The global rise in atmospheric $CO_2$ concentration and its associated climate change have significant effects on agricultural productivity and hydrological cycle. For food security and agricultural water resources planning, it is critical to investigate the impact of climate change on changes in agricultural productivity and water consumption. APEX-Paddy model, which is the modified version of APEX (Agricultural Policy/Environmental eXtender) model for paddy ecosystem, was used to evaluate rice productivity and evapotranspiration based on climate change scenario. Two study areas (Gimjae, Icheon) were selected and the input dataset was obtained from the literature. RCP (Representitive Concentration Pathways) based climate change scenarios were provided by KMA (Korean Meteorological Administration). Rice yield data from 1997 to 2015 were used to validate APEX-Paddy model. The effects of climate change were evaluated at a 30-year interval, such as the 1990s (historical, 1976~2005), the 2025s (2011~2040), the 2055s (2041~2070), and the 2085s (2071~2100). Climate change scenarios showed that the overall evapotranspiration in the 2085s reduced from 10.5 % to 16.3 %. The evaporations were reduced from 15.6 % to 21.7 % due to shortend growth period, the transpirations were reduced from 0.0% to 24.2 % due to increased $CO_2$ concentration and shortend growth period. In case of rice yield, in the 2085s were reduced from 6.0% to 25.0 % compared with the ones in the 1990s. The findings of this study would play a significant role as the basics for evaluating the vulnerability of paddy rice productivity and water management plan against climate change.

1 김맹기, "남한 1km 해상도의 격자형 일 기상자료 생산과 검증" 기후연구소 8 (8): 13-25, 2013

2 김웅태, "기후변화에 따른 대청댐 유역의 유출 영향 분석" 한국수자원학회 37 (37): 305-314, 2004

3 이태석, "기후변화 시나리오에 따른 미래 논벼의 소비수량 및 생산량 변화 분석" 한국농공학회 54 (54): 45-52, 2012

4 김대준, "기온, 강수량, 이산화탄소농도 변화에 따른 CERES-Barley 국내품종의 종실수량 반응" 한국농림기상학회 15 (15): 312-319, 2013

5 Williams, J. R., "Watershed models" 437-482, 2006

6 Lai, M., "Vulnerability of rice and wheat yield in NW India to future changes in climate" 89 : 101-114, 1998

7 Vaghefi, N., "The economic impacts of climate change on the rice production in Malaysia" 6 (6): 67-74, 2011

8 "Statistics Korea"

9 Neitsch, S. L., "Soil and water assessment tool theoretical documentation version 2009" Texas Water Resources Institute 2009

10 Matthews, R. B., "Simulation the impact of climate change on rice production in Asia and evaluating options for adaptation" 54 (54): 399-425, 1997

11 Hargreaves, G. H., "Reference crop evapotranspiration from temperature" 1 (1): 96-99, 1985

12 장선숙, "RCP 기후변화 시나리오에 따른 임하댐 유역의 미래 수문순환 전망" 한국지리정보학회 18 (18): 156-169, 2015

13 Miyazaki, N., "Quality changes of agricultural water passing through paddy fields" 55 : 45-55, 2005

14 Priestley, C. H. B., "On the assessment of surface heat flux and evaporation using large-scale parameters" 100 (100): 81-92, 1972

15 Penman, H. L., "Natural evaporation from open, bare soil and grass" 193 (193): 120-145, 1948

16 "National Institute of Agricultural Sciences"

17 Ruane, A. C., "Multi-wheat-model ensemble responses to interannual climate variability" 81 : 86-101, 2016

18 Kimball, B. A., "Increasing atmospheric CO2: Effects on crop yield, water use, and climate" 7 : 55-72, 1983

19 Jones, R. J., "Increases in the diffusion resistances of leaves in a carbon dioxide-enriched atmosphere" 21 : 951-958, 1970

20 정상옥, "FAO-AquaCrop을 이용한 기후변화가 벼 증발산량 및 수확량에 미치는 영향 모의" 한국농공학회 52 (52): 57-64, 2010

21 Monteith, J. L., "Evaporation and environment" 19 : 205-234, 1964

22 Stooksbury, D., "Evaluating CROPGRO-soybean performance for use in climate impact studies" 95 : 537-544, 2003

23 Baier, W., "Estimation of latent evaporation from simple weather observations" 45 (45): 276-284, 1965

24 Sharpley, A. N., "EPIC, Erosion/productivity impact calculator, I. Model documentation" United States Department of Agriculture 1990

25 Monteith, J. L., "Climate and the efficiency of crop production in Britain [and discussion]" 281 (281): 277-294, 1977

26 IPCC, "Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change" IPCC 2014

27 Allen, L. H., "Carbon dioxide and temperature effects on evapotranspiration and water use efficiency of soybean" 95 (95): 1071-1081, 2003

28 Kimball, B. A., "Carbon dioxide and agricultural yield: An assemblage and analysis of 430 prior observations" 75 : 779-788, 1983

29 Jones, C. A., "CERES-Maize: a simulation model of maize growth and development" Texas A&M Univirsity Press 1986

30 Shim, K. M., "Assessing impacts of global warming on rice growth and production in Korea" 1 (1): 121-131, 2010

31 Williams, J. R., "Agricultural policy/environmental extender model theoretical documentation version 0806" Texas A&M Blackland Research Center Temple 2012

32 Steglich, E. M., "Agricultural Policy/Environmental Extender Model User’s Manual Version 0806" BREC 2013

33 Williams, J. R., "A modeling approach to determining the relationship between erosion and soil productivity" 27 (27): 129-144, 1984

34 Stockle, C. O., "A method for estimating the direct and climatic effects of rising atmospheric carbon dioxide on growth and yield of crops: Part I―Modification of the EPIC model for climate change analysis" 38 (38): 225-238, 1992

35 Rural Development Administrator, "2008 crop test report" 33-34, 2009

36 김맹기, "1km 해상도의 관측 격자자료 생산 기술" 기후연구소 7 (7): 55-68, 2012