Temperature sensitivity of greenhouse gas production in wetland soils of different vegetation.

Organic matter decomposition regulates rates of carbon loss (CO and CH) in wetlands and has implications for carbon sequestration in the context of changing global temperature. Here we determined the influence of temperature and vegetation type on both aerobic and anaerobic decomposition of organic matter in subtropical wetland soils. As in many other studies, increased temperature resulted in higher rates of respiration and methanogenesis under both aerobic and anaerobic conditions, and the positive effect of temperature depended on vegetation (source of carbon substrate to soil). Under anaerobic incubations, the proportion of gaseous C (CO and CH) lost as CH increased with temperature indicating a greater sensitivity of methanogenesis to temperature. This was further supported by a wider range of Q values (1.4-3.6) for methane production as compared with anaerobic CO (1.3-2.5) or aerobic CO (1.4-2.1) production. The increasing strength of positive linear correlation between CO:CH ratio and the soil organic matter ligno-cellulose index at higher temperature indicated that the temperature sensitivity of methanogenesis was likely the result of increased C availability at higher temperature. This information adds to our basic understanding of decomposition in warmer subtropical and tropical wetland systems and has implications for C models in wetlands with different vegetation types. [ABSTRACT FROM AUTHOR]