Empirical upscaling of OzFlux eddy covariance for high-resolution monitoring of terrestrial carbon uptake in Australia

Burton, Chad A.; Renzullo, Luigi J.; Rifai, Sami W.; Van Dijk, Albert I. J. M.

doi:10.5194/bg-20-4109-2023

Articles | Volume 20, issue 19

https://doi.org/10.5194/bg-20-4109-2023

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

https://doi.org/10.5194/bg-20-4109-2023

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

Articles | Volume 20, issue 19

Research article

|

09 Oct 2023

Research article |

| 09 Oct 2023

Empirical upscaling of OzFlux eddy covariance for high-resolution monitoring of terrestrial carbon uptake in Australia

Chad A. Burton, Luigi J. Renzullo, Sami W. Rifai, and Albert I. J. M. Van Dijk

Viewed

Total article views: 4,553 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,784	1,576	193	4,553	186	265

HTML: 2,784
PDF: 1,576
XML: 193
Total: 4,553
BibTeX: 186
EndNote: 265

Views and downloads (calculated since 05 Jun 2023)

Month	HTML	PDF	XML	Total
Jun 2023	205	73	9	287
Jul 2023	142	33	7	182
Aug 2023	84	31	5	120
Sep 2023	54	13	1	68
Oct 2023	188	57	8	253
Nov 2023	35	14	1	50
Dec 2023	52	12	4	68
Jan 2024	34	11	1	46
Feb 2024	32	14	0	46
Mar 2024	43	21	0	64
Apr 2024	46	10	4	60
May 2024	68	24	13	105
Jun 2024	57	21	5	83
Jul 2024	97	25	13	135
Aug 2024	86	9	16	111
Sep 2024	42	12	9	63
Oct 2024	42	9	1	52
Nov 2024	60	7	1	68
Dec 2024	24	21	2	47
Jan 2025	35	22	4	61
Feb 2025	51	23	2	76
Mar 2025	52	17	1	70
Apr 2025	39	27	1	67
May 2025	55	30	0	85
Jun 2025	59	91	1	151
Jul 2025	59	56	6	121
Aug 2025	78	42	0	120
Sep 2025	185	42	2	229
Oct 2025	64	46	2	112
Nov 2025	93	85	2	180
Dec 2025	101	69	15	185
Jan 2026	115	115	21	251
Feb 2026	128	54	8	190
Mar 2026	124	221	9	354
Apr 2026	110	174	11	295
May 2026	45	45	8	98

Cumulative views and downloads (calculated since 05 Jun 2023)

Month	HTML	PDF	XML	Total
Jun 2023	205	73	9	287
Jul 2023	142	33	7	182
Aug 2023	84	31	5	120
Sep 2023	54	13	1	68
Oct 2023	188	57	8	253
Nov 2023	35	14	1	50
Dec 2023	52	12	4	68
Jan 2024	34	11	1	46
Feb 2024	32	14	0	46
Mar 2024	43	21	0	64
Apr 2024	46	10	4	60
May 2024	68	24	13	105
Jun 2024	57	21	5	83
Jul 2024	97	25	13	135
Aug 2024	86	9	16	111
Sep 2024	42	12	9	63
Oct 2024	42	9	1	52
Nov 2024	60	7	1	68
Dec 2024	24	21	2	47
Jan 2025	35	22	4	61
Feb 2025	51	23	2	76
Mar 2025	52	17	1	70
Apr 2025	39	27	1	67
May 2025	55	30	0	85
Jun 2025	59	91	1	151
Jul 2025	59	56	6	121
Aug 2025	78	42	0	120
Sep 2025	185	42	2	229
Oct 2025	64	46	2	112
Nov 2025	93	85	2	180
Dec 2025	101	69	15	185
Jan 2026	115	115	21	251
Feb 2026	128	54	8	190
Mar 2026	124	221	9	354
Apr 2026	110	174	11	295
May 2026	45	45	8	98

Viewed (geographical distribution)

Total article views: 4,553 (including HTML, PDF, and XML) Thereof 4,548 with geography defined and 5 with unknown origin.

Country	#	Views	%

1

1

Latest update: 24 May 2026

Short summary

Australia's land-based ecosystems play a critical role in controlling the variability in the global land carbon sink. However, uncertainties in the methods used for quantifying carbon fluxes limit our understanding. We develop high-resolution estimates of Australia's land carbon fluxes using machine learning methods and find that Australia is, on average, a stronger carbon sink than previously thought and that the seasonal dynamics of the fluxes differ from those described by other methods.


Total:	0
HTML:	0
PDF:	0
XML:	0


Total:	0
HTML:	0
PDF:	0
XML:	0


Total:	0
HTML:	0
PDF:	0
XML:	0