Impact of elevated precipitation, nitrogen deposition and warming on soil respiration in a temperate desert

Yue, Ping; Cui, Xiaoqing; Gong, Yanming; Li, Kaihui; Goulding, Keith; Liu, Xuejun

doi:10.5194/bg-15-2007-2018

Articles | Volume 15, issue 7

https://doi.org/10.5194/bg-15-2007-2018

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

Special issue:

The 10th International Carbon Dioxide Conference (ICDC10)...

https://doi.org/10.5194/bg-15-2007-2018

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

Articles | Volume 15, issue 7

Research article

|

06 Apr 2018

Research article |

| 06 Apr 2018

Impact of elevated precipitation, nitrogen deposition and warming on soil respiration in a temperate desert

Ping Yue, Xiaoqing Cui, Yanming Gong, Kaihui Li, Keith Goulding, and Xuejun Liu

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May 2018	31	29	1	61
Jun 2018	27	17	2	46
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Jan 2019	14	15	1	30
Feb 2019	14	12	1	27
Mar 2019	17	23	0	40
Apr 2019	10	15	1	26
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Jan 2020	19	12	2	33
Feb 2020	12	7	0	19
Mar 2020	14	14	0	28
Apr 2020	11	8	1	20
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Jan 2021	26	12	1	39
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Mar 2021	13	12	0	25
Apr 2021	19	9	0	28
May 2021	16	11	0	27
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Jul 2021	11	15	1	27
Aug 2021	9	11	0	20
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Oct 2021	18	27	0	45
Nov 2021	24	38	0	62
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Jan 2022	26	14	2	42
Feb 2022	20	10	1	31
Mar 2022	25	14	0	39
Apr 2022	36	9	0	45
May 2022	26	12	0	38
Jun 2022	9	7	0	16
Jul 2022	18	6	0	24
Aug 2022	130	9	0	139
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Feb 2023	50	9	2	61
Mar 2023	43	12	1	56
Apr 2023	25	6	0	31
May 2023	22	12	0	34
Jun 2023	23	10	3	36
Jul 2023	15	11	0	26
Aug 2023	16	11	2	29
Sep 2023	16	10	1	27
Oct 2023	27	12	4	43
Nov 2023	20	6	0	26
Dec 2023	35	8	0	43
Jan 2024	25	10	1	36
Feb 2024	16	11	1	28
Mar 2024	24	12	2	38
Apr 2024	31	15	10	56
May 2024	28	11	0	39
Jun 2024	48	10	4	62
Jul 2024	55	10	3	68
Aug 2024	26	2	3	31
Sep 2024	16	8	2	26
Oct 2024	27	8	1	36
Nov 2024	20	5	1	26
Dec 2024	21	5	2	28
Jan 2025	22	4	0	26
Feb 2025	21	9	1	31
Mar 2025	25	13	0	38
Apr 2025	28	18	1	47
May 2025	30	12	2	44
Jun 2025	53	14	1	68
Jul 2025	52	24	2	78
Aug 2025	30	11	2	43
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Oct 2025	43	39	7	89
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Cumulative views and downloads (calculated since 09 Nov 2017)

Month	HTML	PDF	XML	Total
Nov 2017	109	32	3	144
Dec 2017	31	12	0	43
Jan 2018	24	7	0	31
Feb 2018	39	10	7	56
Mar 2018	14	7	0	21
Apr 2018	182	72	4	258
May 2018	31	29	1	61
Jun 2018	27	17	2	46
Jul 2018	22	22	1	45
Aug 2018	16	13	1	30
Sep 2018	16	23	0	39
Oct 2018	16	20	2	38
Nov 2018	12	13	2	27
Dec 2018	18	22	2	42
Jan 2019	14	15	1	30
Feb 2019	14	12	1	27
Mar 2019	17	23	0	40
Apr 2019	10	15	1	26
May 2019	33	21	1	55
Jun 2019	42	19	0	61
Jul 2019	18	9	0	27
Aug 2019	13	14	0	27
Sep 2019	22	23	0	45
Oct 2019	45	37	1	83
Nov 2019	15	16	0	31
Dec 2019	16	11	0	27
Jan 2020	19	12	2	33
Feb 2020	12	7	0	19
Mar 2020	14	14	0	28
Apr 2020	11	8	1	20
May 2020	12	14	1	27
Jun 2020	18	7	0	25
Jul 2020	21	21	3	45
Aug 2020	8	22	4	34
Sep 2020	23	17	1	41
Oct 2020	8	12	0	20
Nov 2020	10	14	1	25
Dec 2020	12	7	1	20
Jan 2021	26	12	1	39
Feb 2021	16	14	1	31
Mar 2021	13	12	0	25
Apr 2021	19	9	0	28
May 2021	16	11	0	27
Jun 2021	14	9	0	23
Jul 2021	11	15	1	27
Aug 2021	9	11	0	20
Sep 2021	20	11	0	31
Oct 2021	18	27	0	45
Nov 2021	24	38	0	62
Dec 2021	25	12	2	39
Jan 2022	26	14	2	42
Feb 2022	20	10	1	31
Mar 2022	25	14	0	39
Apr 2022	36	9	0	45
May 2022	26	12	0	38
Jun 2022	9	7	0	16
Jul 2022	18	6	0	24
Aug 2022	130	9	0	139
Sep 2022	26	17	1	44
Oct 2022	26	9	1	36
Nov 2022	45	10	1	56
Dec 2022	56	8	1	65
Jan 2023	34	13	1	48
Feb 2023	50	9	2	61
Mar 2023	43	12	1	56
Apr 2023	25	6	0	31
May 2023	22	12	0	34
Jun 2023	23	10	3	36
Jul 2023	15	11	0	26
Aug 2023	16	11	2	29
Sep 2023	16	10	1	27
Oct 2023	27	12	4	43
Nov 2023	20	6	0	26
Dec 2023	35	8	0	43
Jan 2024	25	10	1	36
Feb 2024	16	11	1	28
Mar 2024	24	12	2	38
Apr 2024	31	15	10	56
May 2024	28	11	0	39
Jun 2024	48	10	4	62
Jul 2024	55	10	3	68
Aug 2024	26	2	3	31
Sep 2024	16	8	2	26
Oct 2024	27	8	1	36
Nov 2024	20	5	1	26
Dec 2024	21	5	2	28
Jan 2025	22	4	0	26
Feb 2025	21	9	1	31
Mar 2025	25	13	0	38
Apr 2025	28	18	1	47
May 2025	30	12	2	44
Jun 2025	53	14	1	68
Jul 2025	52	24	2	78
Aug 2025	30	11	2	43
Sep 2025	45	19	1	65
Oct 2025	43	39	7	89
Nov 2025	25	13	8	46

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Short summary

Precipitation and N deposition significantly increased R_s, but warming decreased R_s, which depended mainly on the variation of soil moisture. The interactive response of R_s to combinations of the factors was much less than that of any single factor, and the interactions of multiple factors largely reduced between-year variation of R_s more than any single factor, suggesting that the carbon cycle in temperate deserts could be profoundly influenced by positive carbon–climate feedbacks.


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