This is an interesting and real issue. We have coupled an IRMS to a thermal analysis system, so we can get on-line analysis of CO2 evolved as a complex material degrades on heating. There is no doubt that organic matter typically persists to 500°C in an oxidising atmosphere, and in some soil samples 'black carbon' persists to higher temperatures. The difference between d13C for CO2 derived from combustion of organics can be 20 per mille different from that derived from carbonate mineral breakdown, so a little organic matter can make a big difference. It matters very much which carbonate minerals are present, as they decompose at different temperatures, as Steve has pointed out. If any method trials are planned, the coupled TG-IRMS approach would be interesting (it tells you about both mineral and organic matter, quantifying both from measured weight losses). But, our lab is being moved, so not much can happen before March next year! References (all available on line) that describe this system include: Lopez-Capel, E., de la Rosa-Arranz, J. M., González-Vila, F. J., González-Perez, J. A. and Manning, D. A. C. Elucidation of different forms of organic carbon in marine sediments of the Atlantic Coast of Spain by thermal analysis coupled to isotope ratio and quadrupole mass spectrometry. Organic Geochemistry, in press. Lopez-Capel, E, Abbott, GD, Thomas, KM, & Manning, D. A. C. Coupling of thermal analysis with quadrupole mass spectrometry and isotope ratio mass spectrometry for simultaneous determination of evolved gases and their carbon isotopic composition. J ANAL APPL PYROL 75 (2): 82-89, 2006 Lopez-Capel, E, Bol, R, Manning, DAC Application of simultaneous thermal analysis mass spectrometry and stable carbon isotope analysis in a carbon sequestration study RAPID COMMUN MASS SP 19 (22): 3192-3198 2005 Manning, DAC, Lopez-Capel, E, Barker, S. Seeing soil carbon: use of thermal analysis in the characterization of soil C reservoirs of differing stability MINERAL MAG 69, 425-435 AUG 2005 David Manning Professor of Soil Science School of Civil Engineering and Geosciences Newcastle University Newcastle upon Tyne NE1 7RU telephone (+44) 0191 222 7893