Continuous methane measurements from a late Holocene Greenland ice core: Atmospheric and in-situ signals

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Continuous methane measurements from a late Holocene Greenland ice core : Atmospheric and in-situ signals. / Rhodes, R.H.; Mitchell, L.E.; Brook, E.J.; Faïn, X.; Chappellaz, J.; Stowasser, C.; Blunier, T.; McConnell, J.R.; Romanini, D.

In: Earth and Planetary Science Letters, Vol. 368, 15.04.2013, p. 9-19.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Rhodes, RH, Mitchell, LE, Brook, EJ, Faïn, X, Chappellaz, J, Stowasser, C, Blunier, T, McConnell, JR & Romanini, D 2013, 'Continuous methane measurements from a late Holocene Greenland ice core: Atmospheric and in-situ signals', Earth and Planetary Science Letters, vol. 368, pp. 9-19. https://doi.org/10.1016/j.epsl.2013.02.034

APA

Rhodes, R. H., Mitchell, L. E., Brook, E. J., Faïn, X., Chappellaz, J., Stowasser, C., Blunier, T., McConnell, J. R., & Romanini, D. (2013). Continuous methane measurements from a late Holocene Greenland ice core: Atmospheric and in-situ signals. Earth and Planetary Science Letters, 368, 9-19. https://doi.org/10.1016/j.epsl.2013.02.034

Vancouver

Rhodes RH, Mitchell LE, Brook EJ, Faïn X, Chappellaz J, Stowasser C et al. Continuous methane measurements from a late Holocene Greenland ice core: Atmospheric and in-situ signals. Earth and Planetary Science Letters. 2013 Apr 15;368:9-19. https://doi.org/10.1016/j.epsl.2013.02.034

Author

Rhodes, R.H. ; Mitchell, L.E. ; Brook, E.J. ; Faïn, X. ; Chappellaz, J. ; Stowasser, C. ; Blunier, T. ; McConnell, J.R. ; Romanini, D. / Continuous methane measurements from a late Holocene Greenland ice core : Atmospheric and in-situ signals. In: Earth and Planetary Science Letters. 2013 ; Vol. 368. pp. 9-19.

Bibtex

@article{cedc072aff844bb9b2c3c0e3dc9b979d,
title = "Continuous methane measurements from a late Holocene Greenland ice core: Atmospheric and in-situ signals",
abstract = "Ancient air trapped inside bubbles in ice cores can now be analysed for methane concentration utilising a laser spectrometer coupled to a continuous melter system. We present a new ultra-high resolution record of atmospheric methane variability over the last 1800yr obtained from continuous analysis of a shallow ice core from the North Greenland Eemian project (NEEM-2011-S1) during a 4-week laboratory-based measurement campaign. Our record faithfully replicates the form and amplitudes of multi-decadal oscillations previously observed in other ice cores and demonstrates the detailed depth resolution (5.3cm), rapid acquisition time (30mday) and good long-term reproducibility (2.6%, 2s) of the continuous measurement technique.In addition, we report the detection of high frequency ice core methane signals of non-atmospheric origin. Firstly, measurements of air from the firn-ice transition region and an interval of ice core dating from 1546-1560 AD (gas age) resolve apparently quasi-annual scale methane oscillations. Traditional gas chromatography measurements on discrete ice samples confirm these signals and indicate peak-to-peak amplitudes of ca. 22 parts per billion (ppb). We hypothesise that these oscillations result from staggered bubble close-off between seasonal layers of contrasting density during time periods of sustained multi-year atmospheric methane change. Secondly, we report the detection of abrupt (20-100. cm depth interval), high amplitude (35-80. ppb excess) methane spikes in the NEEM ice that are reproduced by discrete measurements. We show for the first time that methane spikes present in thin and infrequent layers in polar, glacial ice are accompanied by elevated concentrations of carbon- and nitrogen-based chemical impurities, and suggest that biological in-situ production may be responsible.",
author = "R.H. Rhodes and L.E. Mitchell and E.J. Brook and X. Fa{\"i}n and J. Chappellaz and C. Stowasser and T. Blunier and J.R. McConnell and D. Romanini",
year = "2013",
month = apr,
day = "15",
doi = "10.1016/j.epsl.2013.02.034",
language = "English",
volume = "368",
pages = "9--19",
journal = "Earth and Planetary Science Letters",
issn = "0012-821X",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Continuous methane measurements from a late Holocene Greenland ice core

T2 - Atmospheric and in-situ signals

AU - Rhodes, R.H.

