A model of mercury cycling and isotopic fractionation in the ocean

Archer, David E.; Blum, Joel D.

doi:https://doi.org/10.5194/bg-15-6297-2018

Articles | Volume 15, issue 20

https://doi.org/10.5194/bg-15-6297-2018

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

Special issue:

Progress in quantifying ocean biogeochemistry – in honour...

https://doi.org/10.5194/bg-15-6297-2018

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

Articles | Volume 15, issue 20

Research article

|

26 Oct 2018

Research article |

| 26 Oct 2018

A model of mercury cycling and isotopic fractionation in the ocean

David E. Archer and Joel D. Blum

Viewed

Total article views: 2,969 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
1,843	1,070	56	2,969	103	46	60

HTML: 1,843
PDF: 1,070
XML: 56
Total: 2,969
Supplement: 103
BibTeX: 46
EndNote: 60

Views and downloads (calculated since 07 Mar 2018)

Month	HTML	PDF	XML	Total
Mar 2018	162	28	2	192
Apr 2018	28	7	0	35
May 2018	11	5	0	16
Jun 2018	6	5	0	11
Jul 2018	2	4	0	6
Aug 2018	15	15	1	31
Sep 2018	7	6	0	13
Oct 2018	150	37	2	189
Nov 2018	95	24	1	120
Dec 2018	26	15	3	44
Jan 2019	26	22	2	50
Feb 2019	15	14	0	29
Mar 2019	15	12	0	27
Apr 2019	21	9	0	30
May 2019	28	13	0	41
Jun 2019	44	14	0	58
Jul 2019	19	14	0	33
Aug 2019	11	8	0	19
Sep 2019	9	12	0	21
Oct 2019	56	25	1	82
Nov 2019	17	13	0	30
Dec 2019	19	12	1	32
Jan 2020	14	12	1	27
Feb 2020	18	10	0	28
Mar 2020	10	14	1	25
Apr 2020	10	10	2	22
May 2020	16	10	1	27
Jun 2020	20	13	1	34
Jul 2020	60	26	3	89
Aug 2020	34	125	3	162
Sep 2020	20	83	1	104
Oct 2020	13	17	1	31
Nov 2020	11	21	0	32
Dec 2020	14	9	2	25
Jan 2021	34	17	1	52
Feb 2021	16	12	1	29
Mar 2021	12	17	1	30
Apr 2021	14	7	0	21
May 2021	13	12	0	25
Jun 2021	6	8	0	14
Jul 2021	11	11	0	22
Aug 2021	11	14	0	25
Sep 2021	8	7	0	15
Oct 2021	9	32	0	41
Nov 2021	17	34	0	51
Dec 2021	18	9	0	27
Jan 2022	18	11	1	30
Feb 2022	18	19	3	40
Mar 2022	22	13	0	35
Apr 2022	23	10	1	34
May 2022	12	10	0	22
Jun 2022	11	3	0	14
Jul 2022	38	1	0	39
Aug 2022	127	5	0	132
Sep 2022	43	6	1	50
Oct 2022	16	4	0	20
Nov 2022	35	12	1	48
Dec 2022	42	12	0	54
Jan 2023	35	10	0	45
Feb 2023	41	8	2	51
Mar 2023	34	6	2	42
Apr 2023	12	8	0	20
May 2023	10	9	0	19
Jun 2023	13	7	1	21
Jul 2023	5	5	0	10
Aug 2023	9	4	2	15
Sep 2023	9	8	0	17
Oct 2023	13	8	1	22
Nov 2023	9	8	1	18
Dec 2023	11	5	1	17
Jan 2024	11	5	1	17
Feb 2024	12	9	0	21
Mar 2024	9	11	1	21
Apr 2024	14	9	5	28

Cumulative views and downloads (calculated since 07 Mar 2018)

Month	HTML	PDF	XML	Total
Mar 2018	162	28	2	192
Apr 2018	28	7	0	35
May 2018	11	5	0	16
Jun 2018	6	5	0	11
Jul 2018	2	4	0	6
Aug 2018	15	15	1	31
Sep 2018	7	6	0	13
Oct 2018	150	37	2	189
Nov 2018	95	24	1	120
Dec 2018	26	15	3	44
Jan 2019	26	22	2	50
Feb 2019	15	14	0	29
Mar 2019	15	12	0	27
Apr 2019	21	9	0	30
May 2019	28	13	0	41
Jun 2019	44	14	0	58
Jul 2019	19	14	0	33
Aug 2019	11	8	0	19
Sep 2019	9	12	0	21
Oct 2019	56	25	1	82
Nov 2019	17	13	0	30
Dec 2019	19	12	1	32
Jan 2020	14	12	1	27
Feb 2020	18	10	0	28
Mar 2020	10	14	1	25
Apr 2020	10	10	2	22
May 2020	16	10	1	27
Jun 2020	20	13	1	34
Jul 2020	60	26	3	89
Aug 2020	34	125	3	162
Sep 2020	20	83	1	104
Oct 2020	13	17	1	31
Nov 2020	11	21	0	32
Dec 2020	14	9	2	25
Jan 2021	34	17	1	52
Feb 2021	16	12	1	29
Mar 2021	12	17	1	30
Apr 2021	14	7	0	21
May 2021	13	12	0	25
Jun 2021	6	8	0	14
Jul 2021	11	11	0	22
Aug 2021	11	14	0	25
Sep 2021	8	7	0	15
Oct 2021	9	32	0	41
Nov 2021	17	34	0	51
Dec 2021	18	9	0	27
Jan 2022	18	11	1	30
Feb 2022	18	19	3	40
Mar 2022	22	13	0	35
Apr 2022	23	10	1	34
May 2022	12	10	0	22
Jun 2022	11	3	0	14
Jul 2022	38	1	0	39
Aug 2022	127	5	0	132
Sep 2022	43	6	1	50
Oct 2022	16	4	0	20
Nov 2022	35	12	1	48
Dec 2022	42	12	0	54
Jan 2023	35	10	0	45
Feb 2023	41	8	2	51
Mar 2023	34	6	2	42
Apr 2023	12	8	0	20
May 2023	10	9	0	19
Jun 2023	13	7	1	21
Jul 2023	5	5	0	10
Aug 2023	9	4	2	15
Sep 2023	9	8	0	17
Oct 2023	13	8	1	22
Nov 2023	9	8	1	18
Dec 2023	11	5	1	17
Jan 2024	11	5	1	17
Feb 2024	12	9	0	21
Mar 2024	9	11	1	21
Apr 2024	14	9	5	28

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Short summary

Humans have had a huge impact on the mercury cycle in the biosphere, but it is difficult to follow the mercury cycle because mercury has so many mobile forms, as gases in the atmosphere and solutes in water. Mercury isotopes constrain mercury fluxes and sources, because mercury has many stable isotopes, and different fractionation mechanisms have different fingerprints in those isotopic compositions. We present the first model of mercury isotopic composition in the ocean.

A model of mercury cycling and isotopic fractionation in the ocean

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14 citations as recorded by crossref.

14 citations as recorded by crossref.


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