Recent measurements of the apparent kinetic isotope effect (KIE) of the methane (CH 4) atmospheric sink in the extratropical Southern Hemisphere (ETSH) have shown the apparent KIE to be larger in magnitude than expected if the sink were the hydroxyl radical (OH•) alone. We present results from simulations using the U.K. Met Office's Unified Model (UM) to evaluate whether atomic chlorine (Cl•) in the marine boundary layer (MBL) could give this effect. We modify the UM to include sources of 12 CH 4 and 13 CH 4, soil and stratospheric sinks, and a tropospheric OH• sink. Also included is a Cl• sink in the MBL with a large seasonal cycle and a constant mean value (Cl• mean) in latitude. We show that analysis of the simulated seasonal cycles in CH 4 mixing ratio and δ 13 C give an accurate estimate of the OH• KIE at ETSH midlatitudes. The apparent KIE of the combined OH• and Cl• sink increases in magnitude as Cl• mean increases. The experimentally measured values of apparent KIE in the ETSH midlatitudes of -15‰ in 1994-1996 and -7‰ in 1998-2000 are attained with MBL Cl• mean values of 28 × 10 3 atoms cm -3 and 9×10 3 atoms cm -3, respectively (although we consider the latter to be a lower bound). We suggest that 18 × 10 3 atoms cm -3 is a reasonable midrange estimate of Cl• mean in the MBL. This value results in a Cl• sink strength of 25 Tg y -1 (range 13-37 Tg y -1) and an enrichment in δ 13 C of atmospheric CH 4 by 2.6‰ (range 1.4-3.8‰). This sink strength is significant but has not yet been included in global CH 4 budgets. Copyright 2007 by the American Geophysical Union.
CITATION STYLE
Allan, W., Struthers, H., & Lowe, D. C. (2007). Methane carbon isotope effects caused by atomic chlorine in the marine boundary layer: Global model results compared with Southern Hemisphere measurements. Journal of Geophysical Research Atmospheres, 112(4). https://doi.org/10.1029/2006JD007369
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