Modelling spatial and temporal dynamics of gross primary production in the Sahel from earth-observation-based photosynthetic capacity and quantum efficiency

Tagesson, Torbern; Ardö, Jonas; Cappelaere, Bernard; Kergoat, Laurent; Abdi, Abdulhakim; Horion, Stéphanie; Fensholt, Rasmus

doi:https://doi.org/10.5194/bg-14-1333-2017

Articles | Volume 14, issue 5

https://doi.org/10.5194/bg-14-1333-2017

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

Special issue:

Ecosystem processes and functioning across current and future...

https://doi.org/10.5194/bg-14-1333-2017

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

Articles | Volume 14, issue 5

Research article

|

17 Mar 2017

Research article |

| 17 Mar 2017

Modelling spatial and temporal dynamics of gross primary production in the Sahel from earth-observation-based photosynthetic capacity and quantum efficiency

Torbern Tagesson, Jonas Ardö, Bernard Cappelaere, Laurent Kergoat, Abdulhakim Abdi, Stéphanie Horion, and Rasmus Fensholt

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1,467	949	90	2,506	193	76	98

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PDF: 949
XML: 90
Total: 2,506
Supplement: 193
BibTeX: 76
EndNote: 98

Views and downloads (calculated since 29 Sep 2016)

Month	HTML	PDF	XML	Total
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Nov 2016	19	5	0	24
Dec 2016	7	2	0	9
Jan 2017	15	2	0	17
Feb 2017	14	1	1	16
Mar 2017	327	91	10	428
Apr 2017	80	65	10	155
May 2017	42	25	1	68
Jun 2017	39	14	1	54
Jul 2017	20	13	2	35
Aug 2017	12	10	1	23
Sep 2017	15	9	1	25
Oct 2017	7	7	0	14
Nov 2017	19	22	2	43
Dec 2017	8	7	0	15
Jan 2018	13	5	1	19
Feb 2018	13	7	0	20
Mar 2018	13	9	0	22
Apr 2018	4	11	0	15
May 2018	18	12	0	30
Jun 2018	11	10	2	23
Jul 2018	14	7	0	21
Aug 2018	17	10	0	27
Sep 2018	11	14	0	25
Oct 2018	8	6	0	14
Nov 2018	13	21	1	35
Dec 2018	13	8	0	21
Jan 2019	8	14	0	22
Feb 2019	9	9	0	18
Mar 2019	8	10	0	18
Apr 2019	5	13	1	19
May 2019	6	10	1	17
Jun 2019	8	11	0	19
Jul 2019	8	8	1	17
Aug 2019	6	7	0	13
Sep 2019	2	3	0	5
Oct 2019	9	10	1	20
Nov 2019	6	6	0	12
Dec 2019	3	3	0	6
Jan 2020	7	5	1	13
Feb 2020	7	5	0	12
Mar 2020	11	4	0	15
Apr 2020	5	6	1	12
May 2020	7	3	1	11
Jun 2020	10	12	1	23
Jul 2020	17	21	5	43
Aug 2020	7	8	3	18
Sep 2020	18	7	1	26
Oct 2020	12	11	2	25
Nov 2020	6	15	2	23
Dec 2020	11	8	1	20
Jan 2021	17	8	1	26
Feb 2021	15	9	2	26
Mar 2021	11	5	1	17
Apr 2021	12	7	1	20
May 2021	13	16	0	29
Jun 2021	5	9	1	15
Jul 2021	8	11	1	20
Aug 2021	16	13	0	29
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Oct 2021	7	23	0	30
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Dec 2021	11	16	2	29
Jan 2022	10	7	0	17
Feb 2022	13	6	2	21
Mar 2022	8	4	0	12
Apr 2022	7	4	1	12
May 2022	5	6	1	12
Jun 2022	8	5	2	15
Jul 2022	5	2	0	7
Aug 2022	7	9	0	16
Sep 2022	5	3	1	9
Oct 2022	11	7	1	19
Nov 2022	20	8	0	28
Dec 2022	15	6	0	21
Jan 2023	11	14	2	27
Feb 2023	13	5	1	19
Mar 2023	11	6	0	17
Apr 2023	27	4	0	31
May 2023	13	6	0	19
Jun 2023	11	6	1	18
Jul 2023	5	12	1	18
Aug 2023	13	6	2	21
Sep 2023	11	5	0	16
Oct 2023	8	3	2	13
Nov 2023	5	3	0	8
Dec 2023	13	4	1	18
Jan 2024	14	7	2	23
Feb 2024	14	6	1	21
Mar 2024	10	10	2	22
Apr 2024	8	6	1	15

