Add to ORKGDuring the past 15 years the annual growth rate of tropospheric methane (CH4) has shown striking changes over 2-3 year periods, varying from + 1% yr-1 to slightly negative values (-0.2% yr-1). These fluctuations are superimposed on an overall slowdown of the CH4 growth rate since the 1980s. Here we use our complementary measurement of other compounds (ethane, tetrachloroethene) to confirm the influence of biomass burning on large global CH4 pulses in 1998 and 2002-2003. Methane growth rate fluctuations also track ENSO indices, most likely via the influence of ENSO activity on large-scale biomass burning. We also report the seventh year of near-zero growth of global CH4 levels (Dec. 1998-Dec. 2005). The global CH4 mixing ratio was 1772 ± 1 p...
The availability δ13C-CH4 measurements from atmospheric samples has significantly improved in recent...
In-situ measurements and analysis of air trapped in ice cores clearly indicate that the atmospheric ...
Atmospheric methane's rapid growth from late 2006 is unprecedented in the observational record. Ass...
During the past 15 years the annual growth rate of tropospheric methane (CH4) has shown striking cha...
Global measurements show that the mixing ratio of tropospheric methane (CH4) increased by 1.1% (19.5...
[1] Global measurements show that the mixing ratio of tropo-spheric methane (CH4) increased by 1.1 %...
Atmospheric measurements show an increase in CH4 from the 1980s to 1998 followed by a period of near...
International audienceAtmospheric methane grew very rapidly in 2014 (12.7 ± 0.5 ppb/year), 2015 (10....
It has been found that the concentration of atmospheric methane (CH4) has rapidly increased since 20...
The growth in global methane (CH4) concentration, which had been ongoing since the industrial revolu...
International audienceAbstract. After stagnating in the early 2000s, the atmospheric methane growth ...
Atmospheric methane (CH(4)) increased through much of the twentieth century, but this trend graduall...
Abstract Atmospheric methane grew very rapidly in 2014 (12.7±0.5 ppb/yr), 2015 (10.1±0.7 ppb/yr), 20...
Methane (CH4) is an important greenhouse gas, naturally produced by bio-degradation of organic mater...
The availability δ13C-CH4 measurements from atmospheric samples has significantly improved in recent...
In-situ measurements and analysis of air trapped in ice cores clearly indicate that the atmospheric ...
Atmospheric methane's rapid growth from late 2006 is unprecedented in the observational record. Ass...
During the past 15 years the annual growth rate of tropospheric methane (CH4) has shown striking cha...
Global measurements show that the mixing ratio of tropospheric methane (CH4) increased by 1.1% (19.5...
[1] Global measurements show that the mixing ratio of tropo-spheric methane (CH4) increased by 1.1 %...
Atmospheric measurements show an increase in CH4 from the 1980s to 1998 followed by a period of near...
International audienceAtmospheric methane grew very rapidly in 2014 (12.7 ± 0.5 ppb/year), 2015 (10....
It has been found that the concentration of atmospheric methane (CH4) has rapidly increased since 20...
The growth in global methane (CH4) concentration, which had been ongoing since the industrial revolu...
International audienceAbstract. After stagnating in the early 2000s, the atmospheric methane growth ...
Atmospheric methane (CH(4)) increased through much of the twentieth century, but this trend graduall...
Abstract Atmospheric methane grew very rapidly in 2014 (12.7±0.5 ppb/yr), 2015 (10.1±0.7 ppb/yr), 20...
Methane (CH4) is an important greenhouse gas, naturally produced by bio-degradation of organic mater...
The availability δ13C-CH4 measurements from atmospheric samples has significantly improved in recent...
In-situ measurements and analysis of air trapped in ice cores clearly indicate that the atmospheric ...
Atmospheric methane's rapid growth from late 2006 is unprecedented in the observational record. Ass...