Derived Optimal Linear Combination Evapotranspiration (DOLCE): a global gridded synthesis ET estimate

Hobeichi, Sanaa; Abramowitz, Gab; Evans, Jason; Ukkola, Anna

doi:10.5194/hess-22-1317-2018

Articles | Volume 22, issue 2

https://doi.org/10.5194/hess-22-1317-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/hess-22-1317-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 22, issue 2

Research article

|

21 Feb 2018

Research article |

| 21 Feb 2018

Derived Optimal Linear Combination Evapotranspiration (DOLCE): a global gridded synthesis ET estimate

Sanaa Hobeichi, Gab Abramowitz, Jason Evans, and Anna Ukkola

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Total article views: 5,992 (including HTML, PDF, and XML)

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3,907	1,936	149	5,992	1,055	133	192

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XML: 149
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Supplement: 1,055
BibTeX: 133
EndNote: 192

Views and downloads (calculated since 03 Apr 2017)

Month	HTML	PDF	XML	Total
Apr 2017	453	93	7	553
May 2017	93	37	8	138
Jun 2017	45	4	7	56
Jul 2017	27	5	1	33
Aug 2017	16	8	0	24
Sep 2017	17	11	0	28
Oct 2017	10	6	0	16
Nov 2017	19	4	0	23
Dec 2017	11	10	1	22
Jan 2018	18	10	0	28
Feb 2018	209	71	10	290
Mar 2018	113	107	0	220
Apr 2018	24	22	0	46
May 2018	72	41	0	113
Jun 2018	57	27	2	86
Jul 2018	33	30	0	63
Aug 2018	31	21	1	53
Sep 2018	27	18	2	47
Oct 2018	29	16	0	45
Nov 2018	23	17	3	43
Dec 2018	25	17	5	47
Jan 2019	22	9	1	32
Feb 2019	20	16	1	37
Mar 2019	13	14	0	27
Apr 2019	14	5	0	19
May 2019	18	7	3	28
Jun 2019	28	13	2	43
Jul 2019	15	8	1	24
Aug 2019	22	19	0	41
Sep 2019	35	11	0	46
Oct 2019	53	47	1	101
Nov 2019	14	6	0	20
Dec 2019	15	13	1	29
Jan 2020	16	8	2	26
Feb 2020	17	10	1	28
Mar 2020	14	14	0	28
Apr 2020	18	10	0	28
May 2020	18	6	2	26
Jun 2020	29	15	0	44
Jul 2020	27	25	3	55
Aug 2020	19	17	1	37
Sep 2020	47	38	0	85
Oct 2020	13	11	1	25
Nov 2020	14	20	1	35
Dec 2020	15	11	1	27
Jan 2021	26	15	0	41
Feb 2021	18	17	1	36
Mar 2021	18	10	0	28
Apr 2021	10	18	0	28
May 2021	20	19	0	39
Jun 2021	31	18	1	50
Jul 2021	22	27	0	49
Aug 2021	27	17	0	44
Sep 2021	22	15	0	37
Oct 2021	26	40	0	66
Nov 2021	25	33	0	58
Dec 2021	30	6	1	37
Jan 2022	27	20	0	47
Feb 2022	19	12	2	33
Mar 2022	17	12	1	30
Apr 2022	40	10	2	52
May 2022	19	10	1	30
Jun 2022	21	9	2	32
Jul 2022	25	9	1	35
Aug 2022	80	10	0	90
Sep 2022	48	10	1	59
Oct 2022	26	10	2	38
Nov 2022	68	12	2	82
Dec 2022	55	16	0	71
Jan 2023	55	19	0	74
Feb 2023	31	10	0	41
Mar 2023	47	20	5	72
Apr 2023	28	12	2	42
May 2023	23	15	0	38
Jun 2023	29	9	0	38
Jul 2023	25	15	7	47
Aug 2023	15	5	1	21
Sep 2023	18	9	1	28
Oct 2023	28	13	1	42
Nov 2023	15	7	1	23
Dec 2023	43	11	3	57
Jan 2024	25	13	0	38
Feb 2024	25	12	1	38
Mar 2024	27	28	2	57
Apr 2024	25	8	4	37
May 2024	24	19	3	46
Jun 2024	71	16	2	89
Jul 2024	33	8	3	44
Aug 2024	55	6	3	64
Sep 2024	31	5	0	36
Oct 2024	24	15	1	40
Nov 2024	23	12	4	39
Dec 2024	35	12	3	50
Jan 2025	25	12	3	40
Feb 2025	40	19	0	59
Mar 2025	80	17	1	98
Apr 2025	61	58	1	120
May 2025	56	22	1	79
Jun 2025	58	41	2	101
Jul 2025	28	32	2	62
Aug 2025	49	41	4	94
Sep 2025	85	18	1	104
Oct 2025	42	56	1	99
Nov 2025	40	18	0	58

