| FY2018 |
FY2021 |
【S2-1】 |
Development of a Risk Factor Surveillance System for Conservation of Endangered Bird Species and Studies on the Risk for their Population Reduction Due to Avian Influenza Virus Infection and a Countermeasure against the Risk |
Hayama Shin-Ichi |
Nippon Veterinary and Life Science University |
 |
| FY2018 |
FY2021 |
【S2-1-1】 |
Development of a Risk Factor Surveillance System for Conservation of Endangered Bird Species and Studies on the Risk for their Population Reduction Due to Avian Influenza Virus Infection and a Countermeasure Against the Risk |
Hayama Shin-Ichi |
Nippon Veterinary and Life Science University |
|
| FY2018 |
FY2021 |
【S2-1-2】 |
Development of a Risk Factor Surveillance System for Conservation of Endangered Bird Species and Studies on the Risk for their Population Reduction Due to Avian Influenza Virus Infection and a Countermeasure against the Risk |
Yamaguchi Tsuyoshi |
Tottori University |
|
| FY2018 |
FY2021 |
【S2-1-3】 |
Understanding the present situation of lead contamination causing immunosuppression in endangered birds and elucidating the relationship with avian influenza outbreak |
Onuma Manabu |
National Institute for Environmental Studies |
|
| FY2018 |
FY2021 |
【S2-2】 |
Comprehensive Studies on Oceanic Transport, Environmental risk, and Advanced Monitoring of Marine Plastic Debris |
Isobe Atsuhiko |
Kyushu University |
|
| FY2018 |
FY2021 |
【S2-2-1】 |
Studies on Transport and Spread of Marine Plastic Debris from Coastal to the World's Oceans |
Isobe Atsuhiko |
Kyushu University |
|
| FY2018 |
FY2021 |
【S2-2-2】 |
Evaluation of Impacts of Microplastics and Associated Chemicals on Marine Ecosystem |
Takada Hideshige |
Tokyo University of Agriculture and Technology |
|
| FY2018 |
FY2021 |
【S2-2-3】 |
Studies on Advanced Monitoring of Marine Plastic Debris |
Tokai Tadashi |
Tokyo University of Marine Science and Technology |
|
| FY2019 |
FY2021 |
【S2-4】 |
Advanced Applications with PRTR Data for Sound Life-cycle Managements of Chemicals |
Oguchi Masahiro |
National Institute for Environmental Studies |
|
| FY2019 |
FY2021 |
【S2-4-1】 |
An Approach for Management of Chemical Releases and Flows Using PRTR Data |
Oguchi Masahiro |
National Institute for Environmental Studies |
|
| FY2019 |
FY2021 |
【S2-4-2】 |
Support Tools for Release Source Management and Environment Improvement Validation Using PRTR Scheme |
Kameya Takashi |
Yokohama National University |
|
| FY2019 |
FY2021 |
【S2-5】 |
Creating the Circulating and Ecological Economy by Build Back Better in the Aso as a Model Area |
Shimatani Yukihiro |
Kyushu University |
|
| FY2019 |
FY2021 |
【S2-5-1】 |
Research on build back better based on the relationship between natural disaster and ecosystem services |
Shimatani Yukihiro |
Kyushu University |
|
| FY2019 |
FY2021 |
【S2-5-2】 |
Study on the Evaluation of the Impact of the Kumamoto Earthquake on the Water Cycle, Especially Groundwater in the Kumamoto Area from the Aso Caldera |
Ichikawa Tsutomu |
Tokai University |
|
| FY2019 |
FY2021 |
【S2-5-3】 |
Creating the Circular and Ecological Economy Focusing on Natural Capital and Social Capital |
Ichinose Tomohiro |
Keio University |
|
| FY2020 |
FY2022 |
【S2-6】 |
Intervention Scenarios and Global Mercury Modelling for Effectiveness Evaluation of the Minamata Convention on Mercury |
Takaoka Masaki |
Kyoto University |
|
| FY2020 |
FY2022 |
【S2-6-1】 |
Future Projections on Mercury Control Technologies and Health Risk from Exposure to Mercury |
Takaoka Masaki |
Kyoto University |
|
| FY2020 |
FY2022 |
【S2-6-2】 |
Development of global scenario model for effectiveness evaluation of the Minamata Convention on Mercury |
Nakajima Kenichi |
National Institute for Environmental Studies |
|
| FY2020 |
FY2022 |
【S2-6-3】 |
Investigation of mercury bioaccumulation in marine biota using a global model |
Takeuchi Akinori |
National Institute for Environmental Studies |
|
| FY2020 |
FY2022 |
【S2-7】 |
Development of Biodiversity Monitoring Methods for the Management of Deep-sea Marine Protected Areas |
Fujikura Katsunori |
Japan Agency for Marine-Earth Science and Technology |
|
| FY2020 |
FY2022 |
【S2-7-1】 |
Development of monitoring by image analysis and sampling methods for deep-sea biodiversity |
Fujikura Katsunori |
Japan Agency for Marine-Earth Science and Technology |
|
| FY2020 |
FY2022 |
【S2-7-2】 |
Development of Biodiversity Monitoring Methods for Deep-sea Macro-organisms using Environmental DNA Metabarcoding |
Miya Masaki |
Natural History Museum and Institute, Chiba |
|
| FY2020 |
FY2022 |
【S2-7-3】 |
Development of the metagenome-based methodology for monitoring deep-sea microbial and meiofaunal communities |
Hamasaki Koji |
The University of Tokyo |
|
