On the effect of upwind emission controls on ozone in Sequoia National Park

Buysse, Claire E.; Munyan, Jessica A.; Bailey, Clara A.; Kotsakis, Alexander; Sagona, Jessica A.; Esperanza, Annie; Pusede, Sally E.

doi:https://doi.org/10.5194/acp-18-17061-2018

Articles | Volume 18, issue 23

https://doi.org/10.5194/acp-18-17061-2018

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

https://doi.org/10.5194/acp-18-17061-2018

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

Articles | Volume 18, issue 23

Research article

|

04 Dec 2018

Research article |

| 04 Dec 2018

On the effect of upwind emission controls on ozone in Sequoia National Park

Claire E. Buysse, Jessica A. Munyan, Clara A. Bailey, Alexander Kotsakis, Jessica A. Sagona, Annie Esperanza, and Sally E. Pusede

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Total article views: 2,752 (including HTML, PDF, and XML)

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Aug 2018	46	5	2	53
Sep 2018	47	7	0	54
Oct 2018	26	10	1	37
Nov 2018	50	18	0	68
Dec 2018	244	80	6	330
Jan 2019	24	15	0	39
Feb 2019	17	14	0	31
Mar 2019	16	17	0	33
Apr 2019	16	8	0	24
May 2019	28	13	0	41
Jun 2019	26	16	0	42
Jul 2019	22	17	0	39
Aug 2019	10	7	0	17
Sep 2019	20	7	0	27
Oct 2019	30	20	0	50
Nov 2019	16	7	0	23
Dec 2019	19	10	0	29
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Apr 2020	19	3	0	22
May 2020	20	4	0	24
Jun 2020	13	10	0	23
Jul 2020	15	8	4	27
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Oct 2020	11	8	0	19
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Feb 2021	4	3	0	7
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Apr 2021	19	8	0	27
May 2021	16	9	2	27
Jun 2021	9	4	1	14
Jul 2021	8	12	0	20
Aug 2021	11	4	0	15
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Apr 2022	14	3	1	18
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Jan 2023	14	7	2	23
Feb 2023	17	5	1	23
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Apr 2023	6	7	0	13
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Jan 2024	12	5	0	17
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Apr 2024	13	8	5	26
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Oct 2024	11	6	0	17
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Dec 2024	16	7	1	24
Jan 2025	2	1	0	3

Cumulative views and downloads (calculated since 17 Nov 2017)

Month	HTML	PDF	XML	Total
Nov 2017	104	31	3	138
Dec 2017	27	12	1	40
Jan 2018	46	8	1	55
Feb 2018	35	6	2	43
Mar 2018	75	10	0	85
Apr 2018	46	12	0	58
May 2018	19	5	0	24
Jun 2018	18	3	1	22
Jul 2018	32	12	0	44
Aug 2018	46	5	2	53
Sep 2018	47	7	0	54
Oct 2018	26	10	1	37
Nov 2018	50	18	0	68
Dec 2018	244	80	6	330
Jan 2019	24	15	0	39
Feb 2019	17	14	0	31
Mar 2019	16	17	0	33
Apr 2019	16	8	0	24
May 2019	28	13	0	41
Jun 2019	26	16	0	42
Jul 2019	22	17	0	39
Aug 2019	10	7	0	17
Sep 2019	20	7	0	27
Oct 2019	30	20	0	50
Nov 2019	16	7	0	23
Dec 2019	19	10	0	29
Jan 2020	23	5	0	28
Feb 2020	12	9	0	21
Mar 2020	4	5	0	9
Apr 2020	19	3	0	22
May 2020	20	4	0	24
Jun 2020	13	10	0	23
Jul 2020	15	8	4	27
Aug 2020	9	11	2	22
Sep 2020	13	8	0	21
Oct 2020	11	8	0	19
Nov 2020	4	5	0	9
Dec 2020	11	3	0	14
Jan 2021	13	5	0	18
Feb 2021	4	3	0	7
Mar 2021	16	11	0	27
Apr 2021	19	8	0	27
May 2021	16	9	2	27
Jun 2021	9	4	1	14
Jul 2021	8	12	0	20
Aug 2021	11	4	0	15
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Oct 2021	3	36	0	39
Nov 2021	11	29	0	40
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Jan 2022	7	4	0	11
Feb 2022	7	6	2	15
Mar 2022	7	6	0	13
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Apr 2023	6	7	0	13
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Feb 2024	8	2	0	10
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Apr 2024	13	8	5	26
May 2024	20	7	5	32
Jun 2024	30	5	1	36
Jul 2024	34	7	2	43
Aug 2024	18	5	3	26
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Nov 2024	11	3	2	16
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Short summary

Sequoia National Park (SNP) experiences high ozone (O₃) pollution, which is damaging to human and ecosystem health. We find that the transport of O₃ precursors has a greater contribution to high O₃ than the transport of O₃ concentrations. SNP O₃ has therefore been more responsive to precursor emission controls than O₃ in an upwind city, but controls have been less effective in the spring when vegetation is most sensitive. This has implications for regulating O₃ in downwind polluted ecosystems.

On the effect of upwind emission controls on ozone in Sequoia National Park

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7 citations as recorded by crossref.

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