Improved understanding of the Senegal floodplain socio-hydrosystems with multi-scalar earth observations

Ogilvie, Andrew; Poussin, Jean-Christophe; Bader, Jean-Claude; Martin, Didier; Ndiaye, Gora; Dia, Djiby

doi:https://doi.org/10.5194/piahs-383-255-2020

Articles | Volume 383

https://doi.org/10.5194/piahs-383-255-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/piahs-383-255-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 383

Post-conference publication

|

16 Sep 2020

Post-conference publication |

| 16 Sep 2020

Improved understanding of the Senegal floodplain socio-hydrosystems with multi-scalar earth observations

Andrew Ogilvie, Jean-Christophe Poussin, Jean-Claude Bader, Didier Martin, Gora Ndiaye, and Djiby Dia

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Sep 2020	21	19	1	41
Oct 2020	16	12	1	29
Nov 2020	4	7	0	11
Dec 2020	6	6	0	12
Jan 2021	5	6	0	11
Feb 2021	2	1	0	3
Mar 2021	4	1	0	5
Apr 2021	1	2	0	3
May 2021	9	6	1	16
Jun 2021	6	1	0	7
Jul 2021	6	3	0	9
Aug 2021	4	0	4
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Oct 2021	12	18	0	30
Nov 2021	15	15	2	32
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Jan 2022	10	4	0	14
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Apr 2022	5	4	1	10
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Jun 2022	9	2	0	11
Jul 2022	5	2	0	7
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Jan 2024	20	2	1	23
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Mar 2024	6	4	1	11
Apr 2024	1	3	1	5

Cumulative views and downloads (calculated since 16 Sep 2020)

Month	HTML	PDF	XML	Total
Sep 2020	21	19	1	41
Oct 2020	16	12	1	29
Nov 2020	4	7	0	11
Dec 2020	6	6	0	12
Jan 2021	5	6	0	11
Feb 2021	2	1	0	3
Mar 2021	4	1	0	5
Apr 2021	1	2	0	3
May 2021	9	6	1	16
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Jul 2021	6	3	0	9
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Sep 2021	8	8	0	16
Oct 2021	12	18	0	30
Nov 2021	15	15	2	32
Dec 2021	9	2	0	11
Jan 2022	10	4	0	14
Feb 2022	6	2	0	8
Mar 2022	5	4	1	10
Apr 2022	5	4	1	10
May 2022	4	2	0	6
Jun 2022	9	2	0	11
Jul 2022	5	2	0	7
Aug 2022	16	5	1	22
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Jun 2023	11	5	1	17
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Aug 2023	3	1	0	4
Sep 2023	6	5	1	12
Oct 2023	3	2	0	5
Nov 2023	6	3	0	9
Dec 2023	3	1	1	5
Jan 2024	20	2	1	23
Feb 2024	7	5	0	12
Mar 2024	6	4	1	11
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Short summary

Rising availability of remote sensing imagery provide novel opportunities to improve the understanding of the hydrology of multiple water bodies. The analysis of 443 Landsat images between 1984–2017 and 48 Sentinel-2 images between 2015–2017 confirms the possibility of monitoring floods within individual depressions of the Senegal River floodplain. First results based on in situ data also reveal the potential to refine hydrological relationships between the water height and the flooded area.


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