Our R&D is aimed to maintain and enhance the ocean observation networks in response to the diversification of observation targets and areas while conserving human resources and reducing the environmental impact related to the observations. In addition, we are responsible for the development of fundamental and universal technologies related to ocean observation systems and sensors to establish quality control technology to support reliable observations.
Compact sensors development
Ocean Observation System development
Underwater sensors development
To improve the versatility of the developed sensors and ensure the accuracy of observation data, we have established a calibration scheme for oceanographic thermometers traceable to the International System of Units through National standards focusing on ensuring water temperature traceability.
Calibration scheme for oceanographic thermometers traceable to the National standards
We are developing an antifouling UV-C device for underwater sensors using a new UV plasma-emitting light source. The UV light source has a broad spectral distribution in the UV-C and is characterized by its high bactericidal effect and high luminous efficiency.
We have attached the device to a pH sensor at the Mutsu Institute for Oceanography and are currently conducting tests in the sea. In the test of the device, sufficient biofouling prevention effect was observed when the light was turned on for only 3 minutes per 30 minutes
The leftmost white square is the UV emitting surface, the white plate in the middle is the UV reflector, and the two cylinders are pH sensors.
pH sensor with UV irradiation
pH sensor without UV irradiation
RAMA Buoy cruise
Wave Glider deployment
In the tropical Pacific, JAMSTEC and NOAA (USA) operate the TAO/TRITON (*1) array. The RAMA (*2) array in the Indian Ocean is operated by a multi-national effort; JAMSTEC is responsible for the eastern part of this array. These arrays are part of GTMBA (*3) and contribute to the CLIVAR/GOOS (*4). JAMSTEC also participates in the Tropical Pacific Ocean Observing System 2020 project (TPOS2020 project) since its inauguration in 2014. Our new atmospheric ocean observation equipment the Surface Glider and Multipurpose Observation Float (MOF) contributes to the preservation and renewal of the observation system.