A joint global carbon inversion system using both CO2 and 13CO2 atmospheric concentration data

Chen, Jing M.; Mo, Gang; Deng, Feng

doi:https://doi.org/10.5194/gmd-10-1131-2017

Articles | Volume 10, issue 3

https://doi.org/10.5194/gmd-10-1131-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/gmd-10-1131-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 10, issue 3

Development and technical paper

|

16 Mar 2017

Development and technical paper |

| 16 Mar 2017

A joint global carbon inversion system using both CO₂ and ¹³CO₂ atmospheric concentration data

Jing M. Chen, Gang Mo, and Feng Deng

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Mar 2017	169	59	12	240
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Oct 2017	11	13	3	27
Nov 2017	10	25	1	36
Dec 2017	8	16	1	25
Jan 2018	10	14	1	25
Feb 2018	8	6	0	14
Mar 2018	10	16	0	26
Apr 2018	6	9	0	15
May 2018	7	14	1	22
Jun 2018	12	22	0	34
Jul 2018	8	11	1	20
Aug 2018	14	17	0	31
Sep 2018	8	10	0	18
Oct 2018	15	15	1	31
Nov 2018	10	11	2	23
Dec 2018	6	11	0	17
Jan 2019	9	13	1	23
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Mar 2019	3	4	0	7
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Jul 2019	6	7	0	13
Aug 2019	6	7	0	13
Sep 2019	10	7	0	17
Oct 2019	18	9	0	27
Nov 2019	16	3	0	19
Dec 2019	7	15	0	22
Jan 2020	18	6	1	25
Feb 2020	13	4	0	17
Mar 2020	6	6	1	13
Apr 2020	4	9	0	13
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Jul 2020	44	62	30	136
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Oct 2020	12	11	4	27
Nov 2020	17	18	1	36
Dec 2020	19	14	1	34
Jan 2021	16	13	0	29
Feb 2021	11	5	1	17
Mar 2021	13	2	0	15
Apr 2021	24	4	0	28
May 2021	21	12	0	33
Jun 2021	13	6	0	19
Jul 2021	11	6	0	17
Aug 2021	8	7	0	15
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Nov 2021	30	24	1	55
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Jan 2022	66	7	0	73
Feb 2022	48	6	1	55
Mar 2022	37	6	0	43
Apr 2022	65	14	1	80
May 2022	54	8	1	63
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Jul 2022	34	5	0	39
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Dec 2022	57	10	2	69
Jan 2023	48	11	1	60
Feb 2023	57	6	1	64
Mar 2023	71	12	1	84
Apr 2023	79	4	0	83
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Jun 2023	46	7	1	54
Jul 2023	47	2	2	51
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Jan 2024	68	18	1	87
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Mar 2024	77	9	1	87
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Cumulative views and downloads (calculated since 17 May 2016)

Month	HTML	PDF	XML	Total
May 2016	95	27	1	123
Jun 2016	11	12	1	24
Jul 2016	4	8	1	13
Aug 2016	2	4	0	6
Sep 2016	4	7	0	11
Oct 2016	4	1	0	5
Nov 2016	2	2	0	4
Dec 2016	4	2	1	7
Jan 2017	4	2	0	6
Feb 2017	8	3	0	11
Mar 2017	169	59	12	240
Apr 2017	78	23	20	121
May 2017	51	47	8	106
Jun 2017	35	24	7	66
Jul 2017	15	13	2	30
Aug 2017	15	23	0	38
Sep 2017	24	19	2	45
Oct 2017	11	13	3	27
Nov 2017	10	25	1	36
Dec 2017	8	16	1	25
Jan 2018	10	14	1	25
Feb 2018	8	6	0	14
Mar 2018	10	16	0	26
Apr 2018	6	9	0	15
May 2018	7	14	1	22
Jun 2018	12	22	0	34
Jul 2018	8	11	1	20
Aug 2018	14	17	0	31
Sep 2018	8	10	0	18
Oct 2018	15	15	1	31
Nov 2018	10	11	2	23
Dec 2018	6	11	0	17
Jan 2019	9	13	1	23
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Mar 2019	3	4	0	7
Apr 2019	6	6	0	12
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Jun 2019	5	7	0	12
Jul 2019	6	7	0	13
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Oct 2019	18	9	0	27
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Feb 2022	48	6	1	55
Mar 2022	37	6	0	43
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Aug 2022	47	8	0	55
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Feb 2023	57	6	1	64
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May 2023	61	10	0	71
Jun 2023	46	7	1	54
Jul 2023	47	2	2	51
Aug 2023	43	4	1	48
Sep 2023	56	4	0	60
Oct 2023	74	3	0	77
Nov 2023	53	3	1	57
Dec 2023	67	8	2	77
Jan 2024	68	18	1	87
Feb 2024	93	10	1	104
Mar 2024	77	9	1	87
Apr 2024	46	10	4	60

Cited

Latest update: 24 Apr 2024

Short summary

A joint inversion system is developed for estimating the carbon fluxes in 39 land and 11 ocean regions of the globe using both atmospheric CO₂ and ¹³CO₂ stable isotope data. In particular, a biospheric model is developed to model both CO₂ and ¹³CO₂ fluxes over land to constrain the inversion. Relative to CO₂-only inversion, the joint inversion system improved the partition between land and ocean carbon fluxes and possibly the distribution of the fluxes among land regions as well.

A joint global carbon inversion system using both CO₂ and ¹³CO₂ atmospheric concentration data

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Cited

8 citations as recorded by crossref.

8 citations as recorded by crossref.