Daily global fire radiative power fields estimation from one or two MODIS instruments

Remy, S.; Kaiser, J. W.

doi:https://doi.org/10.5194/acp-14-13377-2014

Articles | Volume 14, issue 24

https://doi.org/10.5194/acp-14-13377-2014

© Author(s) 2014. This work is distributed under
the Creative Commons Attribution 3.0 License.

Special issue:

Monitoring atmospheric composition and climate, research in...

https://doi.org/10.5194/acp-14-13377-2014

© Author(s) 2014. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 14, issue 24

Research article

|

16 Dec 2014

Research article |

| 16 Dec 2014

Daily global fire radiative power fields estimation from one or two MODIS instruments

S. Remy and J. W. Kaiser

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Total article views: 2,907 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
1,366	1,146	395	2,907	84	95

HTML: 1,366
PDF: 1,146
XML: 395
Total: 2,907
BibTeX: 84
EndNote: 95

Views and downloads (calculated since 12 Aug 2014)

Month	HTML	PDF	XML	Total
Aug 2014	86	67	1	154
Sep 2014	30	21	6	57
Oct 2014	16	40	3	59
Nov 2014	6	13	3	22
Dec 2014	88	94	5	187
Jan 2015	19	46	7	72
Feb 2015	32	18	3	53
Mar 2015	30	11	1	42
Apr 2015	22	11	0	33
May 2015	18	16	1	35
Jun 2015	35	31	4	70
Jul 2015	36	21	2	59
Aug 2015	12	7	2	21
Sep 2015	5	11	1	17
Oct 2015	25	11	10	46
Nov 2015	38	25	11	74
Dec 2015	5	16	3	24
Jan 2016	32	20	2	54
Feb 2016	28	12	4	44
Mar 2016	20	11	0	31
Apr 2016	3	5	0	8
May 2016	9	5	0	14
Jun 2016	3	1	0	4
Jul 2016	8	4	4	16
Aug 2016	6	5	1	12
Sep 2016	11	4	0	15
Oct 2016	9	1	2	12
Nov 2016	8	4	1	13
Dec 2016	4	7	0	11
Jan 2017	14	8	5	27
Feb 2017	11	14	8	33
Mar 2017	16	14	12	42
Apr 2017	22	18	11	51
May 2017	22	10	8	40
Jun 2017	25	4	10	39
Jul 2017	14	8	3	25
Aug 2017	9	27	6	42
Sep 2017	8	23	7	38
Oct 2017	6	20	6	32
Nov 2017	11	22	8	41
Dec 2017	7	11	8	26
Jan 2018	11	8	8	27
Feb 2018	8	4	11	23
Mar 2018	10	9	7	26
Apr 2018	8	8	5	21
May 2018	9	9	6	24
Jun 2018	7	12	12	31
Jul 2018	6	9	10	25
Aug 2018	12	8	4	24
Sep 2018	8	11	6	25
Oct 2018	9	10	13	32
Nov 2018	20	8	8	36
Dec 2018	9	9	6	24
Jan 2019	9	5	2	16
Feb 2019	6	3	3	12
Mar 2019	4	6	2	12
Apr 2019	8	5	0	13
May 2019	6	10	2	18
Jun 2019	6	5	1	12
Jul 2019	13	8	1	22
Aug 2019	7	9	3	19
Sep 2019	1	3	4
Oct 2019	6	3	4	13
Nov 2019	4	2	1	7
Dec 2019	4	3	3	10
Jan 2020	9	5	1	15
Feb 2020	3	3	3	9
Mar 2020	1	1	0	2
Apr 2020	3	4	2	9
May 2020	3	4	1	8
Jun 2020	18	2	3	23
Jul 2020	16	7	12	35
Aug 2020	12	6	6	24
Sep 2020	8	10	0	18
Oct 2020	3	2	3	8
Nov 2020	4	5	3	12
Dec 2020	12	9	5	26
Jan 2021	15	3	9	27
Feb 2021	17	2	7	26
Mar 2021	22	6	4	32
Apr 2021	13	4	5	22
May 2021	8	5	6	19
Jun 2021	4	7	5	16
Jul 2021	14	13	5	32
Aug 2021	8	9	6	23
Sep 2021	7	5	1	13
Oct 2021	10	39	7	56
Nov 2021	13	20	3	36
Dec 2021	10	12	1	23
Jan 2022	8	10	0	18
Feb 2022	8	6	3	17
Mar 2022	4	3	0	7
Apr 2022	8	3	1	12
May 2022	2	3	0	5
Jun 2022	2	0	2
Jul 2022	3	1	0	4
Aug 2022	8	5	0	13
Sep 2022	3	2	1	6
Oct 2022	11	4	2	17
Nov 2022	13	7	0	20
Dec 2022	6	3	0	9
Jan 2023	4	10	0	14
Feb 2023	14	7	0	21
Mar 2023	11	7	0	18
Apr 2023	5	2	0	7
May 2023	23	9	0	32

