Latest Update:2024/03/11 13:27:39

NISHINA Kazuya

Researcher Name
NISHINA Kazuya
Div (Section) name/title
Earth System Division(Biogeochemical Cycle Modeling and Analysis Section)/Senior Researcher
Research Subject
Biogeochemistry, Soil Science
Degree(s)
Doctor of Agriculture
Professional Qualification(s)
Forestry,Agricultural Science,Computer Science
Environmental Speciality Field
Biogeocemistry,Soil science,Forestry
Membership of Academic Society
Ecological Society of Japan,Japan Geoscience Union,Japanese Society of Soil Science and Plant Nutrition
Research Subject
  • Fiscal Year: 2023
    • 26400 : Climate Change and Air Quality Research Program
    • 26406 : Decarbonized and Sustainable Society Research Program
    • 26409 : Quantitative evaluation of natural and anthropogenic sinks and sources of greenhouse gases at global scale
    • 26430 : Research of environmental impacts and management in the disaster areas of Fukushima
    • 26438 : Simultaneous achievement of global decarbonization and sustainability
    • 26450 : Earth System Domain: Foresight and Advanced Basic Research
    • 26623 : Development of a comprehensive environmental management approach to prepare for future nuclear disasters from environmental perspectives
    • 26667 : Comprehensive Japanese nitrogen management for reducing nitrogen waste
    • 26749 : Quantitative assessment of the impacts of SLCFs on agricultural crops
  • Fiscal Year: 2022
    • 25964 : Climate Change and Air Quality Research Program
    • 25965 : Quantitative evaluation of natural and anthropogenic sinks and sources of greenhouse gases at global scale
    • 25984 : Decarbonized and Sustainable Society Research Program
    • 25985 : Simultaneous achievement of global decarbonization and sustainability
    • 25995 : Research of environmental impacts and management in the disaster areas of Fukushima
    • 26006 : Earth System Domain: Foresight and Advanced Basic Research
    • 26184 : Development of a comprehensive environmental management approach to prepare for future nuclear disasters from environmental perspectives
    • 26202 : Reduction of greenhouse gas emissions from agricultural land through optimization of resource circulation
    • 26219 : A study on nitrogen planetary boundary and nitrous oxide budget using a terrestrial biogeochemical model including reactive nitrogen
  • Fiscal Year: 2021
    • 25498 : Climate Change and Air Quality Research Program
    • 25504 : Decarbonized and Sustainable Society Research Program
    • 25506 : Quantitative evaluation of natural and anthropogenic sinks and sources of greenhouse gases at global scale
    • 25527 : Research of environmental impacts and management in the disaster areas of Fukushima
    • 25532 : Simultaneous achievement of global decarbonization and sustainability
    • 25630 : Coupling of earth system, water resources, crop, and land use models
    • 25632 : Reduction of greenhouse gas emissions from agricultural land through optimization of resource circulation
    • 25641 : Comprehensive evaluation of reactive nitrogen threats at a global scale in past and future
    • 25642 : -
    • 25655 : Earth System Domain: Foresight and Advanced Basic Research
    • 25699 : Development of a comprehensive environmental management approach to prepare for future nuclear disasters from environmental perspectives
  • Fiscal Year: 2020
    • 25153 : Analysis and prediction of radioactive substances behavior in multimedia environment
    • 25171 : Comprehensive evaluation of reactive nitrogen threats at a global scale in past and future
    • 25174 :  
    • 25326 : Development of an open global water risk assessment tool to support investigation of adaptation measures to climate change in the private sector
    • 25377 : Coupling of earth system, water resources, crop, and land use models
  • Fiscal Year: 2019
    • 24734 : Analysis and prediction of radioactive substances behavior in multimedia environment
    • 24773 : Development of an integrated model of reactive nitrogen dynamics in terrestrial ecosystem
    • 24889 : Comprehensive evaluation of CH4 and N2O release from oil palm plantation
