Calibrated cryo-cell UV-LA-ICPMS elemental concentrations from the NGRIP ice core reveal abrupt, sub-annual variability in dust across the GI-21.2 interstadial period

Della Lunga, Damiano; Müller, Wolfgang; Rasmussen, Sune Olander; Svensson, Anders; Vallelonga, Paul

doi:https://doi.org/10.5194/tc-11-1297-2017

Articles | Volume 11, issue 3

https://doi.org/10.5194/tc-11-1297-2017

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

https://doi.org/10.5194/tc-11-1297-2017

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

Articles | Volume 11, issue 3

Research article

|

31 May 2017

Research article |

| 31 May 2017

Calibrated cryo-cell UV-LA-ICPMS elemental concentrations from the NGRIP ice core reveal abrupt, sub-annual variability in dust across the GI-21.2 interstadial period

Damiano Della Lunga, Wolfgang Müller, Sune Olander Rasmussen, Anders Svensson, and Paul Vallelonga

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Apr 2019	14	25	4	43
May 2019	9	23	3	35
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Jan 2020	13	13	4	30
Feb 2020	9	9	7	25
Mar 2020	5	15	3	23
Apr 2020	4	3	3	10
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Jul 2020	54	87	41	182
Aug 2020	8	10	4	22
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Oct 2020	8	14	5	27
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Jan 2021	19	21	10	50
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Aug 2021	8	13	3	24
Sep 2021	14	20	2	36
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Nov 2021	14	30	6	50
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Apr 2022	5	9	3	17
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Jan 2023	17	18	2	37
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Apr 2023	29	9	2	40
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Jul 2023	19	6	1	26
Aug 2023	19	11	5	35
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Jan 2024	13	5	0	18
Feb 2024	10	12	1	23
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Apr 2024	28	5	4	37
May 2024	10	1	4	15

Cumulative views and downloads (calculated since 23 Nov 2016)

Month	HTML	PDF	XML	Total
Nov 2016	22	7	0	29
Dec 2016	24	6	1	31
Jan 2017	21	1	4	26
Feb 2017	31	1	11	43
Mar 2017	41	3	10	54
Apr 2017	36	4	9	49
May 2017	110	28	12	150
Jun 2017	179	34	22	235
Jul 2017	41	17	2	60
Aug 2017	18	17	0	35
Sep 2017	23	22	1	46
Oct 2017	12	22	1	35
Nov 2017	11	20	0	31
Dec 2017	15	35	1	51
Jan 2018	5	22	1	28
Feb 2018	23	25	3	51
Mar 2018	8	32	0	40
Apr 2018	12	23	2	37
May 2018	14	29	1	44
Jun 2018	7	32	1	40
Jul 2018	5	32	6	43
Aug 2018	16	31	0	47
Sep 2018	7	17	2	26
Oct 2018	8	31	6	45
Nov 2018	17	30	5	52
Dec 2018	10	20	2	32
Jan 2019	10	25	1	36
Feb 2019	12	14	3	29
Mar 2019	4	17	1	22
Apr 2019	14	25	4	43
May 2019	9	23	3	35
Jun 2019	13	28	1	42
Jul 2019	15	36	5	56
Aug 2019	5	28	3	36
Sep 2019	8	21	2	31
Oct 2019	5	22	3	30
Nov 2019	9	25	3	37
Dec 2019	16	15	1	32
Jan 2020	13	13	4	30
Feb 2020	9	9	7	25
Mar 2020	5	15	3	23
Apr 2020	4	3	3	10
May 2020	8	12	4	24
Jun 2020	13	12	1	26
Jul 2020	54	87	41	182
Aug 2020	8	10	4	22
Sep 2020	12	9	1	22
Oct 2020	8	14	5	27
Nov 2020	8	6	4	18
Dec 2020	6	12	3	21
Jan 2021	19	21	10	50
Feb 2021	7	10	5	22
Mar 2021	12	23	8	43
Apr 2021	8	12	3	23
May 2021	11	9	4	24
Jun 2021	15	10	3	28
Jul 2021	13	15	5	33
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Mar 2022	16	12	2	30
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Jun 2022	7	7	3	17
Jul 2022	6	13	2	21
Aug 2022	11	23	3	37
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Oct 2022	17	11	7	35
Nov 2022	13	15	4	32
Dec 2022	26	12	1	39
Jan 2023	17	18	2	37
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Mar 2023	31	15	0	46
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May 2023	22	13	1	36
Jun 2023	10	6	1	17
Jul 2023	19	6	1	26
Aug 2023	19	11	5	35
Sep 2023	16	9	2	27
Oct 2023	17	8	3	28
Nov 2023	9	6	0	15
Dec 2023	21	12	2	35
Jan 2024	13	5	0	18
Feb 2024	10	12	1	23
Mar 2024	16	30	2	48
Apr 2024	28	5	4	37
May 2024	10	1	4	15

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Short summary

In our study we combined the wealth of information provided by Greenland ice cores with an ultra-high-resolution technique well known in geoscience (laser ablation). Our set-up was developed and applied to investigate the variability in concentration of ions across a rapid climatic change from the oldest part of the last glaciation, showing that concentrations drop abruptly from cold to warm periods, representing a shift in atmospheric transport that happens even faster than previously thought.

Calibrated cryo-cell UV-LA-ICPMS elemental concentrations from the NGRIP ice core reveal abrupt, sub-annual variability in dust across the GI-21.2 interstadial period

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13 citations as recorded by crossref.

13 citations as recorded by crossref.


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