Science Bytes
Read about recent highlights of our research at the Australian Museum.
Our Bloggers
Ross Pogson
Collection Manager, Mineralogy
Paul Flemons
Manager, Collections Informatics Unit
Jodi Rowley
Scientific Officer, Herpetology
Stan Florek
Database Manager
Brendan Atkins
Publications Coordinator
Zoe Richards
Scientific Officer
Maxine Kauter
Project Coordinator
Rhiannon Stephens
Digitisation Project Officer
Leonie Prater
Digitisation Project Officer
Archives
-
Science Bytes
- May 2012
- Apr 2012
- Mar 2012
- Jan 2012
- Dec 2011
- Nov 2011
- Oct 2011
-
Sep 2011
- Welcome to the Jungle - Day 12
- Welcome to the Jungle - Day 11
- Welcome to the Jungle - Day 10
- Welcome to the Jungle - Day 9
- Welcome to the Jungle - Day 8
- Welcome to the Jungle - Day 7
- Welcome to the Jungle - Day 6
- Welcome to the Jungle - Day 5
- Welcome to the Jungle - Day 4
- Welcome to the Jungle - Day 3
- Welcome to the Jungle - Day 2
- Welcome to the Jungle - Day 1
- Aug 2011
- Jul 2011
- Oct 2010
- Sep 2010
- Jul 2010
- Aug 2010
- Apr 2010
- Mar 2010
- Feb 2010
-
Dec 2009
- Has the cucumber changed its spots?
- Myriad of amphipods on the GBR
- Trilobite translations
- How to detect newly introduced species
- Micropredators lurk among the seaweed
- Sydney dust storm analysed by Museum mineralogist
- Amphibian Conservation in South-East Asia
- Deep-sea mystery solved as three become one
- Sep 2009
- Jun 2009
Earthquakes and tsunamis
What causes earthquakes and why do tsunamis often follow a large earthquake?
Earthquakes are caused by the sudden movement of rocks along weak zones (faults) or by pressures from volcanic activity. Tectonic plates divide the Earth’s crust into blocks which move and build up stress in rocks. These stressed rocks can sometimes suddenly snap, vertically or sideways, causing shaking and vibration. Japan lies on the Pacific ‘ring of fire’ a region of high earthquake and volcanic activity. Japan is particularly prone to earthquakes as it lies on the junction of several colliding tectonic plates. The Philippine Sea Plate and the Pacific Plate are moving in a north west direction and are being pushed (subducted) beneath the Eurasian plate and North American plate under the region of Japan. This forms an unstable oceanic trench (subduction zone), and creates an Island Arc or string of volcanoes from the rise of magma from the melting crust.
Tsunami is a Japanese word combining ‘harbour’ and ‘wave’. Shock waves from large earthquakes, volcanic eruptions, or landslides can displace ocean waters which travel out as a wave or series of waves. When the wave reaches shallow water near land its top slows down, but faster moving deeper water catches up and forms a higher wave. Tsunamis travel up to 950 km/hour in deep water and 100 to 300 km/hour across a continental shelf.
See and hear more about earthquakes and tsunamis below.
Go to our Plate Tectonic processes page for more geological information.
Geoscience Australia also has more information about earthquakes and tsunamis.
(This post was written in conjunction with Dr Lin Sutherland, Senior Research Fellow, Australian Museum)
Ross Pogson
, Collection Manager, Mineralogy
Last Updated: