Sun-induced fluorescence as a proxy for primary productivity across vegetation types and climates

Pickering, Mark; Cescatti, Alessandro; Duveiller, Gregory

doi:10.5194/bg-19-4833-2022

Articles | Volume 19, issue 20

https://doi.org/10.5194/bg-19-4833-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-19-4833-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 19, issue 20

Research article

|

17 Oct 2022

Research article |

| 17 Oct 2022

Sun-induced fluorescence as a proxy for primary productivity across vegetation types and climates

Mark Pickering, Alessandro Cescatti, and Gregory Duveiller

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Total article views: 4,123 (including HTML, PDF, and XML)

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Views and downloads (calculated since 21 Jan 2022)

Month	HTML	PDF	XML	Total
Jan 2022	124	52	2	178
Feb 2022	53	27	2	82
Mar 2022	23	12	1	36
Apr 2022	72	22	5	99
May 2022	86	32	15	133
Jun 2022	32	17	0	49
Jul 2022	15	3	0	18
Aug 2022	29	15	1	45
Sep 2022	46	15	1	62
Oct 2022	319	64	6	389
Nov 2022	108	36	1	145
Dec 2022	35	13	0	48
Jan 2023	38	11	0	49
Feb 2023	37	31	2	70
Mar 2023	50	26	1	77
Apr 2023	30	19	0	49
May 2023	39	16	2	57
Jun 2023	42	13	2	57
Jul 2023	29	20	0	49
Aug 2023	26	31	3	60
Sep 2023	38	23	1	62
Oct 2023	29	24	1	54
Nov 2023	30	14	5	49
Dec 2023	27	8	1	36
Jan 2024	120	16	0	136
Feb 2024	48	15	0	63
Mar 2024	51	27	0	78
Apr 2024	56	17	1	74
May 2024	48	16	4	68
Jun 2024	199	16	2	217
Jul 2024	134	9	4	147
Aug 2024	45	13	3	61
Sep 2024	34	12	2	48
Oct 2024	38	4	1	43
Nov 2024	39	7	1	47
Dec 2024	35	8	0	43
Jan 2025	46	10	0	56
Feb 2025	39	8	0	47
Mar 2025	20	16	0	36
Apr 2025	46	18	0	64
May 2025	46	13	1	60
Jun 2025	86	72	1	159
Jul 2025	52	31	3	86
Aug 2025	46	27	3	76
Sep 2025	97	28	0	125
Oct 2025	55	34	3	92
Nov 2025	70	71	3	144
Dec 2025	98	37	3	138
Jan 2026	36	20	6	62

Cumulative views and downloads (calculated since 21 Jan 2022)

Month	HTML	PDF	XML	Total
Jan 2022	124	52	2	178
Feb 2022	53	27	2	82
Mar 2022	23	12	1	36
Apr 2022	72	22	5	99
May 2022	86	32	15	133
Jun 2022	32	17	0	49
Jul 2022	15	3	0	18
Aug 2022	29	15	1	45
Sep 2022	46	15	1	62
Oct 2022	319	64	6	389
Nov 2022	108	36	1	145
Dec 2022	35	13	0	48
Jan 2023	38	11	0	49
Feb 2023	37	31	2	70
Mar 2023	50	26	1	77
Apr 2023	30	19	0	49
May 2023	39	16	2	57
Jun 2023	42	13	2	57
Jul 2023	29	20	0	49
Aug 2023	26	31	3	60
Sep 2023	38	23	1	62
Oct 2023	29	24	1	54
Nov 2023	30	14	5	49
Dec 2023	27	8	1	36
Jan 2024	120	16	0	136
Feb 2024	48	15	0	63
Mar 2024	51	27	0	78
Apr 2024	56	17	1	74
May 2024	48	16	4	68
Jun 2024	199	16	2	217
Jul 2024	134	9	4	147
Aug 2024	45	13	3	61
Sep 2024	34	12	2	48
Oct 2024	38	4	1	43
Nov 2024	39	7	1	47
Dec 2024	35	8	0	43
Jan 2025	46	10	0	56
Feb 2025	39	8	0	47
Mar 2025	20	16	0	36
Apr 2025	46	18	0	64
May 2025	46	13	1	60
Jun 2025	86	72	1	159
Jul 2025	52	31	3	86
Aug 2025	46	27	3	76
Sep 2025	97	28	0	125
Oct 2025	55	34	3	92
Nov 2025	70	71	3	144
Dec 2025	98	37	3	138
Jan 2026	36	20	6	62

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Short summary

This study explores two of the most recent products in carbon productivity estimation, FLUXCOM gross primary productivity (GPP), calculated by upscaling local measurements of CO₂ exchange, and remotely sensed sun-induced chlorophyll a fluorescence (SIF). High-resolution SIF data are valuable in demonstrating similarity in the SIF–GPP relationship between vegetation covers, provide an independent probe of the FLUXCOM GPP model and demonstrate the response of SIF to meteorological fluctuations.


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