    • 24969 : Development of an open global water risk assessment tool to support investigation of adaptation measures to climate change in the private sector
    • 25072 : Comprehensive evaluation of reactive nitrogen threats at a global scale in past and future
    • 25073 :  
    • 25376 : Coupling of earth system, water resources, crop, and land use models
  • Fiscal Year: 2018
    • 24326 : Analysis and Prediction of Radioactive Substances Behavior in Multimedia Environment
    • 24389 : Comprehensive evaluation of reactive nitrogen threats at a global scale in past and future
    • 24469 : Coupling of earth system, water resources, crop, and land use models
    • 24471 : Development of an integrated model of reactive nitrogen dynamics in terrestrial ecosystem
    • 24550 : Comprehensive evaluation of CH4 and N2O release from oil palm plantation
    • 24551 : Development of forest radioactive cesium dynamics database and projection of radioactive cesium using multi-model simulations
    • 24554 :  
    • 24559 : Development of an Open Global Water Risk Assessment Tool to Support Investigation of Adaptation Measures to Climate Change in the Private Sector
    • 24572 : Strategic research on monitoring and countermeasures for environmental radioactive material pollution using a backcasting approach
  • Fiscal Year: 2017
    • 23866 : Analysis and Prediction of Radioactive Substances Behavior in Multimedia Environment
    • 23924 : Development of an integrated model of reactive nitrogen dynamics in terrestrial ecosystem
    • 24050 : Strategic research on monitoring and countermeasures for environmental radioactive material pollution using a backcasting approach
    • 24057 : Coupling of earth system, water resources, crop, and land use models
    • 24083 : Development of forest radioactive cesium dynamics database and projection of radioactive cesium using multi-model simulations
    • 24136 : Comprehensive evaluation of CH4 and N2O release from oil palm plantation
  • Fiscal Year: 2016
    • 23429 : Analysis and Prediction of Radioactive Substances Behavior in Multimedia Environment
    • 23450 : Adaptive land-water-ecosystems use strategy for the climate risk management
    • 23463 : Developing a process oriented model for nitrogen isotope in forest ecosystem
    • 23636 : Strategic research on monitoring and countermeasures for environmental radioactive material pollution using a backcasting approach
  • Fiscal Year: 2015
    • 22993 : Study on global risks related to climate change
    • 23036 : Environmental Recovery Research Program
    • 23067 : Adaptive land-water-ecosystems use strategy for the climate risk management
    • 23270 : Evaluation of Soil CO2 Efflux of Asian Forest Ecosystems based on an Automated Chamber Network
  • Fiscal Year: 2014
    • 22581 : Study on global risks related to climate change
    • 22642 : Adaptive land-water-ecosystems use strategy for the climate risk management
    • 22647 : Environmental Recovery Research Program
    • 22812 : Analysis and Prediction of Radioactive Substances Behavior in Multimedia Environment
  • Fiscal Year: 2013
    • 22165 : Study on global risks related to climate change
    • 22318 : Adaptive land-water-ecosystems use strategy for the climate risk management
  • Fiscal Year: 2012
    • 21736 : Study on global risks related to climate change
    • 21903 : Adaptive Land-Water-Ecosystems use strategy for the Climate Risk Management
Research Result (Publication)
  • all
  • Original Paper
  • Book
  • FOREST ECOSYSTEMS
    Presenter : Hashimoto S., Komatsu M., Imamura N., Ohashi S., Kato H., Nishina K., Tagami K., Uchida S., Shaw G., Wood M., Beresford N., Howard B., Fesenko S., Thiry Y.
    Title : , Environmental Transfer of Radionuclides in Japan following the Accident at the Fukushima Daiichi Nuclear Power Plant (2020)
  • Catchment and Rivers
    Presenter : Onda Y., Hayashi S., Nagao S., Ishii Y., Tsuji H., Taniguchi K., Nishina K., Suzuki K., Watanabe S., Prohl G., Boyer P., Laurent G.-S.
    Title : , Environmental Transfer of Radionuclides in Japan following the Accident at the Fukushima Daiichi Nuclear Power Plant (2020)
Research Result (Presentation)
  • all
  • Research Presentation
  • Research Lecture