Different responses of ecosystem CO2 and N2O emissions and CH4 uptake to seasonally asymmetric warming in an alpine grassland of the Tianshan

Gong, Yanming; Yue, Ping; Li, Kaihui; Mohammat, Anwar; Liu, Yanyan

doi:10.5194/bg-18-3529-2021

Articles | Volume 18, issue 11

https://doi.org/10.5194/bg-18-3529-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-18-3529-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 18, issue 11

Research article

|

16 Jun 2021

Research article |

| 16 Jun 2021

Different responses of ecosystem CO₂ and N₂O emissions and CH₄ uptake to seasonally asymmetric warming in an alpine grassland of the Tianshan

Yanming Gong, Ping Yue, Kaihui Li, Anwar Mohammat, and Yanyan Liu

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Jan 2021	36	7	1	44
Feb 2021	19	1	1	21
Mar 2021	10	2	0	12
Apr 2021	4	0	4
May 2021	6	3	1	10
Jun 2021	209	44	5	258
Jul 2021	48	23	2	73
Aug 2021	33	15	0	48
Sep 2021	41	16	3	60
Oct 2021	38	36	1	75
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Jan 2022	20	15	0	35
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Sep 2022	29	7	0	36
Oct 2022	22	9	2	33
Nov 2022	19	6	0	25
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Jan 2023	5	10	0	15
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Mar 2023	20	9	0	29
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Aug 2023	20	9	2	31
Sep 2023	15	6	0	21
Oct 2023	23	15	1	39
Nov 2023	3	4	0	7
Dec 2023	31	12	0	43
Jan 2024	14	12	0	26
Feb 2024	13	11	0	24
Mar 2024	20	21	5	46
Apr 2024	18	16	4	38
May 2024	23	19	8	50
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Feb 2025	24	9	0	33
Mar 2025	23	5	0	28
Apr 2025	20	27	1	48
May 2025	21	32	0	53
Jun 2025	47	17	0	64
Jul 2025	34	10	3	47
Aug 2025	33	12	0	45
Sep 2025	63	18	0	81
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Dec 2025	25	24	3	52
Jan 2026	47	17	7	71
Feb 2026	40	13	4	57
Mar 2026	36	28	2	66
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Cumulative views and downloads (calculated since 14 Nov 2020)

Month	HTML	PDF	XML	Total
Nov 2020	140	22	2	164
Dec 2020	89	15	2	106
Jan 2021	36	7	1	44
Feb 2021	19	1	1	21
Mar 2021	10	2	0	12
Apr 2021	4	0	4
May 2021	6	3	1	10
Jun 2021	209	44	5	258
Jul 2021	48	23	2	73
Aug 2021	33	15	0	48
Sep 2021	41	16	3	60
Oct 2021	38	36	1	75
Nov 2021	25	31	2	58
Dec 2021	25	11	0	36
Jan 2022	20	15	0	35
Feb 2022	23	13	1	37
Mar 2022	20	8	1	29
Apr 2022	31	10	1	42
May 2022	20	5	0	25
Jun 2022	17	6	0	23
Jul 2022	19	11	0	30
Aug 2022	41	17	0	58
Sep 2022	29	7	0	36
Oct 2022	22	9	2	33
Nov 2022	19	6	0	25
Dec 2022	9	10	1	20
Jan 2023	5	10	0	15
Feb 2023	17	9	1	27
Mar 2023	20	9	0	29
Apr 2023	13	7	0	20
May 2023	12	11	4	27
Jun 2023	13	8	2	23
Jul 2023	13	12	0	25
Aug 2023	20	9	2	31
Sep 2023	15	6	0	21
Oct 2023	23	15	1	39
Nov 2023	3	4	0	7
Dec 2023	31	12	0	43
Jan 2024	14	12	0	26
Feb 2024	13	11	0	24
Mar 2024	20	21	5	46
Apr 2024	18	16	4	38
May 2024	23	19	8	50
Jun 2024	39	7	2	48
Jul 2024	47	6	6	59
Aug 2024	40	11	5	56
Sep 2024	12	11	2	25
Oct 2024	24	7	1	32
Nov 2024	17	8	1	26
Dec 2024	15	8	0	23
Jan 2025	16	10	0	26
Feb 2025	24	9	0	33
Mar 2025	23	5	0	28
Apr 2025	20	27	1	48
May 2025	21	32	0	53
Jun 2025	47	17	0	64
Jul 2025	34	10	3	47
Aug 2025	33	12	0	45
Sep 2025	63	18	0	81
Oct 2025	37	15	2	54
Nov 2025	43	32	2	77
Dec 2025	25	24	3	52
Jan 2026	47	17	7	71
Feb 2026	40	13	4	57
Mar 2026	36	28	2	66
Apr 2026	53	43	6	102
May 2026	35	21	5	61
Jun 2026	16	1	1	18

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Short summary

At present, data on the influence of asymmetric warming on the GHG flux on a temporal scale are scarce. GHG fluxes were measured using static chambers and a gas chromatograph. Our study showed that the effect of seasonally asymmetrical warming on CO₂ flux was obvious, with the GHG flux being able to adapt to continuous warming. Warming in the non-growing season increased the temperature dependence of GHG flux.