11:30 AM - 11:45 AM
[ACG30-09] Effects of the expansion of vascular plants in Sphagnum-dominated bog on carbon balance
Keywords:Peatland, CO2 flux, Eddy covariance technique, Global warming
Flux measurement was conducted during the four snow-free seasons from mid-April through early November in 2007 to 2010. Eddy sensors of CO2 (LI7500, Licor) and wind speed (CSAT3, Campbell) were installed at the heights of 2.0 and 2.3 m, respectively, at B and T sites. The outputs from the sensors were recorded with a datalogger (CR1000, Campbell) at 10 Hz. Net ecosystem CO2 exchange (NEE) was calculated on a half-hourly basis as a sum of eddy CO2 flux and CO2 storage change calculated from CO2 concentration measured by LI7500. NEE was partitioned into gross primary production (GPP) and ecosystem respiration (RE) using an empirical conventional method.
Both GPP (gross ecosystem photosynthesis) and RE were larger at T site than B site. In 2008 with dry summer, cumulative NEE for 6.5 months of the snow-free season was -129 and -179 gC m-2, respectively, at T site and B site. The negative NEE values indicate that the two peatland ecosystems functioned as CO2 sinks in the season. In addition, sink strength was higher at T site. In 2010 with hot, wet summer, however, cumulative NEE was -238 and -159 gC m-2, respectively, at T site and B site. Although NEE increased largely at B site, it decreased at T site. Sphagnum moss grew more under the hot and moist environment, which increased GPP more than RE. In contrast, although growth and resultant GPP also increased at T site, RE increased more than GPP because of high temperature. This result suggests that net CO2 uptake will decrease by the invasion of Sasa plants under the warming environment in the near future.