Warming-related increases in soil CO2 efflux are explained by increased below-ground carbon flux
- Nature Climate Change, 4(9), p.822-827, 2014 .
The universally observed exponential increase in soil-surface CO 2 efflux ('soil respiration'; F S)with increasing temperature has led to speculation that global warming will accelerate soil-organic-carbon (SOC)decomposition, reduce SOC storage, and drive a positive feedback to future warming. However, interpreting temperature-F S relationships, and so modelling terrestrial carbon balance in a warmer world, is complicated by the many sources of respired carbon that contribute to F S (ref.)and a poor understanding of how temperature influences SOC decomposition rates. Here we quantified F S, litterfall, bulk SOC and SOC fraction size and turnover, and total below-ground carbon flux (TBCF)across a highly constrained 5.2 °C mean annual temperature (MAT)gradient in tropical montane wet forest. From these, we determined that: increases in TBCF and litterfall explain >90 percent of the increase in F S with MAT; bulk SOC and SOC fraction size and turnover rate do not vary with MAT; and increases in TBCF and litterfall do not influence SOC storage or turnover on century to millennial timescales. This gradient study shows that for tropical montane wet forest, long-term and whole-ecosystem warming accelerates below-ground carbon processes with no apparent impact on SOC storage.