Some research has just been published from the Wilkins lab that looked at the metabolic and physiological response to elevated CO2 pressures. Such environments might be encountered in the deep subsurface where CO2 sequestration has been suggested as a technique for ‘locking up’ CO2 emissions, rather than releasing the gas to the atmosphere. We used a range of techniques in this study, including high-pressure batch culturing, novel high-pressure NMR, electron microscopy, and RNA-Seq to track how Desulfovibrio vulgaris responds to combined pressure and CO2. The results? Well, the bug doesn’t like that stress at all. Metabolism was generally inhibited even at low CO2 pressures, although high N2 pressures had no inhibitory effects. These results indicate that deep subsurface CO2 sequestration would have the potential to greatly inhibit the activity of some key microbial groups in the deep biosphere. Publication link below:
Wilkins MJ, Hoyt DW, Marshall MJ, Alderson PA, Plymale AE, Markillie LM, Tucker AE, Walter ED, Linggi BE, Dohnalkova AC and Taylor RC (2014) Front. Microbiol. 5:507. doi: 10.3389/fmicb.2014.00507