Instantaneous sea ice drift speed from TanDEM-X interferometry

Dammann, Dyre Oliver; Eriksson, Leif E. B.; Jones, Joshua M.; Mahoney, Andrew R.; Romeiser, Roland; Meyer, Franz J.; Eicken, Hajo; Fukamachi, Yasushi

doi:https://doi.org/10.5194/tc-13-1395-2019

Articles | Volume 13, issue 4

https://doi.org/10.5194/tc-13-1395-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/tc-13-1395-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 13, issue 4

Research article

|

29 Apr 2019

Research article |

| 29 Apr 2019

Instantaneous sea ice drift speed from TanDEM-X interferometry

Dyre Oliver Dammann, Leif E. B. Eriksson, Joshua M. Jones, Andrew R. Mahoney, Roland Romeiser, Franz J. Meyer, Hajo Eicken, and Yasushi Fukamachi

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Total article views: 2,551 (including HTML, PDF, and XML)

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PDF: 942
XML: 67
Total: 2,551
Supplement: 102
BibTeX: 65
EndNote: 72

Views and downloads (calculated since 07 Dec 2018)

Month	HTML	PDF	XML	Total
Dec 2018	168	40	3	211
Jan 2019	41	24	0	65
Feb 2019	26	12	0	38
Mar 2019	8	10	0	18
Apr 2019	93	39	2	134
May 2019	80	23	1	104
Jun 2019	48	22	0	70
Jul 2019	25	19	0	44
Aug 2019	13	10	0	23
Sep 2019	15	14	0	29
Oct 2019	23	18	2	43
Nov 2019	11	16	0	27
Dec 2019	24	6	0	30
Jan 2020	31	13	4	48
Feb 2020	12	8	0	20
Mar 2020	8	10	1	19
Apr 2020	18	12	0	30
May 2020	29	13	1	43
Jun 2020	25	15	1	41
Jul 2020	64	58	7	129
Aug 2020	22	9	3	34
Sep 2020	11	11	1	23
Oct 2020	10	12	0	22
Nov 2020	5	13	1	19
Dec 2020	18	12	2	32
Jan 2021	22	15	1	38
Feb 2021	11	11	0	22
Mar 2021	8	12	1	21
Apr 2021	13	12	0	25
May 2021	14	14	2	30
Jun 2021	20	13	1	34
Jul 2021	10	19	0	29
Aug 2021	15	19	1	35
Sep 2021	15	15	0	30
Oct 2021	7	41	0	48
Nov 2021	10	23	0	33
Dec 2021	15	17	0	32
Jan 2022	18	10	0	28
Feb 2022	12	9	2	23
Mar 2022	13	9	0	22
Apr 2022	22	20	0	42
May 2022	14	16	1	31
Jun 2022	12	4	1	17
Jul 2022	22	10	0	32
Aug 2022	44	10	0	54
Sep 2022	13	10	1	24
Oct 2022	38	6	1	45
Nov 2022	45	15	1	61
Dec 2022	12	8	1	21
Jan 2023	17	10	1	28
Feb 2023	27	15	0	42
Mar 2023	31	12	2	45
Apr 2023	12	6	0	18
May 2023	22	18	1	41
Jun 2023	9	8	1	18
Jul 2023	15	16	1	32
Aug 2023	14	5	4	23
Sep 2023	47	12	1	60
Oct 2023	10	6	2	18
Nov 2023	9	1	0	10
Dec 2023	20	5	1	26
Jan 2024	20	8	0	28
Feb 2024	3	14	1	18
Mar 2024	21	22	4	47
Apr 2024	12	7	5	24

Cumulative views and downloads (calculated since 07 Dec 2018)

Month	HTML	PDF	XML	Total
Dec 2018	168	40	3	211
Jan 2019	41	24	0	65
Feb 2019	26	12	0	38
Mar 2019	8	10	0	18
Apr 2019	93	39	2	134
May 2019	80	23	1	104
Jun 2019	48	22	0	70
Jul 2019	25	19	0	44
Aug 2019	13	10	0	23
Sep 2019	15	14	0	29
Oct 2019	23	18	2	43
Nov 2019	11	16	0	27
Dec 2019	24	6	0	30
Jan 2020	31	13	4	48
Feb 2020	12	8	0	20
Mar 2020	8	10	1	19
Apr 2020	18	12	0	30
May 2020	29	13	1	43
Jun 2020	25	15	1	41
Jul 2020	64	58	7	129
Aug 2020	22	9	3	34
Sep 2020	11	11	1	23
Oct 2020	10	12	0	22
Nov 2020	5	13	1	19
Dec 2020	18	12	2	32
Jan 2021	22	15	1	38
Feb 2021	11	11	0	22
Mar 2021	8	12	1	21
Apr 2021	13	12	0	25
May 2021	14	14	2	30
Jun 2021	20	13	1	34
Jul 2021	10	19	0	29
Aug 2021	15	19	1	35
Sep 2021	15	15	0	30
Oct 2021	7	41	0	48
Nov 2021	10	23	0	33
Dec 2021	15	17	0	32
Jan 2022	18	10	0	28
Feb 2022	12	9	2	23
Mar 2022	13	9	0	22
Apr 2022	22	20	0	42
May 2022	14	16	1	31
Jun 2022	12	4	1	17
Jul 2022	22	10	0	32
Aug 2022	44	10	0	54
Sep 2022	13	10	1	24
Oct 2022	38	6	1	45
Nov 2022	45	15	1	61
Dec 2022	12	8	1	21
Jan 2023	17	10	1	28
Feb 2023	27	15	0	42
Mar 2023	31	12	2	45
Apr 2023	12	6	0	18
May 2023	22	18	1	41
Jun 2023	9	8	1	18
Jul 2023	15	16	1	32
Aug 2023	14	5	4	23
Sep 2023	47	12	1	60
Oct 2023	10	6	2	18
Nov 2023	9	1	0	10
Dec 2023	20	5	1	26
Jan 2024	20	8	0	28
Feb 2024	3	14	1	18
Mar 2024	21	22	4	47
Apr 2024	12	7	5	24

Viewed (geographical distribution)

Total article views: 2,551 (including HTML, PDF, and XML) Thereof 2,092 with geography defined and 459 with unknown origin.

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1

1

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Latest update: 18 Apr 2024

Short summary

We evaluate single-pass synthetic aperture radar interferometry (InSAR) as a tool to assess sea ice drift and deformation. Initial validation shows that TanDEM-X phase-derived drift speed corresponds well with ground-based radar-derived motion. We further show that InSAR enables the identification of potentially important short-lived dynamic processes otherwise difficult to observe, with possible implication for engineering and sea ice modeling.

Instantaneous sea ice drift speed from TanDEM-X interferometry

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5 citations as recorded by crossref.

5 citations as recorded by crossref.


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