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Using stable isotopes of hydrogen to quantify biogenic and thermogenic atmospheric methane sources: A case study from the Colorado Front Range
Author(s) -
TownsendSmall Amy,
Botner E. Claire,
Jimenez Kristine L.,
Schroeder Jason R.,
Blake Nicola J.,
Meinardi Simone,
Blake Donald R.,
Sive Barkley C.,
Bon Daniel,
Crawford James H.,
Pfister Gabriele,
Flocke Frank M.
Publication year - 2016
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1002/2016gl071438
Subject(s) - methane , environmental science , natural gas , greenhouse gas , front (military) , atmospheric sciences , methane emissions , range (aeronautics) , atmospheric methane , fossil fuel , geology , chemistry , oceanography , materials science , organic chemistry , composite material
Global atmospheric concentrations of methane (CH 4 ), a powerful greenhouse gas, are increasing, but because there are many natural and anthropogenic sources of CH 4 , it is difficult to assess which sources may be increasing in magnitude. Here we present a data set of δ 2 H‐CH 4 measurements of individual sources and air in the Colorado Front Range, USA. We show that δ 2 H‐CH 4 , but not δ 13 C, signatures are consistent in air sampled downwind of landfills, cattle feedlots, and oil and gas wells in the region. Applying these source signatures to air in ground and aircraft samples indicates that at least 50% of CH 4 emitted in the region is biogenic, perhaps because regulatory restrictions on leaking oil and natural gas wells are helping to reduce this source of CH 4 . Source apportionment tracers such as δ 2 H may help close the gap between CH 4 observations and inventories, which may underestimate biogenic as well as thermogenic sources.