Contextualizing time-series data: quantification of short-term regional variability in the San Pedro Channel using high-resolution in situ glider data

Teel, Elizabeth N.; Liu, Xiao; Seegers, Bridget N.; Ragan, Matthew A.; Haskell, William Z.; Jones, Burton H.; Levine, Naomi M.

doi:10.5194/bg-15-6151-2018

Articles | Volume 15, issue 20

https://doi.org/10.5194/bg-15-6151-2018

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

https://doi.org/10.5194/bg-15-6151-2018

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

Articles | Volume 15, issue 20

Research article

|

19 Oct 2018

Research article |

| 19 Oct 2018

Contextualizing time-series data: quantification of short-term regional variability in the San Pedro Channel using high-resolution in situ glider data

Elizabeth N. Teel, Xiao Liu, Bridget N. Seegers, Matthew A. Ragan, William Z. Haskell, Burton H. Jones, and Naomi M. Levine

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Month	HTML	PDF	XML	Total
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Jan 2018	12	7	0	19
Feb 2018	27	15	7	49
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Apr 2018	14	15	0	29
May 2018	9	14	0	23
Jun 2018	12	13	0	25
Jul 2018	5	13	0	18
Aug 2018	11	17	0	28
Sep 2018	12	10	0	22
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Dec 2018	20	17	2	39
Jan 2019	13	14	0	27
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Mar 2019	14	15	0	29
Apr 2019	15	15	0	30
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Jul 2019	7	5	0	12
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Oct 2019	24	22	1	47
Nov 2019	9	11	0	20
Dec 2019	12	8	1	21
Jan 2020	19	8	1	28
Feb 2020	14	5	0	19
Mar 2020	13	6	0	19
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May 2020	7	5	1	13
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Aug 2020	7	9	4	20
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Oct 2020	7	15	3	25
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Dec 2020	6	9	2	17
Jan 2021	22	13	1	36
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Mar 2022	8	4	0	12
Apr 2022	10	5	1	16
May 2022	5	2	0	7
Jun 2022	5	4	3	12
Jul 2022	15	6	1	22
Aug 2022	74	3	0	77
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Jan 2023	35	5	0	40
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May 2023	10	14	1	25
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Sep 2024	21	3	0	24
Oct 2024	14	2	1	17
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Dec 2024	12	3	2	17
Jan 2025	22	9	1	32
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Mar 2025	16	6	1	23
Apr 2025	15	14	1	30
May 2025	35	5	1	41
Jun 2025	52	10	0	62
Jul 2025	26	13	2	41
Aug 2025	49	18	3	70
Sep 2025	57	26	1	84
Oct 2025	45	29	3	77
Nov 2025	38	21	12	71
Dec 2025	32	25	7	64
Jan 2026	38	20	7	65

Cumulative views and downloads (calculated since 20 Nov 2017)

Month	HTML	PDF	XML	Total
Nov 2017	107	19	3	129
Dec 2017	11	11	0	22
Jan 2018	12	7	0	19
Feb 2018	27	15	7	49
Mar 2018	17	22	1	40
Apr 2018	14	15	0	29
May 2018	9	14	0	23
Jun 2018	12	13	0	25
Jul 2018	5	13	0	18
Aug 2018	11	17	0	28
Sep 2018	12	10	0	22
Oct 2018	204	46	3	253
Nov 2018	31	21	1	53
Dec 2018	20	17	2	39
Jan 2019	13	14	0	27
Feb 2019	7	10	1	18
Mar 2019	14	15	0	29
Apr 2019	15	15	0	30
May 2019	24	12	0	36
Jun 2019	28	10	0	38
Jul 2019	7	5	0	12
Aug 2019	8	10	1	19
Sep 2019	6	4	0	10
Oct 2019	24	22	1	47
Nov 2019	9	11	0	20
Dec 2019	12	8	1	21
Jan 2020	19	8	1	28
Feb 2020	14	5	0	19
Mar 2020	13	6	0	19
Apr 2020	5	6	2	13
May 2020	7	5	1	13
Jun 2020	13	9	1	23
Jul 2020	18	18	4	40
Aug 2020	7	9	4	20
Sep 2020	15	11	1	27
Oct 2020	7	15	3	25
Nov 2020	4	8	0	12
Dec 2020	6	9	2	17
Jan 2021	22	13	1	36
Feb 2021	11	8	2	21
Mar 2021	8	3	1	12
Apr 2021	9	8	1	18
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Jun 2021	1	4	0	5
Jul 2021	4	15	0	19
Aug 2021	6	5	0	11
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Jan 2022	7	10	1	18
Feb 2022	8	3	3	14
Mar 2022	8	4	0	12
Apr 2022	10	5	1	16
May 2022	5	2	0	7
Jun 2022	5	4	3	12
Jul 2022	15	6	1	22
Aug 2022	74	3	0	77
Sep 2022	4	1	0	5
Oct 2022	10	4	1	15
Nov 2022	30	8	0	38
Dec 2022	33	8	0	41
Jan 2023	35	5	0	40
Feb 2023	40	5	1	46
Mar 2023	41	4	1	46
Apr 2023	10	4	0	14
May 2023	10	14	1	25
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Aug 2023	6	7	2	15
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Oct 2023	8	6	0	14
Nov 2023	8	4	0	12
Dec 2023	8	1	0	9
Jan 2024	5	7	1	13
Feb 2024	9	6	0	15
Mar 2024	7	12	1	20
Apr 2024	12	9	4	25
May 2024	21	8	3	32
Jun 2024	44	6	2	52
Jul 2024	43	8	3	54
Aug 2024	37	5	3	45
Sep 2024	21	3	0	24
Oct 2024	14	2	1	17
Nov 2024	11	5	1	17
Dec 2024	12	3	2	17
Jan 2025	22	9	1	32
Feb 2025	23	11	4	38
Mar 2025	16	6	1	23
Apr 2025	15	14	1	30
May 2025	35	5	1	41
Jun 2025	52	10	0	62
Jul 2025	26	13	2	41
Aug 2025	49	18	3	70
Sep 2025	57	26	1	84
Oct 2025	45	29	3	77
Nov 2025	38	21	12	71
Dec 2025	32	25	7	64
Jan 2026	38	20	7	65

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Short summary

Time-series sites have been instrumental in providing insight into how the ocean functions. However, to extrapolate the results from a single site to a larger region, the dynamics at the site must be placed into the context of regional-scale dynamics. We develop a framework for determining the spatial domain of a time-series site using high-resolution data. This framework quantifies the representativeness of the site and can be used to improve sampling to better capture the dynamics at the site.


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