Rchr
J-GLOBAL ID:201601002511505018   Update date: Oct. 08, 2024

Hayashi Kiyotada

ハヤシ キヨタダ | Hayashi Kiyotada
Affiliation and department:
Job title: Director
Research field  (1): Environmental impact assessment
Research keywords  (5): Sustainable agricultural production systems ,  Land use change ,  Sustainability assessment ,  Decision analysis ,  LCA of agriculture
Research theme for competitive and other funds  (8):
  • 2021 - 2024 Development of pesticide ecotoxicological characterization factors consistent with toxic action modes and their application to crop protection decisions
  • 2018 - 2023 Construction of prospective LCA through incorporating temporal and spatial scenario uncertainties
  • 2014 - 2019 Life Cycle Assessment of Food Supply Chains through the Formation of the Asian Research Network
  • 2015 - 2018 Sustainable use of fertilizer in terms of resource scarcity: Possible cultivation of soybean independent of biological nitrogen fixation
  • 2014 - 2017 Development and Applications of LCA-based Decision Support Methods for Resolving Trade-offs between Agricultural Production and the Environment
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Papers (40):
  • Yuma Sasaki, Takahiro Orikasa, Ryu Takaoka, Nobutaka Nakamura, Kiyotada Hayashi, Yoshihito Yasaka, Naoki Makino, Koichi Shobatake, Shoji Koide, Takeo Shiina. A novel simplified model to evaluate environmental impact based on life cycle assessment methodology-Case study of spinach considering food waste reduction through modified atmosphere packaging-. Future Foods. 2024. 10. 100456-100456
  • Longlong Tang, Kiyotada Hayashi, Takashi Nagai, Keiya Inao. Preciseness, rather than simplicity, is required to assess pesticide reduction strategies: Findings from rice production in Japan. Science of the Total Environment. 2023. 887
  • Kiyotada Hayashi. Partitioning product footprint changes into yield and environmental improvement effects: toward life cycle assessment of agricultural system transitions. The International Journal of Life Cycle Assessment. 2022
  • Yuma Sasaki, Takahiro Orikasa, Rina Shinozaki, Nobutaka Nakamura, Kiyotada Hayashi, Yoshihito Yasaka, Naoki Makino, Koichi Shobatake, Shoji Koide, Takeo Shiina. Ideal packaging for ripened peaches determined through modeling the relationship between food loss reduction and life cycle environmental impacts. PACKAGING TECHNOLOGY AND SCIENCE. 2022
  • Yuma Sasaki, Takahiro Orikasa, Nobutaka Nakamura, Kiyotada Hayashi, Yoshihito Yasaka, Naoki Makino, Koichi Shobatake, Shoji Koide, Takeo Shiina. Determination of the most environmentally friendly packaging for peach during transportation by modeling the relationship between food loss reduction and environmental impact. Journal of Food Engineering. 2022. 331. 111120-111120
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MISC (18):
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Awards (7):
  • 2022/11 - The Institute of Life Cycle Assessment, Japan The EcoBalance Poster Award (Outstanding Poster) Modeling the relationship between life cycle environmental impacts of ripened peach and food loss reduction induced by transportation packaging
  • 2021/02 - The Japanese Society of Agricultural Machinery and Food Engineers Best Paper Award Influence of plastic package on reduction of environmental burden during distribution of fruit and vegetables: Life cycle assessment (LCA) of strawberry considering damage by transport vibration
  • 2018/03 - Institute of Life Cycle Assessment, Japan Outstanding Achievement Award Life Cycle Assessment for the Establishment of Sustainable Agricultural Production Systems
  • 2015/03 - Institute of Life Cycle Assessment, Japan Best Paper Award Indices of water footprint on the basis of the concept of acceptable delay in water use: Their application to evaluation of agricultural production
  • 2014/03 - Institute of Life Cycle Assessment, Japan Best Paper Award Practical recommendations for supporting agricultural decisions through life cycle assessment based on two alternative views of crop production: The example of organic conversion
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