Geophysically based analysis of breakthrough curves and  ion exchange processes in soil

Ben Moshe, Shany; Kessouri, Pauline; Erlich, Dana; Furman, Alex

doi:10.5194/hess-25-3041-2021

Articles | Volume 25, issue 6

https://doi.org/10.5194/hess-25-3041-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/hess-25-3041-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 25, issue 6

Research article

|

08 Jun 2021

Research article |

| 08 Jun 2021

Geophysically based analysis of breakthrough curves and ion exchange processes in soil

Shany Ben Moshe, Pauline Kessouri, Dana Erlich, and Alex Furman

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Total article views: 4,104 (including HTML, PDF, and XML)

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Views and downloads (calculated since 17 Sep 2020)

Month	HTML	PDF	XML	Total
Sep 2020	173	22	0	195
Oct 2020	36	13	1	50
Nov 2020	21	8	1	30
Dec 2020	19	7	1	27
Jan 2021	5	3	0	8
Feb 2021	12	1	0	13
Mar 2021	9	2	0	11
Apr 2021	5	3	0	8
May 2021	8	3	0	11
Jun 2021	171	53	3	227
Jul 2021	37	14	2	53
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Oct 2021	19	52	1	72
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Apr 2022	16	14	0	30
May 2022	19	8	1	28
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Jul 2022	39	9	2	50
Aug 2022	60	9	0	69
Sep 2022	37	10	0	47
Oct 2022	17	5	3	25
Nov 2022	32	6	0	38
Dec 2022	36	9	0	45
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Jun 2023	26	8	1	35
Jul 2023	39	16	4	59
Aug 2023	32	10	1	43
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Oct 2023	25	12	0	37
Nov 2023	19	4	1	24
Dec 2023	20	3	2	25
Jan 2024	92	8	2	102
Feb 2024	32	11	0	43
Mar 2024	15	16	0	31
Apr 2024	29	16	4	49
May 2024	22	10	6	38
Jun 2024	47	13	2	62
Jul 2024	118	7	2	127
Aug 2024	31	15	3	49
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Oct 2024	29	11	2	42
Nov 2024	25	10	0	35
Dec 2024	37	9	2	48
Jan 2025	20	15	0	35
Feb 2025	33	16	0	49
Mar 2025	43	12	2	57
Apr 2025	74	16	1	91
May 2025	41	9	1	51
Jun 2025	59	32	1	92
Jul 2025	31	20	1	52
Aug 2025	39	26	3	68
Sep 2025	109	22	3	134
Oct 2025	78	31	0	109
Nov 2025	66	26	3	95
Dec 2025	75	44	3	122
Jan 2026	147	35	9	191
Feb 2026	172	21	2	195
Mar 2026	62	49	5	116
Apr 2026	54	64	10	128
May 2026	18	10	1	29

Cumulative views and downloads (calculated since 17 Sep 2020)

Month	HTML	PDF	XML	Total
Sep 2020	173	22	0	195
Oct 2020	36	13	1	50
Nov 2020	21	8	1	30
Dec 2020	19	7	1	27
Jan 2021	5	3	0	8
Feb 2021	12	1	0	13
Mar 2021	9	2	0	11
Apr 2021	5	3	0	8
May 2021	8	3	0	11
Jun 2021	171	53	3	227
Jul 2021	37	14	2	53
Aug 2021	36	21	0	57
Sep 2021	23	33	0	56
Oct 2021	19	52	1	72
Nov 2021	18	36	1	55
Dec 2021	22	18	0	40
Jan 2022	22	20	3	45
Feb 2022	23	7	1	31
Mar 2022	16	7	0	23
Apr 2022	16	14	0	30
May 2022	19	8	1	28
Jun 2022	13	9	1	23
Jul 2022	39	9	2	50
Aug 2022	60	9	0	69
Sep 2022	37	10	0	47
Oct 2022	17	5	3	25
Nov 2022	32	6	0	38
Dec 2022	36	9	0	45
Jan 2023	12	16	2	30
Feb 2023	25	26	0	51
Mar 2023	46	17	2	65
Apr 2023	12	5	0	17
May 2023	26	11	2	39
Jun 2023	26	8	1	35
Jul 2023	39	16	4	59
Aug 2023	32	10	1	43
Sep 2023	32	15	2	49
Oct 2023	25	12	0	37
Nov 2023	19	4	1	24
Dec 2023	20	3	2	25
Jan 2024	92	8	2	102
Feb 2024	32	11	0	43
Mar 2024	15	16	0	31
Apr 2024	29	16	4	49
May 2024	22	10	6	38
Jun 2024	47	13	2	62
Jul 2024	118	7	2	127
Aug 2024	31	15	3	49
Sep 2024	17	5	1	23
Oct 2024	29	11	2	42
Nov 2024	25	10	0	35
Dec 2024	37	9	2	48
Jan 2025	20	15	0	35
Feb 2025	33	16	0	49
Mar 2025	43	12	2	57
Apr 2025	74	16	1	91
May 2025	41	9	1	51
Jun 2025	59	32	1	92
Jul 2025	31	20	1	52
Aug 2025	39	26	3	68
Sep 2025	109	22	3	134
Oct 2025	78	31	0	109
Nov 2025	66	26	3	95
Dec 2025	75	44	3	122
Jan 2026	147	35	9	191
Feb 2026	172	21	2	195
Mar 2026	62	49	5	116
Apr 2026	54	64	10	128
May 2026	18	10	1	29

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Short summary

A non-invasive geophysical method (spectral induced polarization, SIP) was used to characterize and predict solute transport patterns in soil columns. Our results show that SIP-based breakthrough curve (BTC) analysis is superior over conventional outflow-based analysis as it can characterize system heterogeneity and is superior over electrical-conductivity-based analysis as it is capable of distinguishing between the adsorption end-members without the need for sampling.