TY - JOUR
T1 - Measurement report
T2 - Isotopic composition of CH4 emitted from gas exploration sites in the Transylvanian Basin, Romania
AU - Röckmann, Thomas
AU - Menoud, Malika
AU - van Es, Jacoline
AU - van der Veen, Carina
AU - Maazallahi, Hossein
AU - Jagoda, Pawel
AU - Necki, Jaroslav M.
AU - Bartyzel, Jakub
AU - Korben, Piotr
AU - Defratyka, Sara
AU - Schmidt, Martina
AU - Corbu, Marius
AU - Iancu, Sebastian
AU - Calcan, Andreea
AU - Ardelean, Magdalena
AU - Ghemulet, Sorin
AU - Pop, Cristian
AU - Radovici, Andrei
AU - Mereuta, Alexandru
AU - Stefanie, Horatiu
AU - Baciu, Calin
N1 - Publisher Copyright:
© Author(s) 2026.
PY - 2026/1/15
Y1 - 2026/1/15
N2 - Isotope measurements are increasingly used to constrain the methane (CH4) budget on various scales, from global to regional. The success of isotope-based source attribution depends to a large degree on the knowledge of the isotope signatures of the various source categories at the point of emission, but this information is in many cases lacking. Here we report the isotopic composition of CH4 emitted from 48 installations in the gas production region of Transylvania, Romania. The isotopic source signatures are quite homogeneous across the basin with average values of δ13C = (−65.6 ± 0.5 %) and δD = (−184 ± 1 %) confirming the predominantly biogenic origin of the Transylvanian gas, produced by hydrogenotrophic CO2 reduction. This is similar to values reported previously from natural seeps in Transylvania, to the natural gas exploited in the Dolj region in Southwestern Romania, and to the natural gas in the distribution grid in Cluj-Napoca. However, is more depleted in heavy isotopes than the oil-associated gas emitted in the Southern Romanian Plain, and gas leakages in the city of Bucharest. In addition, we present a step-by-step derivation of the underlying “Keeling plot” mass balance approach that is used to derive isotope source signatures.
AB - Isotope measurements are increasingly used to constrain the methane (CH4) budget on various scales, from global to regional. The success of isotope-based source attribution depends to a large degree on the knowledge of the isotope signatures of the various source categories at the point of emission, but this information is in many cases lacking. Here we report the isotopic composition of CH4 emitted from 48 installations in the gas production region of Transylvania, Romania. The isotopic source signatures are quite homogeneous across the basin with average values of δ13C = (−65.6 ± 0.5 %) and δD = (−184 ± 1 %) confirming the predominantly biogenic origin of the Transylvanian gas, produced by hydrogenotrophic CO2 reduction. This is similar to values reported previously from natural seeps in Transylvania, to the natural gas exploited in the Dolj region in Southwestern Romania, and to the natural gas in the distribution grid in Cluj-Napoca. However, is more depleted in heavy isotopes than the oil-associated gas emitted in the Southern Romanian Plain, and gas leakages in the city of Bucharest. In addition, we present a step-by-step derivation of the underlying “Keeling plot” mass balance approach that is used to derive isotope source signatures.
UR - https://www.scopus.com/pages/publications/105027979266
U2 - 10.5194/acp-26-723-2026
DO - 10.5194/acp-26-723-2026
M3 - Article
AN - SCOPUS:105027979266
SN - 1680-7316
VL - 26
SP - 723
EP - 731
JO - Atmospheric chemistry and physics
JF - Atmospheric chemistry and physics
IS - 1
ER -