Earth's surface mass transport derived from GRACE, evaluated by GPS, ICESat, hydrological modeling and altimetry satellite orbits

Gruber, Christian; Rudenko, Sergei; Groh, Andreas; Ampatzidis, Dimitrios; Fagiolini, Elisa

doi:https://doi.org/10.5194/esurf-6-1203-2018

Articles | Volume 6, issue 4

https://doi.org/10.5194/esurf-6-1203-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/esurf-6-1203-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 6, issue 4

Research article

|

07 Dec 2018

Research article |

| 07 Dec 2018

Earth's surface mass transport derived from GRACE, evaluated by GPS, ICESat, hydrological modeling and altimetry satellite orbits

Christian Gruber, Sergei Rudenko, Andreas Groh, Dimitrios Ampatzidis, and Elisa Fagiolini

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Views and downloads (calculated since 12 Jan 2018)

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May 2018	34	6	1	41
Jun 2018	18	6	1	25
Jul 2018	11	5	0	16
Aug 2018	14	5	1	20
Sep 2018	25	10	0	35
Oct 2018	18	5	1	24
Nov 2018	13	9	0	22
Dec 2018	272	54	2	328
Jan 2019	223	27	1	251
Feb 2019	54	9	0	63
Mar 2019	26	14	1	41
Apr 2019	18	8	3	29
May 2019	23	6	1	30
Jun 2019	29	11	3	43
Jul 2019	22	5	1	28
Aug 2019	23	15	3	41
Sep 2019	12	7	0	19
Oct 2019	17	16	1	34
Nov 2019	20	21	1	42
Dec 2019	27	24	2	53
Jan 2020	25	4	0	29
Feb 2020	19	6	0	25
Mar 2020	11	8	1	20
Apr 2020	17	10	0	27
May 2020	26	8	0	34
Jun 2020	34	24	4	62
Jul 2020	53	59	16	128
Aug 2020	9	7	2	18
Sep 2020	27	15	0	42
Oct 2020	33	17	0	50
Nov 2020	31	17	0	48
Dec 2020	37	18	1	56
Jan 2021	47	24	0	71
Feb 2021	38	21	0	59
Mar 2021	40	22	1	63
Apr 2021	37	22	0	59
May 2021	40	22	0	62
Jun 2021	24	10	1	35
Jul 2021	22	15	0	37
Aug 2021	35	13	0	48
Sep 2021	40	16	0	56
Oct 2021	29	42	0	71
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Dec 2021	13	12	2	27
Jan 2022	16	23	0	39
Feb 2022	15	13	2	30
Mar 2022	18	14	1	33
Apr 2022	14	8	0	22
May 2022	13	5	1	19
Jun 2022	13	3	3	19
Jul 2022	21	7	0	28
Aug 2022	40	5	0	45
Sep 2022	12	5	4	21
Oct 2022	13	4	3	20
Nov 2022	9	16	0	25
Dec 2022	11	4	2	17
Jan 2023	8	13	0	21
Feb 2023	15	6	1	22
Mar 2023	13	4	1	18
Apr 2023	8	6	0	14
May 2023	9	9	2	20
Jun 2023	5	5	2	12
Jul 2023	7	4	1	12
Aug 2023	3	1	1	5
Sep 2023	17	17	1	35
Oct 2023	22	3	0	25
Nov 2023	5	2	0	7
Dec 2023	19	8	3	30
Jan 2024	12	3	0	15
Feb 2024	9	4	1	14
Mar 2024	4	11	1	16
Apr 2024	16	11	3	30
May 2024	24	13	3	40
Jun 2024	85	15	8	108
Jul 2024	10	6	3	19

Cumulative views and downloads (calculated since 12 Jan 2018)

Month	HTML	PDF	XML	Total
Jan 2018	183	27	5	215
Feb 2018	125	8	15	148
Mar 2018	58	9	1	68
Apr 2018	32	10	2	44
May 2018	34	6	1	41
Jun 2018	18	6	1	25
Jul 2018	11	5	0	16
Aug 2018	14	5	1	20
Sep 2018	25	10	0	35
Oct 2018	18	5	1	24
Nov 2018	13	9	0	22
Dec 2018	272	54	2	328
Jan 2019	223	27	1	251
Feb 2019	54	9	0	63
Mar 2019	26	14	1	41
Apr 2019	18	8	3	29
May 2019	23	6	1	30
Jun 2019	29	11	3	43
Jul 2019	22	5	1	28
Aug 2019	23	15	3	41
Sep 2019	12	7	0	19
Oct 2019	17	16	1	34
Nov 2019	20	21	1	42
Dec 2019	27	24	2	53
Jan 2020	25	4	0	29
Feb 2020	19	6	0	25
Mar 2020	11	8	1	20
Apr 2020	17	10	0	27
May 2020	26	8	0	34
Jun 2020	34	24	4	62
Jul 2020	53	59	16	128
Aug 2020	9	7	2	18
Sep 2020	27	15	0	42
Oct 2020	33	17	0	50
Nov 2020	31	17	0	48
Dec 2020	37	18	1	56
Jan 2021	47	24	0	71
Feb 2021	38	21	0	59
Mar 2021	40	22	1	63
Apr 2021	37	22	0	59
May 2021	40	22	0	62
Jun 2021	24	10	1	35
Jul 2021	22	15	0	37
Aug 2021	35	13	0	48
Sep 2021	40	16	0	56
Oct 2021	29	42	0	71
Nov 2021	29	30	2	61
Dec 2021	13	12	2	27
Jan 2022	16	23	0	39
Feb 2022	15	13	2	30
Mar 2022	18	14	1	33
Apr 2022	14	8	0	22
May 2022	13	5	1	19
Jun 2022	13	3	3	19
Jul 2022	21	7	0	28
Aug 2022	40	5	0	45
Sep 2022	12	5	4	21
Oct 2022	13	4	3	20
Nov 2022	9	16	0	25
Dec 2022	11	4	2	17
Jan 2023	8	13	0	21
Feb 2023	15	6	1	22
Mar 2023	13	4	1	18
Apr 2023	8	6	0	14
May 2023	9	9	2	20
Jun 2023	5	5	2	12
Jul 2023	7	4	1	12
Aug 2023	3	1	1	5
Sep 2023	17	17	1	35
Oct 2023	22	3	0	25
Nov 2023	5	2	0	7
Dec 2023	19	8	3	30
Jan 2024	12	3	0	15
Feb 2024	9	4	1	14
Mar 2024	4	11	1	16
Apr 2024	16	11	3	30
May 2024	24	13	3	40
Jun 2024	85	15	8	108
Jul 2024	10	6	3	19

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Short summary

By using a set of evaluation methods involving GPS, ICESat, hydrological modelling and altimetry satellite orbits, we show that the novel radial basis function (RBF) processing technique can be used for processing the Gravity Recovery and Climate Experiment (GRACE) data yielding global gravity field models which fit independent reference values at the same level as commonly accepted global geopotential models based on spherical harmonics.

Earth's surface mass transport derived from GRACE, evaluated by GPS, ICESat, hydrological modeling and altimetry satellite orbits

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2 citations as recorded by crossref.

2 citations as recorded by crossref.


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