Biogeochemical and biophysical responses to episodes of wildfire smoke from natural ecosystems  in southwestern British Columbia, Canada

Lee, Sung-Ching; Knox, Sara H.; McKendry, Ian; Black, T. Andrew

doi:10.5194/acp-22-2333-2022

Articles | Volume 22, issue 4

https://doi.org/10.5194/acp-22-2333-2022

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

https://doi.org/10.5194/acp-22-2333-2022

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

Articles | Volume 22, issue 4

Research article

|

21 Feb 2022

Research article |

| 21 Feb 2022

Biogeochemical and biophysical responses to episodes of wildfire smoke from natural ecosystems in southwestern British Columbia, Canada

Sung-Ching Lee, Sara H. Knox, Ian McKendry, and T. Andrew Black

Viewed

Total article views: 3,730 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
2,688	939	103	3,730	306	104	110

HTML: 2,688
PDF: 939
XML: 103
Total: 3,730
Supplement: 306
BibTeX: 104
EndNote: 110

Views and downloads (calculated since 19 Oct 2021)

Month	HTML	PDF	XML	Total
Oct 2021	144	29	3	176
Nov 2021	104	27	5	136
Dec 2021	20	11	1	32
Jan 2022	39	16	5	60
Feb 2022	247	48	7	302
Mar 2022	157	30	2	189
Apr 2022	113	16	4	133
May 2022	88	25	0	113
Jun 2022	97	20	1	118
Jul 2022	105	11	0	116
Aug 2022	101	12	0	113
Sep 2022	52	31	0	83
Oct 2022	60	8	0	68
Nov 2022	68	13	0	81
Dec 2022	73	13	0	86
Jan 2023	16	19	0	35
Feb 2023	19	9	0	28
Mar 2023	17	7	1	25
Apr 2023	20	14	1	35
May 2023	14	4	0	18
Jun 2023	16	12	1	29
Jul 2023	17	10	1	28
Aug 2023	10	17	1	28
Sep 2023	19	24	1	44
Oct 2023	24	10	3	37
Nov 2023	19	5	0	24
Dec 2023	23	7	1	31
Jan 2024	10	5	0	15
Feb 2024	15	10	3	28
Mar 2024	18	22	2	42
Apr 2024	27	10	4	41
May 2024	19	8	3	30
Jun 2024	56	13	2	71
Jul 2024	16	3	3	22
Aug 2024	19	12	2	33
Sep 2024	13	11	0	24
Oct 2024	26	16	0	42
Nov 2024	8	6	1	15
Dec 2024	12	8	0	20
Jan 2025	21	10	0	31
Feb 2025	22	10	2	34
Mar 2025	19	9	3	31
Apr 2025	18	11	2	31
May 2025	37	15	0	52
Jun 2025	51	16	1	68
Jul 2025	35	20	2	57
Aug 2025	31	18	0	49
Sep 2025	73	19	0	92
Oct 2025	40	14	0	54
Nov 2025	45	22	4	71
Dec 2025	59	45	0	104
Jan 2026	70	29	9	108
Feb 2026	89	25	3	117
Mar 2026	43	33	5	81
Apr 2026	58	42	7	107
May 2026	52	29	5	86
Jun 2026	4	2	6

Cumulative views and downloads (calculated since 19 Oct 2021)

Month	HTML	PDF	XML	Total
Oct 2021	144	29	3	176
Nov 2021	104	27	5	136
Dec 2021	20	11	1	32
Jan 2022	39	16	5	60
Feb 2022	247	48	7	302
Mar 2022	157	30	2	189
Apr 2022	113	16	4	133
May 2022	88	25	0	113
Jun 2022	97	20	1	118
Jul 2022	105	11	0	116
Aug 2022	101	12	0	113
Sep 2022	52	31	0	83
Oct 2022	60	8	0	68
Nov 2022	68	13	0	81
Dec 2022	73	13	0	86
Jan 2023	16	19	0	35
Feb 2023	19	9	0	28
Mar 2023	17	7	1	25
Apr 2023	20	14	1	35
May 2023	14	4	0	18
Jun 2023	16	12	1	29
Jul 2023	17	10	1	28
Aug 2023	10	17	1	28
Sep 2023	19	24	1	44
Oct 2023	24	10	3	37
Nov 2023	19	5	0	24
Dec 2023	23	7	1	31
Jan 2024	10	5	0	15
Feb 2024	15	10	3	28
Mar 2024	18	22	2	42
Apr 2024	27	10	4	41
May 2024	19	8	3	30
Jun 2024	56	13	2	71
Jul 2024	16	3	3	22
Aug 2024	19	12	2	33
Sep 2024	13	11	0	24
Oct 2024	26	16	0	42
Nov 2024	8	6	1	15
Dec 2024	12	8	0	20
Jan 2025	21	10	0	31
Feb 2025	22	10	2	34
Mar 2025	19	9	3	31
Apr 2025	18	11	2	31
May 2025	37	15	0	52
Jun 2025	51	16	1	68
Jul 2025	35	20	2	57
Aug 2025	31	18	0	49
Sep 2025	73	19	0	92
Oct 2025	40	14	0	54
Nov 2025	45	22	4	71
Dec 2025	59	45	0	104
Jan 2026	70	29	9	108
Feb 2026	89	25	3	117
Mar 2026	43	33	5	81
Apr 2026	58	42	7	107
May 2026	52	29	5	86
Jun 2026	4	2	6

Viewed (geographical distribution)

Total article views: 3,730 (including HTML, PDF, and XML) Thereof 3,730 with geography defined and 0 with unknown origin.

Country	#	Views	%

1

1

Cited

Saved (final revised paper)

Latest update: 09 Jun 2026

Download

Article (3124 KB)
Full-text XML

Short summary

Wildfire smoke alters land–atmosphere exchange. Here, measurements in a forest and a wetland during four smoke episodes over four summers showed that impacts on radiation and heat budget were the greatest when smoke arrived in late summer. Both sites sequestered more CO₂ under smoky days, partly due to diffuse light, but emitted CO₂ when smoke was dense. This kind of field study is important for validating predictions of smoke–productivity feedbacks and has climate change implications.