Renewed growth of atmospheric methane

Matthew Rigby; R.G Prinn; P.J Fraser; P.G Simmonds; R.L Langenfelds; J Huang; D.M Cunnold; L.P Steele; P.B Krummel; R.F Weiss; S.J O'Doherty; P.K Salameh; H.J Wang; C.M Harth; J Muhle; L.W Porter

doi:10.1029/2008GL036037

Renewed growth of atmospheric methane

Matthew Rigby, R.G Prinn, P.J Fraser, P.G Simmonds, R.L Langenfelds, J Huang, D.M Cunnold, L.P Steele, P.B Krummel, R.F Weiss, S.J O'Doherty, P.K Salameh, H.J Wang, C.M Harth, J Muhle, L.W Porter

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Abstract

Following almost a decade with little change in global atmospheric methane mole fraction, we present measurements from the Advanced Global Atmospheric Gases Experiment (AGAGE) and the Australian Commonwealth Scientific and Industrial Research Organisation (CSIRO) networks that show renewed growth starting near the beginning of 2007. Remarkably, a similar growth rate is found at all monitoring locations from this time until the latest measurements. We use these data, along with an inverse method applied to a simple model of atmospheric chemistry and transport, to investigate the possible drivers of the rise. Specifically, the relative roles of an increase in emission rate or a decrease in concentration of the hydroxyl radical, the largest methane sink, are examined. We conclude that: 1) if the annual mean hydroxyl radical concentration did not change, a substantial increase in emissions was required simultaneously in both hemispheres between 2006 and 2007; 2) if a small drop in the hydroxyl radical concentration occurred, consistent with AGAGE methyl chloroform measurements, the emission increase is more strongly biased to the Northern Hemisphere.

Translated title of the contribution	Renewed growth of atmospheric methane
Original language	English
Number of pages	6
Journal	Geophysical Research Letters
Volume	35
Issue number	22
DOIs	https://doi.org/10.1029/2008GL036037
Publication status	Published - 20 Nov 2008

Keywords

methane
inversion
hydroxyl

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10.1029/2008GL036037

2008 Rigby et al
This article was first published by the American Geophysical Union in Geophysical Research Letters [Volume 35, Issue 22, 20/11/2008]. DOI: 10.1029/2008GL036037. Copyright 2008 by the American Geophysical Union.
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title = "Renewed growth of atmospheric methane",

abstract = "Following almost a decade with little change in global atmospheric methane mole fraction, we present measurements from the Advanced Global Atmospheric Gases Experiment (AGAGE) and the Australian Commonwealth Scientific and Industrial Research Organisation (CSIRO) networks that show renewed growth starting near the beginning of 2007. Remarkably, a similar growth rate is found at all monitoring locations from this time until the latest measurements. We use these data, along with an inverse method applied to a simple model of atmospheric chemistry and transport, to investigate the possible drivers of the rise. Specifically, the relative roles of an increase in emission rate or a decrease in concentration of the hydroxyl radical, the largest methane sink, are examined. We conclude that: 1) if the annual mean hydroxyl radical concentration did not change, a substantial increase in emissions was required simultaneously in both hemispheres between 2006 and 2007; 2) if a small drop in the hydroxyl radical concentration occurred, consistent with AGAGE methyl chloroform measurements, the emission increase is more strongly biased to the Northern Hemisphere.",

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T1 - Renewed growth of atmospheric methane

AU - Rigby, Matthew

AU - Prinn, R.G

AU - Fraser, P.J

AU - Simmonds, P.G

AU - Langenfelds, R.L

AU - Huang, J

AU - Cunnold, D.M

AU - Steele, L.P

AU - Krummel, P.B

AU - Weiss, R.F

AU - O'Doherty, S.J

AU - Salameh, P.K

AU - Wang, H.J

AU - Harth, C.M

AU - Muhle, J

AU - Porter, L.W

PY - 2008/11/20

Y1 - 2008/11/20

N2 - Following almost a decade with little change in global atmospheric methane mole fraction, we present measurements from the Advanced Global Atmospheric Gases Experiment (AGAGE) and the Australian Commonwealth Scientific and Industrial Research Organisation (CSIRO) networks that show renewed growth starting near the beginning of 2007. Remarkably, a similar growth rate is found at all monitoring locations from this time until the latest measurements. We use these data, along with an inverse method applied to a simple model of atmospheric chemistry and transport, to investigate the possible drivers of the rise. Specifically, the relative roles of an increase in emission rate or a decrease in concentration of the hydroxyl radical, the largest methane sink, are examined. We conclude that: 1) if the annual mean hydroxyl radical concentration did not change, a substantial increase in emissions was required simultaneously in both hemispheres between 2006 and 2007; 2) if a small drop in the hydroxyl radical concentration occurred, consistent with AGAGE methyl chloroform measurements, the emission increase is more strongly biased to the Northern Hemisphere.

AB - Following almost a decade with little change in global atmospheric methane mole fraction, we present measurements from the Advanced Global Atmospheric Gases Experiment (AGAGE) and the Australian Commonwealth Scientific and Industrial Research Organisation (CSIRO) networks that show renewed growth starting near the beginning of 2007. Remarkably, a similar growth rate is found at all monitoring locations from this time until the latest measurements. We use these data, along with an inverse method applied to a simple model of atmospheric chemistry and transport, to investigate the possible drivers of the rise. Specifically, the relative roles of an increase in emission rate or a decrease in concentration of the hydroxyl radical, the largest methane sink, are examined. We conclude that: 1) if the annual mean hydroxyl radical concentration did not change, a substantial increase in emissions was required simultaneously in both hemispheres between 2006 and 2007; 2) if a small drop in the hydroxyl radical concentration occurred, consistent with AGAGE methyl chloroform measurements, the emission increase is more strongly biased to the Northern Hemisphere.

KW - methane

KW - inversion

KW - hydroxyl

U2 - 10.1029/2008GL036037

DO - 10.1029/2008GL036037

M3 - Article (Academic Journal)

SN - 1944-8007

VL - 35

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 22

ER -

Renewed growth of atmospheric methane

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Keywords

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