Tsunami is a Japanese word that means “harbor wave.” It is a large wave caused by movements in Earth’s outer layer, or crust, which move ocean water. For example, an earthquake or a volcano in the ocean could cause a tsunami.
Earth’s crust is made up of pieces called tectonic plates. An earthquake happens when these plates push against each other so hard that one of them slips or breaks. Imagine leaning against a friend. If you push against each other harder and harder, one or both of you will fall over. When Earth’s plates push against each other, they can move a lot.
If an earthquake happens in the ocean, a large piece of Earth’s crust can be thrust upward or slip from side to side. The movement of a large chunk of Earth displaces the water above it, meaning it takes up the space where the water used to be. So where does the water go? It ripples out from the earthquake in waves.
This is an animation of an October 2012 tsunami as it crossed Hawaii. As the wave (dark blue/white lines) moved, it caused changes in the atmosphere that could be detected by navigation satellites. Credit: Sapienza University/NASA-JPL/Caltech
Tsunamis can be hundreds of feet tall, and they travel very fast. This means they can be dangerous even for people who aren’t on the beach. Tsunamis can be extremely destructive and can knock down whole buildings.
But not all earthquakes or volcanic eruptions cause tsunamis. Whether a tsunami forms can depend on a lot of things. The shape of the ocean floor can determine if a tsunami happens. So can the distance and direction of the earthquake.
If there’s a chance a tsunami is on its way, you don’t want to be near the coast. So how can we tell if a tsunami is coming? We use satellites!
MISR (the Multi-angle Imaging SpectroRadiometer)
is a NASA tool that watches for tsunamis from space. It has nine cameras, all pointed in slightly different directions. As the satellite passes overhead, it takes nine pictures of the same spot from different angles.
MISR can see sunlight reflecting off ripples and waves. Satellites that look straight down cannot see these ripples.
This series of MISR pictures was taken over six minutes on December 26, 2004. It shows tsunami waves breaking on the southeast coastline of India. Credit: NASA/GSFC/LaRC/JPL, MISR Team
These images help scientists understand how tsunamis work. The more we learn about tsunamis, the better we can predict where, when and how strong a tsunami will be. That way, people can have enough warning to get away and stay safe.