• Fujimori S., Matsuoka Y.: Ecological Economics Vol.62, pp399-418
    "Development of estimating method of global carbon, nitrogen, and phosphorus flows caused by human activity"
  • Gomi K., Shimada K., Matsuoka Y., Naito M.: Sustainability science vol. 2 No.1 pp121-131
    "Sceanrio study for a regional low-carbon society"
  • Rana A., Morita T.: Environmental Economics and Policy Studies, 3, 2, 267-289
    "Scenarios for Greenhouse Gas Emissions: A Review of Modeling of Strategies and Policies in Integrated Assessment Models"
  • Takahashi K.: Global Environ.Res., 10 (2), 243-252
    "Impacts of global warming on agricultural production and adaptations in response."
  • Takahashi K., Honda Y., Emori S.: J.Risk Res., 10 (3), 339-354
    "Assessing mortality risk from heat stress due to global warming."


  • Fujino J., Nair R., Kainuma M., Masui T., Matsuoka Y.: Energy J., 343-353
    "Multi-gas mitigation analysis on stabilization scenarios using aim global model."
  • Hanaoka T., Kainuma M., Kawase R., Matsuoka Y.: Environ.Econ.Policy Stud., 7 (3), 367-389
    "Emissions scenarios database and regional mitigation analysis: a review of post-TAR mitigation scenarios."
  • Hijioka Y., Masui T., Takahashi K., Matsuoka Y., Harasawa H.: Environ.Econ.Policy Stud., 7 (3), 331-345
    "Development of a support tool for greenhouse gas emissions control policy to help mitigate the impact of global warming."
  • Hijioka Y., Takahashi K.: Global Environ.Res., 10 (2), 261-270
    "Integrated assessment of greenhouse gas stabilization concentrations, emission pathways, and impact threshold values for control of global warming."
  • Kawase R., Matsuoka Y., Fujino J.: Energy Policy, 2113-2122
    "Decomposition analysis of CO2 emission in long-term climate stabilization scenarios."
  • Masui T., Hanaoka T., Hikita S., Kainuma M.: Energy J.,Special Issue, 175-190
    "Assessment of CO2 reductions and economic impacts considering energy-saving investments."
  • Nakicenovic N., Kolp P., Riahi K., Kainuma M., Hanaoka T.: Environ.Econ.Policy Stud., 7 (3), 137-173
    "Assessment of emissions scenarios revisited."


  • Alcamo J., Vuuren D.V., Ringler C., Cramer W., Masui T., Alder J., Schulze K.: Ecol.Soc.(Web), 10 (2),
    "Changes in nature's balance sheet: model-based estimates of future worldwide ecosystem services."
  • Fujino J., Morita A., Matsuoka Y., Sawayama S.: Biomass & Bioenergy, 29, 367-374
    "Vision for utilization of livestock residue as bioenergy resource in Japan."
  • Masui T.: Eur.J.Oper.Res., 166 (3), 843-855
    "Policy evaluations under environmental constraints using a computable general equilibrium model."
  • Wan Y., Yang H., Masui T.: Rev.Environ.Health, 20 (2), 119-140
    "Air pollution-induced health impacts on the national economy of china: demonstration of a computable general equilibrium approach."
  • Wan Y., Yang H., Masui T.: Biomed.Environ.Sci., 18 (5), 356-361
    "Considerations in applying the general equilibrium approach to environmental Health assessment."
  • Wan Y., Yang H., Masui T.: Biomed.Environ.Sci., 18 (6), 427-441
    "Health and economic impacts of air pollution in china: A comparison of the general equilibrium approach and human capital approach."



  • Gielen D., Fujino J., Hashimoto S., Moriguchi Y.: Biomass Bioenergy, 25 (2), 177-195
    "Modeling of global biomass policies."
  • Tokimatsu K., Asaoka Y., Konishi S., Fujino J., Ogawa Y., Okano K., Nishio S., Yoshida T., Hiwatari R., Yamaji K.: Nucl Fusion, 42 (11), 1289-1298
    "Studies of breakeven prices and electricity supply potentials of nuclear fusion by a long-term world enegry and environment model."
  • Tokimatsu K., Fujino J., Konishi S., Ogawa Y., Yamaji K.: Energ.Policy, 31 (8), 775-797
    "Role of nuclear fusion in future energy systems and the environment under future uncertainities."


  • Gielen D.J., Fujino J., Hashimoto S., Moriguchi Y.: Clim.Policy, 2, 319-333
    "Biomass strategies for climate policies."
  • Lal M., Harasawa H., Takahashi K.: Climate Res., 19, 179-192
    "Future climate change and its impacts over small island states."