Cumulative views and downloads (calculated since 03 Apr 2017)

Month	HTML	PDF	XML	Total
Apr 2017	453	93	7	553
May 2017	93	37	8	138
Jun 2017	45	4	7	56
Jul 2017	27	5	1	33
Aug 2017	16	8	0	24
Sep 2017	17	11	0	28
Oct 2017	10	6	0	16
Nov 2017	19	4	0	23
Dec 2017	11	10	1	22
Jan 2018	18	10	0	28
Feb 2018	209	71	10	290
Mar 2018	113	107	0	220
Apr 2018	24	22	0	46
May 2018	72	41	0	113
Jun 2018	57	27	2	86
Jul 2018	33	30	0	63
Aug 2018	31	21	1	53
Sep 2018	27	18	2	47
Oct 2018	29	16	0	45
Nov 2018	23	17	3	43
Dec 2018	25	17	5	47
Jan 2019	22	9	1	32
Feb 2019	20	16	1	37
Mar 2019	13	14	0	27
Apr 2019	14	5	0	19
May 2019	18	7	3	28
Jun 2019	28	13	2	43
Jul 2019	15	8	1	24
Aug 2019	22	19	0	41
Sep 2019	35	11	0	46
Oct 2019	53	47	1	101
Nov 2019	14	6	0	20
Dec 2019	15	13	1	29
Jan 2020	16	8	2	26
Feb 2020	17	10	1	28
Mar 2020	14	14	0	28
Apr 2020	18	10	0	28
May 2020	18	6	2	26
Jun 2020	29	15	0	44
Jul 2020	27	25	3	55
Aug 2020	19	17	1	37
Sep 2020	47	38	0	85
Oct 2020	13	11	1	25
Nov 2020	14	20	1	35
Dec 2020	15	11	1	27
Jan 2021	26	15	0	41
Feb 2021	18	17	1	36
Mar 2021	18	10	0	28
Apr 2021	10	18	0	28
May 2021	20	19	0	39
Jun 2021	31	18	1	50
Jul 2021	22	27	0	49
Aug 2021	27	17	0	44
Sep 2021	22	15	0	37
Oct 2021	26	40	0	66
Nov 2021	25	33	0	58
Dec 2021	30	6	1	37
Jan 2022	27	20	0	47
Feb 2022	19	12	2	33
Mar 2022	17	12	1	30
Apr 2022	40	10	2	52
May 2022	19	10	1	30
Jun 2022	21	9	2	32
Jul 2022	25	9	1	35
Aug 2022	80	10	0	90
Sep 2022	48	10	1	59
Oct 2022	26	10	2	38
Nov 2022	68	12	2	82
Dec 2022	55	16	0	71
Jan 2023	55	19	0	74
Feb 2023	31	10	0	41
Mar 2023	47	20	5	72
Apr 2023	28	12	2	42
May 2023	23	15	0	38
Jun 2023	29	9	0	38
Jul 2023	25	15	7	47
Aug 2023	15	5	1	21
Sep 2023	18	9	1	28
Oct 2023	28	13	1	42
Nov 2023	15	7	1	23
Dec 2023	43	11	3	57
Jan 2024	25	13	0	38
Feb 2024	25	12	1	38
Mar 2024	27	28	2	57
Apr 2024	25	8	4	37
May 2024	24	19	3	46
Jun 2024	71	16	2	89
Jul 2024	33	8	3	44
Aug 2024	55	6	3	64
Sep 2024	31	5	0	36
Oct 2024	24	15	1	40
Nov 2024	23	12	4	39
Dec 2024	35	12	3	50
Jan 2025	25	12	3	40
Feb 2025	40	19	0	59
Mar 2025	80	17	1	98
Apr 2025	61	58	1	120
May 2025	56	22	1	79
Jun 2025	58	41	2	101
Jul 2025	28	32	2	62
Aug 2025	49	41	4	94
Sep 2025	85	18	1	104
Oct 2025	42	56	1	99
Nov 2025	40	18	0	58

Viewed (geographical distribution)

Total article views: 5,992 (including HTML, PDF, and XML) Thereof 5,755 with geography defined and 237 with unknown origin.

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1

1

Latest update: 22 Nov 2025

Short summary

We present a new global ET dataset and associated uncertainty with monthly temporal resolution for 2000–2009 and 0.5 grid cell size. Six existing gridded ET products are combined using a weighting approach trained by observational datasets from 159 FLUXNET sites. We confirm that point-based estimates of flux towers provide information at the grid scale of these products. We also show that the weighted product performs better than 10 different existing global ET datasets in a range of metrics.


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