23
Dec 2020	16	9	0	25
Jan 2021	37	27	1	65
Feb 2021	19	22	0	41
Mar 2021	34	23	0	57
Apr 2021	20	14	1	35
May 2021	33	23	5	61
Jun 2021	15	12	1	28
Jul 2021	24	19	1	44
Aug 2021	42	15	1	58
Sep 2021	25	7	0	32
Oct 2021	11	41	2	54
Nov 2021	34	38	2	74
Dec 2021	57	14	1	72
Jan 2022	52	17	0	69
Feb 2022	30	17	2	49
Mar 2022	41	11	2	54
Apr 2022	38	14	7	59
May 2022	47	17	2	66
Jun 2022	39	8	1	48
Jul 2022	55	6	1	62
Aug 2022	102	38	4	144
Sep 2022	70	8	8	86
Oct 2022	44	9	2	55
Nov 2022	53	18	2	73
Dec 2022	48	9	0	57
Jan 2023	30	11	0	41
Feb 2023	56	12	1	69
Mar 2023	51	19	1	71
Apr 2023	38	14	0	52
May 2023	31	10	1	42
Jun 2023	44	9	2	55
Jul 2023	44	10	3	57
Aug 2023	59	5	2	66
Sep 2023	73	10	1	84
Oct 2023	43	22	1	66
Nov 2023	21	8	4	33
Dec 2023	43	20	1	64
Jan 2024	36	19	1	56
Feb 2024	15	15	0	30
Mar 2024	42	19	3	64
Apr 2024	68	12	2	82
May 2024	52	18	2	72
Jun 2024	83	13	1	97
Jul 2024	84	17	3	104
Aug 2024	85	13	1	99
Sep 2024	61	6	0	67
Oct 2024	60	10	0	70
Nov 2024	53	15	4	72
Dec 2024	55	11	1	67
Jan 2025	94	21	2	117
Feb 2025	107	29	1	137
Mar 2025	89	18	0	107
Apr 2025	103	18	1	122
May 2025	98	5	0	103
Jun 2025	104	10	2	116
Jul 2025	87	22	2	111
Aug 2025	86	23	2	111
Sep 2025	78	18	4	100
Oct 2025	77	26	1	104
Nov 2025	106	32	6	144
Dec 2025	112	47	4	163
Jan 2026	116	36	8	160
Feb 2026	90	25	5	120
Mar 2026	73	28	5	106
Apr 2026	10	1	2	13

Cumulative views and downloads (calculated since 15 Jan 2018)

Month	HTML	PDF	XML	Total
Jan 2018	207	69	9	285
Feb 2018	47	17	5	69
Mar 2018	41	25	0	66
Apr 2018	34	9	0	43
May 2018	239	71	5	315
Jun 2018	87	49	3	139
Jul 2018	27	23	0	50
Aug 2018	37	21	0	58
Sep 2018	24	26	1	51
Oct 2018	23	14	4	41
Nov 2018	28	18	3	49
Dec 2018	25	18	2	45
Jan 2019	18	12	1	31
Feb 2019	7	6	0	13
Mar 2019	11	14	3	28
Apr 2019	12	15	3	30
May 2019	24	9	6	39
Jun 2019	25	10	1	36
Jul 2019	11	11	0	22
Aug 2019	12	17	2	31
Sep 2019	20	22	3	45
Oct 2019	32	17	2	51
Nov 2019	13	16	8	37
Dec 2019	12	15	5	32
Jan 2020	22	9	0	31
Feb 2020	10	11	0	21
Mar 2020	7	11	2	20
Apr 2020	12	9	1	22
May 2020	19	12	2	33
Jun 2020	15	11	2	28
Jul 2020	28	16	3	47
Aug 2020	12	16	0	28
Sep 2020	17	10	1	28
Oct 2020	25	16	0	41
Nov 2020	11	11	1	23
Dec 2020	16	9	0	25
Jan 2021	37	27	1	65
Feb 2021	19	22	0	41
Mar 2021	34	23	0	57
Apr 2021	20	14	1	35
May 2021	33	23	5	61
Jun 2021	15	12	1	28
Jul 2021	24	19	1	44
Aug 2021	42	15	1	58
Sep 2021	25	7	0	32
Oct 2021	11	41	2	54
Nov 2021	34	38	2	74
Dec 2021	57	14	1	72
Jan 2022	52	17	0	69
Feb 2022	30	17	2	49
Mar 2022	41	11	2	54
Apr 2022	38	14	7	59
May 2022	47	17	2	66
Jun 2022	39	8	1	48
Jul 2022	55	6	1	62
Aug 2022	102	38	4	144
Sep 2022	70	8	8	86
Oct 2022	44	9	2	55
Nov 2022	53	18	2	73
Dec 2022	48	9	0	57
Jan 2023	30	11	0	41
Feb 2023	56	12	1	69
Mar 2023	51	19	1	71
Apr 2023	38	14	0	52
May 2023	31	10	1	42
Jun 2023	44	9	2	55
Jul 2023	44	10	3	57
Aug 2023	59	5	2	66
Sep 2023	73	10	1	84
Oct 2023	43	22	1	66
Nov 2023	21	8	4	33
Dec 2023	43	20	1	64
Jan 2024	36	19	1	56
Feb 2024	15	15	0	30
Mar 2024	42	19	3	64
Apr 2024	68	12	2	82
May 2024	52	18	2	72
Jun 2024	83	13	1	97
Jul 2024	84	17	3	104
Aug 2024	85	13	1	99
Sep 2024	61	6	0	67
Oct 2024	60	10	0	70
Nov 2024	53	15	4	72
Dec 2024	55	11	1	67
Jan 2025	94	21	2	117
Feb 2025	107	29	1	137
Mar 2025	89	18	0	107
Apr 2025	103	18	1	122
May 2025	98	5	0	103
Jun 2025	104	10	2	116
Jul 2025	87	22	2	111
Aug 2025	86	23	2	111
Sep 2025	78	18	4	100
Oct 2025	77	26	1	104
Nov 2025	106	32	6	144
Dec 2025	112	47	4	163
Jan 2026	116	36	8	160
Feb 2026	90	25	5	120
Mar 2026	73	28	5	106
Apr 2026	10	1	2	13

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Total article views: 6,810 (including HTML, PDF, and XML) Thereof 6,752 with geography defined and 58 with unknown origin.

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Short summary

This model study is about the effect of black carbon (BC) and the boundary layer interactions on surface ozone in an area of severe haze and ozone pollution in China. It shows the following: BC not only reduces photolysis rate, but also suppresses boundary layer (BL) development, then confines more ozone precursors. The BL suppression leads to less ozone aloft being entrained downward and finally leading to surface ozone reduction before noon.


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