  • Kainuma M., Matsuoka Y., Morita T.: Oper.Res.Soc.India, 38 (1), 109-125
    "CO2 emission forecast in Japan by AIM/end-use model."
  • Lal, M. and H. Harasawa, Journal of the Meteorological Society of Japan, 79(1), 219-227
    "Future Climate Change Scenarios for Asia as Inferred from Selected Coupled Atmosphere-ocean Global Climate Models"
  • Lal M., Nozawa T., Emori S., Harasawa H., Takahashi K., Kimoto M., Abe-Ouchi A., Nakajima T., Takemura T., Numaguti A.: Curr.Sci., 81 (9), 1196-1207
    "Future climate change: implications for Indian summer monsoon and its variability."
  • Matsuoka Y., Takahashi K.: Global Environ.Res., 5 (1), 25-32
    "Global environment research in the field of human dimensions-needs of integrated assessment models-."
  • Takahashi K., Matsuoka Y., Okamura T., Harasawa H.: J.Global Environ.Eng., 7, 31-45
    "Development of climate change scenarios for impact assessment using results of general circulation model simulations."
  • Takahashi K., Matsuoka Y., Shimada Y., Harasawa H.: J.Global Environ.Eng., 7, 17-30
    "Assessment of water resource problems under climate change-considering inter-annual variability of climate derived from GCM calculations-."
  • Takemura T., Nakajima T., Nozawa T., Aoki K.: J. Meteor. Soc. Japan, 79, 1139-1155
    "Simulation of future aerosol distribution, radiative forcing, and long-range transport in East Asia"
  • Yang H., Matsuoka Y., Matsuo T.: Journal of Global Environment Engineering, 7, 47-61
    "Sulphur dioxide emissions and country-level distribution in China"
  • Yamamoto H., Fujino J., Yamaji K.: Biomass Bioenergy, 21, 185-203
    "Evaluation of bioenergy potential with a multi-regional global-land-use-and-energy model."
  • You S., Takahashi K.: Environ.Sci., 14 (1), 77‐90
    "Studies on Adaptation to Climate Change Impact on Agriculture."
  • You S., Takahashi K., Matsuoka Y.: Global Environ.Res., 5 (1), 45-53
    "Aiming at an effective adaptation strategy for climate change impact-case study on flood damage in China-."


  • Jiang K., Masui T., Morita T., Matsuoka Y.: Technol.Forecasting Soc.Change, 63, 207‐229
    "Long-Term GHG Emission Scenarios for Asia-Pacific and the World."
  • Jiang K., Morita T., Masui T., Matsuoka Y.: Environ.Econ.Policy Stud., 3 (2), 239‐254
    "Global long-term greenhouse gas mitigation emission scenarios based on AIM."
  • Kainuma M., Matsuoka Y., Morita T.: Eur.J.Oper.Res., 122 (2), 392‐404
    "Estimation of embodied CO2 emissions by general equilibraum model." (PDF/132KB)
  • Kainuma M., Matsuoka Y., Morita T.: Eur.J.Oper.Res., 122 (2), 416‐425
    "The AIM/end-use model and its application to forecast Japanese carbon dioxide emissions."
  • Kram T., Morita T., Riahi K., Roehrl R.A., Rooijen S.V., Sankovski A., Vries B.D.: Technological Forecasting and Social Change, 63, 335-371
    "Global and Regional Greenhouse Gas Emissions Scenarios"
  • Masui T., Morita T., Kyogoku J.: Eur.J.Oper.Res., 122 (2), 405‐415
    "Analysis of recycling activities using multi-sectoral economic model with material flow."
  • Morita T., Nakicenovic N., Robinson J.: Environmental Economics and Policy Studies, 3, 2, 65-88
    "Overview of Mitigation Scenarios for Global Climate Stabilization Based on New IPCC Emission Scenarios (SRES)
  • Schlesinger M.E., Malyshev S., Rozanov E.V., Yang F., Andronova N.G., Vries B.D., Grubler A., Jiang K., Masui T., Morita al.: Technol.Forecasting Soc.Change, 65, 167‐193
    "Geographical Distributions of Temperature Change for Scenarios of Greenhouse Gas and Sulfur Dioxide Emissions."
  • Yamaji K., Fujino J., Osada K.: Environ.Econ.Policy Stud., 3 (2), 159‐171
    "Global energy system to maintain atmospheric CO2 concentration at 550 ppm."
  • Yamamoto H., Yamaji K., Fujino J.: Appl.Energy, 66, 325‐337
    "Scenario analysis of bioenergy resources and CO2 emissions with a global land use and energy model."



  • Harashima Y., Morita T.: Environmental Economics and Policy Studies, 1 (1), 39-67
    "A Comparative Study on Environmental Policy Development Processes in the Three East Asian Countries: Japan, Korea, and China"
  • Jiang K., Hu X., Matsuoka Y., MoritaT.: Environmental Economics and Policy Studies, (2), 141-160
    "Energy Technology Changes and CO2 emission scenarios in China"
  • Morita T.: Mitigation and Adaptation Strategies for Global Change, 3 (2-4), 121-131
    "IPCC emission scenarios database"
  • Nakicenovic N., Victor N., Morita T.: Mitigation and Adaptation Strategies for Global Change, 3 (2-4), 95-120
    "Emission scenarios database and review of scenarios"
  • Takahashi K., Matsuoka Y., Harasawa H.: J.Global Environ.Eng., 4, 91‐103
    "Impacts of Climate Change on Water Resources,Crop Production and Natural Ecosystem in the Asia and Pacific Region."


  • Takahashi K., Harasawa H., Matsuoka Y.: J.Global Environ.Eng., 3, 145‐161
    "Climate change impact on global crop production."


  • Matsuoka Y., Kainuma M., Morita T. Energy Policy, 23 (4/5), 357‐371
    "Scenario analysis of global warming using the Asian Pacific Integrated Model (AIM)."
  • Morita T., Matsuoka Y., Kainuma M.: Prog.Nucl.Energy, 29, 143‐150
    "Carbon dioxide emission scenarios and nuclear energy."


  • Kai K., Kainuma M., Murakoshi N., Omasa K.: J.Agric.Met., 48 (5), 771‐774
    "Potential effects on the phenological observation of plants by global warming in Japan."

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