100-5 The Variations of 13CH4 Flux and δ13 C in a Rice Paddy Field.
Poster Number 433
See more from this Division: ASA Section: Environmental QualitySee more from this Session: Greenhouse Gas Emissions from Agriculture
Kentaro Katano*, Shujiro Komiya*, Kosuke Noborio**,
*Graduate School of Agriculture, Meiji University, Kanagawa, Japan
**School of Agriculture, Meiji University, Kanagawa, Japan
In recent years, global climate change has become one of the biggest concerns. Increases in greenhouse gases (GHGs) concentration may be attributed to the global warming. Rice paddy fields are a major source of methane (CH4) in monsoon Asian countries. Methane is an end product of the decomposition of organic matter in soil under anaerobic conditions. Previous studies suggested that different methanogenetic pathways in rice paddy fields resulted in different isotopic signitures for CH4 varing. It is, however, still not well understood the relationship between variations inδ13C of CH4 in soil and 13CH4 flux. The objective of this study was to elucidate the relationship between d 13C valuea of CH4 in soil and 13CH4 flux in rice paddy fields. For measuring δ13C values for CO2 and CH4, we used a cavity ring-down spectroscopy (CRDS) analyzer (model G3301-i, PICARRO Inc.). For measuring δ13C values and CH4 concentration in soil, a static equilibrium method with a gas-permeable silicone tube was used to collect soil air. Flux of 13CH4 above ground was measured by the closed chamber method using automatic chambers. We will discuss the relationship between d 13C values and flux variation in conjunction with soil and weather conditions.
See more from this Session: Greenhouse Gas Emissions from Agriculture