Japan’s Earthquake Research Committee warned the quake can occur in any of the 23 active faults and fault zones spanning at ...

With data from Japan's extensive network of more than 4,500 Global Navigation Satellite System (GNSS) receivers, the scientists charted the ripple of the 7.5-magnitude Noto Peninsula Earthquake on ...

Scientists from Nagoya University in Japan have made the first 3D visualisation of how the atmosphere reacted to a powerful 7.5-magnitude earthquake that hit the Noto Peninsula on 1 January 2024. They ...

Scientists at Japan’s Nagoya University have used Japan’s extensive network of GNSS receivers to create the first 3D images of atmospheric disturbances caused by the 2024 Noto Peninsula Earthquake.

Tokyo (Jiji Press) -- Municipalities affected by the massive Noto Peninsula earthquake in central Japan in January 2024 are struggling with quake-damaged houses that they cannot quickly remove ...

Spatial distributions of ground surface uplift captured by satellite observation and seafloor active faults. The areas of warmer colors experienced larger ground uplift during the earthquake. Traces ...

Yet the world is changing, and Japan is adapting. In 2024, during the Noto Peninsula earthquake, iQPS satellites provided high-res radar images that helped emergency responders track landslides and ...

The researchers used satellite images of where the earthquake had occurred taken by the ALOS-2 satellite operated by the Japan Aerospace Exploration Agency (JAXA). Scientists used radar images from ...

On January 1, 2024, as the world celebrated the beginning of a new year, a massive magnitude 7.5 earthquake shook the Noto Peninsula, Japan. Over a year later, scientists have revealed how it led ...

More information: Yo Fukushima et al, Landscape changes caused by the 2024 Noto Peninsula earthquake in Japan, Science Advances (2024). DOI: 10.1126/sciadv.adp9193 Journal information: Science ...