Researchers traced tremor signals deep inside Tanzania’s Oldoinyo Lengai volcano, pinpointing their 3D locations for the first time. The study revealed linked tremors at different depths, offering a rare glimpse into magma and gas movement. Because this volcano’s magma is unusually cool and fluid, the results defy expectations and could transform how scientists forecast eruptions.
Researchers traced tremor signals deep inside Tanzania’s Oldoinyo Lengai volcano, pinpointing their 3D locations for the first time. The study revealed linked tremors at different depths, offering a rare glimpse into magma and gas movement. Because this volcano’s magma is unusually cool and fluid, the results defy expectations and could transform how scientists forecast eruptions. Researchers traced tremor signals deep inside Tanzania’s Oldoinyo Lengai volcano, pinpointing their 3D locations for the first time. The study revealed linked tremors at different depths, offering a rare glimpse into magma and gas movement. Because this volcano’s magma is unusually cool and fluid, the results defy expectations and could transform how scientists forecast eruptions.