Very strong atmospheric methane growth in the 4 Years 2014–2017: Implications for the Paris Agreement

E. G. Nisbet; M. R. Manning; E. J. Dlugokencky; R. E. Fisher; D. Lowry; S. E. Michel; C. Lund Myhre; S. M. Platt; G. Allen; P. Bousquet; R. Brownlow; M. Cain; J. L. France; O. Hermansen; R. Hossaini; A. E. Jones; I. Levin; A. C. Manning; G. Myhre; J. A. Pyle; B. H. Vaughn; N. J. Warwick; J. W. C. White

doi:10.1029/2018GB006009

Very strong atmospheric methane growth in the 4 Years 2014–2017: Implications for the Paris Agreement

E. G. Nisbet, M. R. Manning, E. J. Dlugokencky, R. E. Fisher, D. Lowry, S. E. Michel, C. Lund Myhre, S. M. Platt, G. Allen, P. Bousquet, R. Brownlow, M. Cain, J. L. France, O. Hermansen, R. Hossaini, A. E. Jones, I. Levin, A. C. Manning, G. Myhre, J. A. PyleB. H. Vaughn, N. J. Warwick, J. W. C. White

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Abstract

Atmospheric methane grew very rapidly in 2014 (12.7 ± 0.5 ppb/year), 2015 (10.1 ± 0.7 ppb/year), 2016 (7.0 ± 0.7 ppb/year), and 2017 (7.7 ± 0.7 ppb/year), at rates not observed since the 1980s. The increase in the methane burden began in 2007, with the mean global mole fraction in remote surface background air rising from about 1,775 ppb in 2006 to 1,850 ppb in 2017. Simultaneously the ¹³ C/ ¹² C isotopic ratio (expressed as δ ¹³ C _CH4 ) has shifted, has shifted, now trending negative for more than a decade. The causes of methane's recent mole fraction increase are therefore either a change in the relative proportions (and totals) of emissions from biogenic and thermogenic and pyrogenic sources, especially in the tropics and subtropics, or a decline in the atmospheric sink of methane, or both. Unfortunately, with limited measurement data sets, it is not currently possible to be more definitive. The climate warming impact of the observed methane increase over the past decade, if continued at >5 ppb/year in the coming decades, is sufficient to challenge the Paris Agreement, which requires sharp cuts in the atmospheric methane burden. However, anthropogenic methane emissions are relatively very large and thus offer attractive targets for rapid reduction, which are essential if the Paris Agreement aims are to be attained.

Original language	English
Pages (from-to)	318-342
Number of pages	25
Journal	Global Biogeochemical Cycles
Volume	33
Issue number	3
Early online date	5 Feb 2019
DOIs	https://doi.org/10.1029/2018GB006009
Publication status	Published - Mar 2019

Keywords

atmospheric methane
fossil fuel methane emissions
methane isotopes
OH destruction of methane
Paris Agreement
wetland methane emissions

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1029/2018GB006009Licence: CC BY

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Cite this

Nisbet, E. G., Manning, M. R., Dlugokencky, E. J., Fisher, R. E., Lowry, D., Michel, S. E., Myhre, C. L., Platt, S. M., Allen, G., Bousquet, P., Brownlow, R., Cain, M., France, J. L., Hermansen, O., Hossaini, R., Jones, A. E., Levin, I., Manning, A. C., Myhre, G., ... White, J. W. C. (2019). Very strong atmospheric methane growth in the 4 Years 2014–2017: Implications for the Paris Agreement. Global Biogeochemical Cycles, 33(3), 318-342. https://doi.org/10.1029/2018GB006009

@article{11cbec405b4a4bccad4aee70024c0fdd,

title = "Very strong atmospheric methane growth in the 4 Years 2014–2017: Implications for the Paris Agreement",

abstract = " Atmospheric methane grew very rapidly in 2014 (12.7 ± 0.5 ppb/year), 2015 (10.1 ± 0.7 ppb/year), 2016 (7.0 ± 0.7 ppb/year), and 2017 (7.7 ± 0.7 ppb/year), at rates not observed since the 1980s. The increase in the methane burden began in 2007, with the mean global mole fraction in remote surface background air rising from about 1,775 ppb in 2006 to 1,850 ppb in 2017. Simultaneously the 13 C/ 12 C isotopic ratio (expressed as δ 13 C CH4 ) has shifted, has shifted, now trending negative for more than a decade. The causes of methane's recent mole fraction increase are therefore either a change in the relative proportions (and totals) of emissions from biogenic and thermogenic and pyrogenic sources, especially in the tropics and subtropics, or a decline in the atmospheric sink of methane, or both. Unfortunately, with limited measurement data sets, it is not currently possible to be more definitive. The climate warming impact of the observed methane increase over the past decade, if continued at >5 ppb/year in the coming decades, is sufficient to challenge the Paris Agreement, which requires sharp cuts in the atmospheric methane burden. However, anthropogenic methane emissions are relatively very large and thus offer attractive targets for rapid reduction, which are essential if the Paris Agreement aims are to be attained. ",