Cumulative views and downloads (calculated since 29 Sep 2016)

Month	HTML	PDF	XML	Total
Sep 2016	25	14	1	40
Oct 2016	42	9	0	51
Nov 2016	19	5	0	24
Dec 2016	7	2	0	9
Jan 2017	15	2	0	17
Feb 2017	14	1	1	16
Mar 2017	327	91	10	428
Apr 2017	80	65	10	155
May 2017	42	25	1	68
Jun 2017	39	14	1	54
Jul 2017	20	13	2	35
Aug 2017	12	10	1	23
Sep 2017	15	9	1	25
Oct 2017	7	7	0	14
Nov 2017	19	22	2	43
Dec 2017	8	7	0	15
Jan 2018	13	5	1	19
Feb 2018	13	7	0	20
Mar 2018	13	9	0	22
Apr 2018	4	11	0	15
May 2018	18	12	0	30
Jun 2018	11	10	2	23
Jul 2018	14	7	0	21
Aug 2018	17	10	0	27
Sep 2018	11	14	0	25
Oct 2018	8	6	0	14
Nov 2018	13	21	1	35
Dec 2018	13	8	0	21
Jan 2019	8	14	0	22
Feb 2019	9	9	0	18
Mar 2019	8	10	0	18
Apr 2019	5	13	1	19
May 2019	6	10	1	17
Jun 2019	8	11	0	19
Jul 2019	8	8	1	17
Aug 2019	6	7	0	13
Sep 2019	2	3	0	5
Oct 2019	9	10	1	20
Nov 2019	6	6	0	12
Dec 2019	3	3	0	6
Jan 2020	7	5	1	13
Feb 2020	7	5	0	12
Mar 2020	11	4	0	15
Apr 2020	5	6	1	12
May 2020	7	3	1	11
Jun 2020	10	12	1	23
Jul 2020	17	21	5	43
Aug 2020	7	8	3	18
Sep 2020	18	7	1	26
Oct 2020	12	11	2	25
Nov 2020	6	15	2	23
Dec 2020	11	8	1	20
Jan 2021	17	8	1	26
Feb 2021	15	9	2	26
Mar 2021	11	5	1	17
Apr 2021	12	7	1	20
May 2021	13	16	0	29
Jun 2021	5	9	1	15
Jul 2021	8	11	1	20
Aug 2021	16	13	0	29
Sep 2021	8	10	1	19
Oct 2021	7	23	0	30
Nov 2021	8	27	0	35
Dec 2021	11	16	2	29
Jan 2022	10	7	0	17
Feb 2022	13	6	2	21
Mar 2022	8	4	0	12
Apr 2022	7	4	1	12
May 2022	5	6	1	12
Jun 2022	8	5	2	15
Jul 2022	5	2	0	7
Aug 2022	7	9	0	16
Sep 2022	5	3	1	9
Oct 2022	11	7	1	19
Nov 2022	20	8	0	28
Dec 2022	15	6	0	21
Jan 2023	11	14	2	27
Feb 2023	13	5	1	19
Mar 2023	11	6	0	17
Apr 2023	27	4	0	31
May 2023	13	6	0	19
Jun 2023	11	6	1	18
Jul 2023	5	12	1	18
Aug 2023	13	6	2	21
Sep 2023	11	5	0	16
Oct 2023	8	3	2	13
Nov 2023	5	3	0	8
Dec 2023	13	4	1	18
Jan 2024	14	7	2	23
Feb 2024	14	6	1	21
Mar 2024	10	10	2	22
Apr 2024	8	6	1	15

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Short summary

Vegetation growth in semi-arid regions is an important sink for human-induced fossil fuel emissions of CO₂ and this study addresses the strong need for improved understanding and spatially explicit estimates of CO₂ uptake by semi-arid ecosystems. We show that a model incorporating photosynthetic parameters upscaled using satellite-based earth observation simulates CO₂ uptake well for the Sahel, one of the largest semi-arid regions in the world.

Modelling spatial and temporal dynamics of gross primary production in the Sahel from earth-observation-based photosynthetic capacity and quantum efficiency

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14 citations as recorded by crossref.

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