Interannual variability in Australia's terrestrial carbon cycle constrained by multiple observation types

Trudinger, Cathy M.; Haverd, Vanessa; Briggs, Peter R.; Canadell, Josep G.

doi:10.5194/bg-13-6363-2016

Articles | Volume 13, issue 23

https://doi.org/10.5194/bg-13-6363-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Special issue:

OzFlux: a network for the study of ecosystem carbon and water...

https://doi.org/10.5194/bg-13-6363-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 13, issue 23

Research article

|

29 Nov 2016

Research article |

| 29 Nov 2016

Interannual variability in Australia's terrestrial carbon cycle constrained by multiple observation types

Cathy M. Trudinger, Vanessa Haverd, Peter R. Briggs, and Josep G. Canadell

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Views and downloads (calculated since 09 May 2016)

Month	HTML	PDF	XML	Total
May 2016	73	33	0	106
Jun 2016	14	10	1	25
Jul 2016	7	5	1	13
Aug 2016	17	1	0	18
Sep 2016	38	1	0	39
Oct 2016	5	3	0	8
Nov 2016	41	18	1	60
Dec 2016	37	12	1	50
Jan 2017	40	25	2	67
Feb 2017	15	11	1	27
Mar 2017	11	29	2	42
Apr 2017	29	41	4	74
May 2017	25	11	4	40
Jun 2017	26	13	1	40
Jul 2017	37	32	2	71
Aug 2017	10	8	1	19
Sep 2017	7	8	0	15
Oct 2017	6	11	0	17
Nov 2017	5	8	0	13
Dec 2017	5	5	0	10
Jan 2018	6	9	0	15
Feb 2018	13	4	1	18
Mar 2018	11	12	0	23
Apr 2018	7	5	1	13
May 2018	13	7	1	21
Jun 2018	10	8	0	18
Jul 2018	12	14	0	26
Aug 2018	11	11	0	22
Sep 2018	12	7	0	19
Oct 2018	12	9	0	21
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Jan 2019	10	13	0	23
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Mar 2019	9	6	0	15
Apr 2019	6	8	0	14
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Dec 2019	11	6	0	17
Jan 2020	11	5	1	17
Feb 2020	11	7	0	18
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Apr 2020	6	5	1	12
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Oct 2020	11	7	1	19
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Jan 2021	20	9	1	30
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Mar 2021	15	12	1	28
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Nov 2022	28	7	0	35
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Jan 2023	20	9	1	30
Feb 2023	24	4	1	29
Mar 2023	32	15	2	49
Apr 2023	21	29	0	50
May 2023	32	6	1	39
Jun 2023	43	5	1	49
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Aug 2023	18	1	2	21
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Jan 2024	11	35	1	47
Feb 2024	21	11	0	32
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Apr 2024	17	13	1	31
May 2024	20	21	6	47
Jun 2024	23	8	2	33
Jul 2024	35	13	4	52
Aug 2024	50	6	6	62
Sep 2024	29	6	0	35
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Nov 2024	9	7	2	18
Dec 2024	6	5	3	14
Jan 2025	20	4	0	24
Feb 2025	32	7	1	40
Mar 2025	20	4	0	24
Apr 2025	18	14	1	33
May 2025	27	13	2	42
Jun 2025	33	24	0	57
Jul 2025	26	14	2	42
Aug 2025	33	12	1	46
Sep 2025	47	19	1	67
Oct 2025	26	30	2	58
Nov 2025	7	3	0	10

Cumulative views and downloads (calculated since 09 May 2016)

Month	HTML	PDF	XML	Total
May 2016	73	33	0	106
Jun 2016	14	10	1	25
Jul 2016	7	5	1	13
Aug 2016	17	1	0	18
Sep 2016	38	1	0	39
Oct 2016	5	3	0	8
Nov 2016	41	18	1	60
Dec 2016	37	12	1	50
Jan 2017	40	25	2	67
Feb 2017	15	11	1	27
Mar 2017	11	29	2	42
Apr 2017	29	41	4	74
May 2017	25	11	4	40
Jun 2017	26	13	1	40
Jul 2017	37	32	2	71
Aug 2017	10	8	1	19
Sep 2017	7	8	0	15
Oct 2017	6	11	0	17
Nov 2017	5	8	0	13
Dec 2017	5	5	0	10
Jan 2018	6	9	0	15
Feb 2018	13	4	1	18
Mar 2018	11	12	0	23
Apr 2018	7	5	1	13
May 2018	13	7	1	21
Jun 2018	10	8	0	18
Jul 2018	12	14	0	26
Aug 2018	11	11	0	22
Sep 2018	12	7	0	19
Oct 2018	12	9	0	21
Nov 2018	11	15	0	26
Dec 2018	17	8	0	25
Jan 2019	10	13	0	23
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Mar 2019	9	6	0	15
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Jun 2019	18	14	0	32
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Oct 2020	11	7	1	19
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Apr 2021	12	8	1	21
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Jun 2021	6	8	1	15
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Nov 2021	19	33	0	52
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Jan 2022	18	8	1	27
Feb 2022	14	3	1	18
Mar 2022	16	8	1	25
Apr 2022	27	9	4	40
May 2022	30	22	0	52
Jun 2022	31	6	0	37
Jul 2022	12	6	0	18
Aug 2022	27	1	0	28
Sep 2022	20	4	1	25
Oct 2022	11	3	1	15
Nov 2022	28	7	0	35
Dec 2022	25	4	1	30
Jan 2023	20	9	1	30
Feb 2023	24	4	1	29
Mar 2023	32	15	2	49
Apr 2023	21	29	0	50
May 2023	32	6	1	39
Jun 2023	43	5	1	49
Jul 2023	16	3	0	19
Aug 2023	18	1	2	21
Sep 2023	15	5	0	20
Oct 2023	29	10	2	41
Nov 2023	4	5	3	12
Dec 2023	15	13	1	29
Jan 2024	11	35	1	47
Feb 2024	21	11	0	32
Mar 2024	16	11	6	33
Apr 2024	17	13	1	31
May 2024	20	21	6	47
Jun 2024	23	8	2	33
Jul 2024	35	13	4	52
Aug 2024	50	6	6	62
Sep 2024	29	6	0	35
Oct 2024	22	7	1	30
Nov 2024	9	7	2	18
Dec 2024	6	5	3	14
Jan 2025	20	4	0	24
Feb 2025	32	7	1	40
Mar 2025	20	4	0	24
Apr 2025	18	14	1	33
May 2025	27	13	2	42
Jun 2025	33	24	0	57
Jul 2025	26	14	2	42
Aug 2025	33	12	1	46
Sep 2025	47	19	1	67
Oct 2025	26	30	2	58
Nov 2025	7	3	0	10

Latest update: 08 Nov 2025

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Short summary

Semi-arid ecosystems in Australia are responsible for a significant part of the variability in global atmospheric carbon dioxide. Here we use Australian observations to estimate parameters in a land surface model of carbon and water cycles. We quantify the variability in Australian carbon fluxes between 1982 and 2013, including the large uptake in 2011 associated with exceptionally wet conditions following a prolonged drought. We estimate the effect of parameter uncertainty on these estimates.