This study was conducted to find out the soil CO2 emission characteristic due to rain fall pattern and intensity changes. Using Automatic Opening and Closing Chambers (AOCCs), we have measured annual soil respiration changes in Pinus koraiensis plantation at Seoul National University experimental forest in Mt. Taehwa. In addition, we have monitored heterotrophic respiration at trenching sites (4×6 m). Based on the one year data of soil respiration and heterotrophic respiration, we observed that 24% of soil respiration was derived from root respiration. During the rainy season (end of July to September), soil respiration at trenching site and trenching with rainfall interception site were measure during portable soil respiration analyzer (GMP343, Vaisala, Helsinki, Finland). Surprisingly, even after days of continuous heavy rain, soil water content did not exceed 20%. Based on this observation, we suggest that the maximum water holding capacity is about 20%, and relatively lower soil water contents during the dry season affect the vital degree of trees and soil microbe. As for soil respiration under different rain intensity, it was increased about 14.4% under 10 mm precipitation. But the high-intensity rain condition, such as more than 10 mm precipitation, caused the decrease of soil respiration up to 25.5%. Taken together, this study suggests that the pattern of soil respiration can be regulated by not only soil temperature but also due to the rain fall intensity.

• 서상욱(국립농업과학원 기후변화생태과) | Sanguk Suh
• 박성애(국립환경과학원 자연환경연구과) | Sungae Park
• 심규영(국립환경과학원 자연환경연구과) | Kyuyoung Shim
• 양병국(국립환경과학원 자연환경연구과) | Byeonggug Yang
• 최은정(국립농업과학원 기후변화생태과) | Eunjung Choi
• 이재석(건국대학교 생명과학과) | Jaeseok Lee
• 김태규(국립환경과학원 자연환경연구과) | Taekyu Kim Corresponding author