Quantifying nutrient fluxes with a new hyporheic passive flux meter (HPFM)

Kunz, Julia Vanessa; Annable, Michael D.; Cho, Jaehyun; von Tümpling, Wolf; Hatfield, Kirk; Rao, Suresh; Borchardt, Dietrich; Rode, Michael

doi:https://doi.org/10.5194/bg-14-631-2017

Articles | Volume 14, issue 3

https://doi.org/10.5194/bg-14-631-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/bg-14-631-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 14, issue 3

Research article

|

09 Feb 2017

Research article |

| 09 Feb 2017

Quantifying nutrient fluxes with a new hyporheic passive flux meter (HPFM)

Julia Vanessa Kunz, Michael D. Annable, Jaehyun Cho, Wolf von Tümpling, Kirk Hatfield, Suresh Rao, Dietrich Borchardt, and Michael Rode

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Nov 2017	7	17	4	28
Dec 2017	11	22	5	38
Jan 2018	7	16	3	26
Feb 2018	9	16	4	29
Mar 2018	13	22	5	40
Apr 2018	15	21	3	39
May 2018	13	14	5	32
Jun 2018	20	31	3	54
Jul 2018	17	18	4	39
Aug 2018	22	20	5	47
Sep 2018	15	21	4	40
Oct 2018	14	26	5	45
Nov 2018	12	19	4	35
Dec 2018	9	17	9	35
Jan 2019	11	18	3	32
Feb 2019	12	18	3	33
Mar 2019	7	25	6	38
Apr 2019	11	19	11	41
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Jun 2019	9	17	6	32
Jul 2019	6	18	2	26
Aug 2019	8	10	7	25
Sep 2019	5	17	6	28
Oct 2019	4	13	3	20
Nov 2019	7	9	3	19
Dec 2019	4	9	2	15
Jan 2020	13	17	5	35
Feb 2020	7	8	1	16
Mar 2020	8	18	1	27
Apr 2020	17	18	5	40
May 2020	8	5	4	17
Jun 2020	19	18	3	40
Jul 2020	24	34	9	67
Aug 2020	9	16	6	31
Sep 2020	24	19	2	45
Oct 2020	16	11	3	30
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Dec 2020	18	18	3	39
Jan 2021	29	18	4	51
Feb 2021	23	15	7	45
Mar 2021	14	9	3	26
Apr 2021	10	22	7	39
May 2021	16	13	6	35
Jun 2021	13	11	3	27
Jul 2021	7	18	4	29
Aug 2021	12	22	9	43
Sep 2021	12	19	2	33
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Nov 2021	19	38	4	61
Dec 2021	13	16	1	30
Jan 2022	17	8	0	25
Feb 2022	10	13	6	29
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Apr 2022	16	14	1	31
May 2022	7	33	4	44
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Feb 2023	7	4	4	15
Mar 2023	11	3	1	15
Apr 2023	22	7	0	29
May 2023	16	8	2	26
Jun 2023	9	4	1	14
Jul 2023	6	6	1	13
Aug 2023	7	3	3	13
Sep 2023	6	3	0	9
Oct 2023	10	5	1	16
Nov 2023	9	3	0	12
Dec 2023	14	6	2	22
Jan 2024	10	6	1	17
Feb 2024	7	8	1	16
Mar 2024	14	9	3	26
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Cumulative views and downloads (calculated since 19 Aug 2016)

Month	HTML	PDF	XML	Total
Aug 2016	85	12	3	100
Sep 2016	37	9	0	46
Oct 2016	23	3	0	26
Nov 2016	4	2	0	6
Dec 2016	6	2	0	8
Jan 2017	5	9	0	14
Feb 2017	73	25	10	108
Mar 2017	35	34	7	76
Apr 2017	30	35	4	69
May 2017	36	35	4	75
Jun 2017	25	27	5	57
Jul 2017	27	31	5	63
Aug 2017	9	30	6	45
Sep 2017	15	16	2	33
Oct 2017	9	17	3	29
Nov 2017	7	17	4	28
Dec 2017	11	22	5	38
Jan 2018	7	16	3	26
Feb 2018	9	16	4	29
Mar 2018	13	22	5	40
Apr 2018	15	21	3	39
May 2018	13	14	5	32
Jun 2018	20	31	3	54
Jul 2018	17	18	4	39
Aug 2018	22	20	5	47
Sep 2018	15	21	4	40
Oct 2018	14	26	5	45
Nov 2018	12	19	4	35
Dec 2018	9	17	9	35
Jan 2019	11	18	3	32
Feb 2019	12	18	3	33
Mar 2019	7	25	6	38
Apr 2019	11	19	11	41
May 2019	10	17	3	30
Jun 2019	9	17	6	32
Jul 2019	6	18	2	26
Aug 2019	8	10	7	25
Sep 2019	5	17	6	28
Oct 2019	4	13	3	20
Nov 2019	7	9	3	19
Dec 2019	4	9	2	15
Jan 2020	13	17	5	35
Feb 2020	7	8	1	16
Mar 2020	8	18	1	27
Apr 2020	17	18	5	40
May 2020	8	5	4	17
Jun 2020	19	18	3	40
Jul 2020	24	34	9	67
Aug 2020	9	16	6	31
Sep 2020	24	19	2	45
Oct 2020	16	11	3	30
Nov 2020	18	20	11	49
Dec 2020	18	18	3	39
Jan 2021	29	18	4	51
Feb 2021	23	15	7	45
Mar 2021	14	9	3	26
Apr 2021	10	22	7	39
May 2021	16	13	6	35
Jun 2021	13	11	3	27
Jul 2021	7	18	4	29
Aug 2021	12	22	9	43
Sep 2021	12	19	2	33
Oct 2021	6	36	0	42
Nov 2021	19	38	4	61
Dec 2021	13	16	1	30
Jan 2022	17	8	0	25
Feb 2022	10	13	6	29
Mar 2022	11	19	4	34
Apr 2022	16	14	1	31
May 2022	7	33	4	44
Jun 2022	12	22	4	38
Jul 2022	10	9	0	19
Aug 2022	8	9	0	17
Sep 2022	14	28	9	51
Oct 2022	16	25	3	44
Nov 2022	20	12	0	32
Dec 2022	13	9	2	24
Jan 2023	12	10	2	24
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Mar 2023	11	3	1	15
Apr 2023	22	7	0	29
May 2023	16	8	2	26
Jun 2023	9	4	1	14
Jul 2023	6	6	1	13
Aug 2023	7	3	3	13
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Oct 2023	10	5	1	16
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Dec 2023	14	6	2	22
Jan 2024	10	6	1	17
Feb 2024	7	8	1	16
Mar 2024	14	9	3	26
Apr 2024	3	3	0	6

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Short summary

The hyporheic zone, the subsurface region of streams, is a key compartment for in-stream nutrient retention. Knowledge on actual hyporheic processing rates is still limited due to methodological restrictions which are mainly related to the high local and temporal variability of subsurface flow patterns and nutrient transformation processes. We present a new device which allows quantitative assessment of hyporheic nutrient fluxes and demonstrate its advantages in an exemplary field testing.

Quantifying nutrient fluxes with a new hyporheic passive flux meter (HPFM)

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6 citations as recorded by crossref.

6 citations as recorded by crossref.


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