Post-flooding disturbance recovery promotes carbon capture in riparian zones

Zhu, Yihong; Liu, Ruihua; Zhang, Huai; Liu, Shaoda; Zhang, Zhengfeng; Yu, Fei-Hai; Gregoire, Timothy G.

doi:10.5194/bg-20-1357-2023

Articles | Volume 20, issue 7

https://doi.org/10.5194/bg-20-1357-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-20-1357-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 20, issue 7

Research article

|

06 Apr 2023

Research article |

| 06 Apr 2023

Post-flooding disturbance recovery promotes carbon capture in riparian zones

Yihong Zhu, Ruihua Liu, Huai Zhang, Shaoda Liu, Zhengfeng Zhang, Fei-Hai Yu, and Timothy G. Gregoire

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Total article views: 2,945 (including HTML, PDF, and XML)

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Views and downloads (calculated since 29 Aug 2022)

Month	HTML	PDF	XML	Total
Aug 2022	56	13	4	73
Sep 2022	95	24	3	122
Oct 2022	30	6	0	36
Nov 2022	55	14	7	76
Dec 2022	24	16	0	40
Jan 2023	11	9	1	21
Feb 2023	29	14	1	44
Mar 2023	15	11	0	26
Apr 2023	275	46	4	325
May 2023	70	25	7	102
Jun 2023	31	11	2	44
Jul 2023	29	26	0	55
Aug 2023	29	13	2	44
Sep 2023	27	17	2	46
Oct 2023	23	16	3	42
Nov 2023	4	12	0	16
Dec 2023	23	16	3	42
Jan 2024	28	36	0	64
Feb 2024	18	17	2	37
Mar 2024	28	25	0	53
Apr 2024	41	13	1	55
May 2024	36	11	10	57
Jun 2024	69	14	2	85
Jul 2024	35	15	4	54
Aug 2024	45	7	6	58
Sep 2024	34	5	1	40
Oct 2024	31	8	3	42
Nov 2024	29	5	1	35
Dec 2024	31	9	0	40
Jan 2025	35	11	1	47
Feb 2025	35	9	3	47
Mar 2025	31	12	0	43
Apr 2025	53	10	0	63
May 2025	22	13	1	36
Jun 2025	49	22	2	73
Jul 2025	29	20	3	52
Aug 2025	33	18	1	52
Sep 2025	78	26	0	104
Oct 2025	36	33	3	72
Nov 2025	69	30	4	103
Dec 2025	82	28	6	116
Jan 2026	107	22	6	135
Feb 2026	71	13	1	85
Mar 2026	70	32	1	103
Apr 2026	30	7	3	40

Cumulative views and downloads (calculated since 29 Aug 2022)

Month	HTML	PDF	XML	Total
Aug 2022	56	13	4	73
Sep 2022	95	24	3	122
Oct 2022	30	6	0	36
Nov 2022	55	14	7	76
Dec 2022	24	16	0	40
Jan 2023	11	9	1	21
Feb 2023	29	14	1	44
Mar 2023	15	11	0	26
Apr 2023	275	46	4	325
May 2023	70	25	7	102
Jun 2023	31	11	2	44
Jul 2023	29	26	0	55
Aug 2023	29	13	2	44
Sep 2023	27	17	2	46
Oct 2023	23	16	3	42
Nov 2023	4	12	0	16
Dec 2023	23	16	3	42
Jan 2024	28	36	0	64
Feb 2024	18	17	2	37
Mar 2024	28	25	0	53
Apr 2024	41	13	1	55
May 2024	36	11	10	57
Jun 2024	69	14	2	85
Jul 2024	35	15	4	54
Aug 2024	45	7	6	58
Sep 2024	34	5	1	40
Oct 2024	31	8	3	42
Nov 2024	29	5	1	35
Dec 2024	31	9	0	40
Jan 2025	35	11	1	47
Feb 2025	35	9	3	47
Mar 2025	31	12	0	43
Apr 2025	53	10	0	63
May 2025	22	13	1	36
Jun 2025	49	22	2	73
Jul 2025	29	20	3	52
Aug 2025	33	18	1	52
Sep 2025	78	26	0	104
Oct 2025	36	33	3	72
Nov 2025	69	30	4	103
Dec 2025	82	28	6	116
Jan 2026	107	22	6	135
Feb 2026	71	13	1	85
Mar 2026	70	32	1	103
Apr 2026	30	7	3	40

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Total article views: 2,945 (including HTML, PDF, and XML) Thereof 2,905 with geography defined and 40 with unknown origin.

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Latest update: 25 Apr 2026

Short summary

With global warming, the risk of flooding is rising, but the response of the carbon cycle of aquatic and associated riparian systems to flooding is still unclear. Based on the data collected in the Lijiang, we found that flooding would lead to significant carbon emissions of fluvial areas and riparian areas during flooding, but carbon capture may happen after flooding. In the riparian areas, the surviving vegetation, especially clonal plants, played a vital role in this transformation.


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