Yüce, G.G.YüceFu, C. C.C. C.FuD’Alessandro, W.W.D’AlessandroKahraman, B.B.KahramanKürkcüoglu, B.B.KürkcüogluItaliano, F.F.ItalianoGülbay, A. H.A. H.GülbayElmacı, H.H.Elmacıİçhedef, M.M.İçhedefÖzdemir, A.A.ÖzdemirAkıllı, H.H.AkıllıYasin, D.D.YasinGürboğa, Ş.Ş.GürboğaDemirtaş, A.A.DemirtaşLI-HUNG LINPEI-LING WANGÖver, S.S.Över2026-02-262026-02-262026-01https://www.scopus.com/pages/publications/105028370910https://scholars.lib.ntu.edu.tw/handle/123456789/736030This study presents a soil gas geochemical survey in the Kırcaoğlu and Reyhanlı regions of Hatay Province, southeastern Türkiye, following the 2023 Kahramanmaraş earthquake doublet. The aim was to identify concealed faults and assess seismic hazard through analysis of soil CO2 flux, CO2 and 222Rn concentrations, and carbon and helium isotopic compositions. A total of 98 sites were surveyed, and graphical statistical methods were used to establish geochemical anomaly thresholds. In Kırcaoğlu, two prominent gas anomaly zones were delineated with dominant NW-SE and NE-SW trends, likely representing buried faults linked to the Yesemek Segment, including one beneath the Reyhanlı Dam. In Reyhanlı, an east-west gas anomaly suggests a possible westward extension of the Reyhanlı Fault. These findings refine the region's structural framework and highlight seismic risks from buried faults. Isotopic analyses show CO2 derives from biogenic and deep crustal reservoirs, with 4He/20Ne and 3He/4He ratios confirming up to 7.1% crustal helium and <1% mantle helium. Heavier δ13C values and elevated crustal helium in Kırcaoğlu support deep gas migration along fault zones. Natural CO2 emissions are estimated at 66 t/d in Kırcaoğlu and 60 t/d in Reyhanlı. Regionally, emissions from the Amik Basin (∼15,586 t/d) comprise ∼1.5% of Türkiye's daily anthropogenic CO2. The overlap between gas anomalies and surface ruptures and liquefaction zones from the 2023 earthquakes confirms the effectiveness of soil gas surveys for buried fault detection. These results highlight the utility of soil gas geochemistry as a non-invasive tool for fault detection and seismic hazard assessment.CO2east Anatolian Faultemissionsfault detectionReyhanlı Faultsoil gas geochemistryYesemek segmentjournal article10.1029/2025gc012419