Cumulative views and downloads (calculated since 12 Aug 2014)

Month	HTML	PDF	XML	Total
Aug 2014	86	67	1	154
Sep 2014	30	21	6	57
Oct 2014	16	40	3	59
Nov 2014	6	13	3	22
Dec 2014	88	94	5	187
Jan 2015	19	46	7	72
Feb 2015	32	18	3	53
Mar 2015	30	11	1	42
Apr 2015	22	11	0	33
May 2015	18	16	1	35
Jun 2015	35	31	4	70
Jul 2015	36	21	2	59
Aug 2015	12	7	2	21
Sep 2015	5	11	1	17
Oct 2015	25	11	10	46
Nov 2015	38	25	11	74
Dec 2015	5	16	3	24
Jan 2016	32	20	2	54
Feb 2016	28	12	4	44
Mar 2016	20	11	0	31
Apr 2016	3	5	0	8
May 2016	9	5	0	14
Jun 2016	3	1	0	4
Jul 2016	8	4	4	16
Aug 2016	6	5	1	12
Sep 2016	11	4	0	15
Oct 2016	9	1	2	12
Nov 2016	8	4	1	13
Dec 2016	4	7	0	11
Jan 2017	14	8	5	27
Feb 2017	11	14	8	33
Mar 2017	16	14	12	42
Apr 2017	22	18	11	51
May 2017	22	10	8	40
Jun 2017	25	4	10	39
Jul 2017	14	8	3	25
Aug 2017	9	27	6	42
Sep 2017	8	23	7	38
Oct 2017	6	20	6	32
Nov 2017	11	22	8	41
Dec 2017	7	11	8	26
Jan 2018	11	8	8	27
Feb 2018	8	4	11	23
Mar 2018	10	9	7	26
Apr 2018	8	8	5	21
May 2018	9	9	6	24
Jun 2018	7	12	12	31
Jul 2018	6	9	10	25
Aug 2018	12	8	4	24
Sep 2018	8	11	6	25
Oct 2018	9	10	13	32
Nov 2018	20	8	8	36
Dec 2018	9	9	6	24
Jan 2019	9	5	2	16
Feb 2019	6	3	3	12
Mar 2019	4	6	2	12
Apr 2019	8	5	0	13
May 2019	6	10	2	18
Jun 2019	6	5	1	12
Jul 2019	13	8	1	22
Aug 2019	7	9	3	19
Sep 2019	1	3	4
Oct 2019	6	3	4	13
Nov 2019	4	2	1	7
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Jan 2020	9	5	1	15
Feb 2020	3	3	3	9
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May 2020	3	4	1	8
Jun 2020	18	2	3	23
Jul 2020	16	7	12	35
Aug 2020	12	6	6	24
Sep 2020	8	10	0	18
Oct 2020	3	2	3	8
Nov 2020	4	5	3	12
Dec 2020	12	9	5	26
Jan 2021	15	3	9	27
Feb 2021	17	2	7	26
Mar 2021	22	6	4	32
Apr 2021	13	4	5	22
May 2021	8	5	6	19
Jun 2021	4	7	5	16
Jul 2021	14	13	5	32
Aug 2021	8	9	6	23
Sep 2021	7	5	1	13
Oct 2021	10	39	7	56
Nov 2021	13	20	3	36
Dec 2021	10	12	1	23
Jan 2022	8	10	0	18
Feb 2022	8	6	3	17
Mar 2022	4	3	0	7
Apr 2022	8	3	1	12
May 2022	2	3	0	5
Jun 2022	2	0	2
Jul 2022	3	1	0	4
Aug 2022	8	5	0	13
Sep 2022	3	2	1	6
Oct 2022	11	4	2	17
Nov 2022	13	7	0	20
Dec 2022	6	3	0	9
Jan 2023	4	10	0	14
Feb 2023	14	7	0	21
Mar 2023	11	7	0	18
Apr 2023	5	2	0	7
May 2023	23	9	0	32

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Short summary

This paper describes a method to correct the bias in daily fire radiative power (FRP) observations from any low Earth orbit satellite, so that that the budget of daily smoke emissions remains independent of the number of satellites from which FRP observations are taken into account. This ensures the possibility of running a system assimilating observations from several sensors, e.g. the Global Fire Assimilation System (GFAS), in case of failure of one of the MODIS instruments.

Daily global fire radiative power fields estimation from one or two MODIS instruments

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