AU - Mitchell, L.E.

AU - Brook, E.J.

AU - Faïn, X.

AU - Chappellaz, J.

AU - Stowasser, C.

AU - Blunier, T.

AU - McConnell, J.R.

AU - Romanini, D.

PY - 2013/4/15

Y1 - 2013/4/15

N2 - Ancient air trapped inside bubbles in ice cores can now be analysed for methane concentration utilising a laser spectrometer coupled to a continuous melter system. We present a new ultra-high resolution record of atmospheric methane variability over the last 1800yr obtained from continuous analysis of a shallow ice core from the North Greenland Eemian project (NEEM-2011-S1) during a 4-week laboratory-based measurement campaign. Our record faithfully replicates the form and amplitudes of multi-decadal oscillations previously observed in other ice cores and demonstrates the detailed depth resolution (5.3cm), rapid acquisition time (30mday) and good long-term reproducibility (2.6%, 2s) of the continuous measurement technique.In addition, we report the detection of high frequency ice core methane signals of non-atmospheric origin. Firstly, measurements of air from the firn-ice transition region and an interval of ice core dating from 1546-1560 AD (gas age) resolve apparently quasi-annual scale methane oscillations. Traditional gas chromatography measurements on discrete ice samples confirm these signals and indicate peak-to-peak amplitudes of ca. 22 parts per billion (ppb). We hypothesise that these oscillations result from staggered bubble close-off between seasonal layers of contrasting density during time periods of sustained multi-year atmospheric methane change. Secondly, we report the detection of abrupt (20-100. cm depth interval), high amplitude (35-80. ppb excess) methane spikes in the NEEM ice that are reproduced by discrete measurements. We show for the first time that methane spikes present in thin and infrequent layers in polar, glacial ice are accompanied by elevated concentrations of carbon- and nitrogen-based chemical impurities, and suggest that biological in-situ production may be responsible.

AB - Ancient air trapped inside bubbles in ice cores can now be analysed for methane concentration utilising a laser spectrometer coupled to a continuous melter system. We present a new ultra-high resolution record of atmospheric methane variability over the last 1800yr obtained from continuous analysis of a shallow ice core from the North Greenland Eemian project (NEEM-2011-S1) during a 4-week laboratory-based measurement campaign. Our record faithfully replicates the form and amplitudes of multi-decadal oscillations previously observed in other ice cores and demonstrates the detailed depth resolution (5.3cm), rapid acquisition time (30mday) and good long-term reproducibility (2.6%, 2s) of the continuous measurement technique.In addition, we report the detection of high frequency ice core methane signals of non-atmospheric origin. Firstly, measurements of air from the firn-ice transition region and an interval of ice core dating from 1546-1560 AD (gas age) resolve apparently quasi-annual scale methane oscillations. Traditional gas chromatography measurements on discrete ice samples confirm these signals and indicate peak-to-peak amplitudes of ca. 22 parts per billion (ppb). We hypothesise that these oscillations result from staggered bubble close-off between seasonal layers of contrasting density during time periods of sustained multi-year atmospheric methane change. Secondly, we report the detection of abrupt (20-100. cm depth interval), high amplitude (35-80. ppb excess) methane spikes in the NEEM ice that are reproduced by discrete measurements. We show for the first time that methane spikes present in thin and infrequent layers in polar, glacial ice are accompanied by elevated concentrations of carbon- and nitrogen-based chemical impurities, and suggest that biological in-situ production may be responsible.

UR - http://www.scopus.com/inward/record.url?scp=84875819374&partnerID=8YFLogxK

U2 - 10.1016/j.epsl.2013.02.034

DO - 10.1016/j.epsl.2013.02.034

M3 - Journal article

AN - SCOPUS:84875819374

VL - 368

SP - 9

EP - 19

JO - Earth and Planetary Science Letters

JF - Earth and Planetary Science Letters

SN - 0012-821X

ER -

ID: 45588795