keywords = "atmospheric methane, fossil fuel methane emissions, methane isotopes, OH destruction of methane, Paris Agreement, wetland methane emissions",

author = "Nisbet, {E. G.} and Manning, {M. R.} and Dlugokencky, {E. J.} and Fisher, {R. E.} and D. Lowry and Michel, {S. E.} and Myhre, {C. Lund} and Platt, {S. M.} and G. Allen and P. Bousquet and R. Brownlow and M. Cain and France, {J. L.} and O. Hermansen and R. Hossaini and Jones, {A. E.} and I. Levin and Manning, {A. C.} and G. Myhre and Pyle, {J. A.} and Vaughn, {B. H.} and Warwick, {N. J.} and White, {J. W. C.}",

year = "2019",

month = mar,

doi = "10.1029/2018GB006009",

language = "English",

volume = "33",

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Nisbet, EG, Manning, MR, Dlugokencky, EJ, Fisher, RE, Lowry, D, Michel, SE, Myhre, CL, Platt, SM, Allen, G, Bousquet, P, Brownlow, R, Cain, M, France, JL, Hermansen, O, Hossaini, R, Jones, AE, Levin, I, Manning, AC, Myhre, G, Pyle, JA, Vaughn, BH, Warwick, NJ & White, JWC 2019, 'Very strong atmospheric methane growth in the 4 Years 2014–2017: Implications for the Paris Agreement', Global Biogeochemical Cycles, vol. 33, no. 3, pp. 318-342. https://doi.org/10.1029/2018GB006009

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AU - Nisbet, E. G.

AU - Manning, M. R.

AU - Dlugokencky, E. J.

AU - Fisher, R. E.

AU - Lowry, D.

AU - Michel, S. E.

AU - Myhre, C. Lund

AU - Platt, S. M.

AU - Allen, G.

AU - Bousquet, P.

AU - Brownlow, R.

AU - Cain, M.

AU - France, J. L.

AU - Hermansen, O.

AU - Hossaini, R.

AU - Jones, A. E.

AU - Levin, I.

AU - Manning, A. C.

AU - Myhre, G.

AU - Pyle, J. A.

AU - Vaughn, B. H.

AU - Warwick, N. J.

AU - White, J. W. C.

PY - 2019/3

Y1 - 2019/3

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AB - Atmospheric methane grew very rapidly in 2014 (12.7 ± 0.5 ppb/year), 2015 (10.1 ± 0.7 ppb/year), 2016 (7.0 ± 0.7 ppb/year), and 2017 (7.7 ± 0.7 ppb/year), at rates not observed since the 1980s. The increase in the methane burden began in 2007, with the mean global mole fraction in remote surface background air rising from about 1,775 ppb in 2006 to 1,850 ppb in 2017. Simultaneously the 13 C/ 12 C isotopic ratio (expressed as δ 13 C CH4 ) has shifted, has shifted, now trending negative for more than a decade. The causes of methane's recent mole fraction increase are therefore either a change in the relative proportions (and totals) of emissions from biogenic and thermogenic and pyrogenic sources, especially in the tropics and subtropics, or a decline in the atmospheric sink of methane, or both. Unfortunately, with limited measurement data sets, it is not currently possible to be more definitive. The climate warming impact of the observed methane increase over the past decade, if continued at >5 ppb/year in the coming decades, is sufficient to challenge the Paris Agreement, which requires sharp cuts in the atmospheric methane burden. However, anthropogenic methane emissions are relatively very large and thus offer attractive targets for rapid reduction, which are essential if the Paris Agreement aims are to be attained.

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KW - fossil fuel methane emissions

KW - methane isotopes

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Very strong atmospheric methane growth in the 4 Years 2014–2017: Implications for the Paris Agreement

Abstract

Keywords

UN SDGs

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Andrew Manning

Closing The Global Methane Budget - NERC Highlight Topics - October 2015

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Very strong atmospheric methane growth in the 4 Years 2014–2017: Implications for the Paris Agreement

Abstract

Keywords

UN SDGs

Access to Document

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Profiles

Andrew Manning

Projects

Closing The Global Methane Budget - NERC Highlight Topics - October 2015

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