%A"Noda, A [Meteorological Research Institute, Tsukuba (Japan)]" %D1993 %I; %2 %J[] %K29 ENERGY PLANNING, POLICY AND ECONOMY, AMBIENT TEMPERATURE, GROUND LEVEL, CLIMATE MODELS, THREE-DIMENSIONAL CALCULATIONS, GREENHOUSE EFFECT, FORECASTING, GLOBAL ASPECTS, AEROSOLS, CARBON DIOXIDE, CIRCULATING SYSTEMS, CLOUDS, LATITUDE EFFECT, RAIN WATER, SEAS, SULFURIC ACID, TROPOSPHERE, CARBON COMPOUNDS, CARBON OXIDES, CHALCOGENIDES, CLIMATIC CHANGE, COLLOIDS, DISPERSIONS, EARTH ATMOSPHERE, GEOGRAPHICAL VARIATIONS, HYDROGEN COMPOUNDS, INORGANIC ACIDS, LEVELS, MATHEMATICAL MODELS, OXIDES, OXYGEN COMPOUNDS, SOLS, SURFACE WATERS, VARIATIONS, WATER, 290301* - Energy Planning & Policy- Environment, Health, & Safety- Regional & Global Environmental Aspects- (1992-) %PMedium: X; Size: Pages: 56-61 %TPrediction on global warming-up. Chikyu ondanka wo yosokusuru %XThis paper introduces models to predict global warming-up caused by greenhouse effect of the earth and increase in greenhouse effect gases, and the prediction results. As a result of CO2 doubling experiments using three-dimensional climate models in predicting the global warming-up, a model that predicted a sharp rise in annual average ground temperatures on the entire earth showed a larger increase in precipitation. According to the result of the CO2 doubling experiments using atmosphere-ocean coupling models, it was learned that the temperature rises higher in high latitude regions rather than rising uniformly over the earth on the whole. The fact that the temperature rise when CO2 has been doubled in a CO2 gradually increasing experiment is smaller than in the doubling experiment can be understood as a delaying effect of oceans generated from their thermal inertia. The former experiment showed a remarkable non-symmetry between the Southern and Northern hemispheres, reflecting the effect of the great oceanic circulation. Increase in cloud amount has an effect of either cooling or warming the earth, but the cooling effect surpasses the warming effect reportedly. Sulfuric acid aerosol in the troposphere is thought to influence the process of solar radiation transmitting through the atmosphere and have an effect to cool down the ground surface. 12 refs., 6 figs. %0Journal Article %N;Journal ID: ISSN 0386-2763; CODEN: PTRTD3 %1 %CJapan %Rhttps://doi.org/ Journal ID: ISSN 0386-2763; CODEN: PTRTD3 NEDO %GJapanese