The scientist’s investigation covers issues in Climatology, Atmospheric sciences, Precipitation, Climate model and Albedo. Her research in Climatology intersects with topics in Atmosphere, Climate change, Global change and Cloud feedback, Climate sensitivity. The Global change study combines topics in areas such as Political economy of climate change, Ecological forecasting, Environmental planning, Climate change mitigation and Earth system science.
Seita Emori studies Atmospheric sciences, namely Troposphere. The concepts of her Troposphere study are interwoven with issues in Ozone, Atmospheric chemistry, Representative Concentration Pathways, Coupled model intercomparison project and Biogeochemistry. Her work carried out in the field of Climate model brings together such families of science as Subtropics, Atmospheric moisture and Water content.
Her primary areas of study are Climatology, Climate change, Climate model, Atmospheric sciences and Global warming. Her research integrates issues of Atmosphere, Precipitation, Greenhouse gas, Climate sensitivity and General Circulation Model in her study of Climatology. Her Climate change research includes themes of Land use, Environmental resource management and Water resources.
Her Climate model study combines topics from a wide range of disciplines, such as Sea ice, Meteorology and Water content. Her work on Troposphere as part of general Atmospheric sciences study is frequently linked to Atmospheric wave, therefore connecting diverse disciplines of science. Seita Emori works mostly in the field of Global warming, limiting it down to concerns involving Global change and, occasionally, Sea level.
Seita Emori spends much of her time researching Climate change, Environmental resource management, Water resources, Climatology and Global warming. Her Climate change research is mostly focused on the topic Climate model. Seita Emori has researched Environmental resource management in several fields, including Climate engineering and Geoengineering.
Her Water resources research also works with subjects such as
Seita Emori mainly investigates Climate change, Sustainable development, Landscape ecology, Environmental planning and Greenhouse gas. Seita Emori interconnects Biomass, Primary production, Hydrology, Surface runoff and Terrestrial ecosystem in the investigation of issues within Climate change. Her Sustainable development research is multidisciplinary, incorporating perspectives in Sustainability and Climate engineering.
Her Landscape ecology research spans across into fields like Sociology, Foundation and Public engagement. Her Environmental planning studies intersect with other subjects such as Public health, Interconnection and Visualization. Her biological study spans a wide range of topics, including Zero emission and Climate sensitivity.
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The next generation of scenarios for climate change research and assessment
Richard H. Moss;Jae A. Edmonds;Kathy A. Hibbard;Martin R. Manning.
MIROC-ESM 2010: model description and basic results of CMIP5-20c3m experiments
S. Watanabe;T. Hajima;K. Sudo;T. Nagashima.
Geoscientific Model Development (2011)
Tropical Intraseasonal Variability in 14 IPCC AR4 Climate Models. Part I: Convective Signals
Jia Lin Lin;George N. Kiladis;Brian E. Mapes;Klaus M. Weickmann.
Journal of Climate (2006)
Dynamic and thermodynamic changes in mean and extreme precipitation under changed climate
S. Emori;S. Emori;S. J. Brown.
Geophysical Research Letters (2005)
Simulation of climate response to aerosol direct and indirect effects with aerosol transport‐radiation model
Toshihiko Takemura;Toru Nozawa;Seita Emori;Takashi Y. Nakajima.
Journal of Geophysical Research (2005)
K-1 Coupled GCM (MIROC) Description
Hiroyasu Hasumi;Seita Emori.
Development of the minimal advanced treatments of surface interaction and runoff
Kumiko Takata;Seita Emori;Tsutomu Watanabe.
grid and pervasive computing (2003)
Global projections of changing risks of floods and droughts in a changing climate
Yukiko Hirabayashi;Shinjiro Kanae;Seita Emori;Taikan Oki.
Hydrological Sciences Journal-journal Des Sciences Hydrologiques (2008)
On the contribution of local feedback mechanisms to the range of climate sensitivity in two GCM ensembles
Mark J. Webb;C. A. Senior;D. M.H. Sexton;W. J. Ingram.
Climate Dynamics (2006)
Trans‐Pacific yellow sand transport observed in April 1998: A numerical simulation
Itsushi Uno;Hiroyasu Amano;Seita Emori;Kisei Kinoshita.
Journal of Geophysical Research (2001)
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