Labor-Saving Monitoring of Fisheries Resources and Aquatic Environments Using Fully Automated Systems Based on Environmental DNA (eDNA) Technology
To dramatically reduce labor requirements and enhance the sophistication of continuous monitoring of fisheries resources, including fish, using environmental DNA (eDNA) technology, we aim to commercialize a compact, low-cost, and practical device called the “eDNA Sampler.” Centered on the manufacturing and sale of the eDNA Sampler, we plan to establish a startup company that also […]
Development of Core Devices to Enable a GHG Reduction Consulting Business for Zero-Emission Agriculture
To enable Scope 3–level GHG visibility, agricultural producers within the supply chain also need credible, on-the-ground decarbonization “evidence” that can be measured, verified, and communicated. In this project, we will establish a scheme to implement and validate farming systems designed around new GHG reduction methods. We will support motivated farmers who aim to contribute to […]
Development of an Integrated Coastal Monitoring System for Sustainable Fisheries
To realize sustainable fisheries, we are developing an integrated coastal monitoring and data analytics system that covers both terrestrial and marine domains. Through this research, we aim to elucidate how terrestrial economic activities—including agriculture and industry—as well as meteorological conditions, interact with and influence marine fisheries. By clarifying these land–sea interactions, the project seeks to […]
