Tsunami. Why did the earthquake cause a tsunami?the earthquake cause tsunami Shallow focus earthquake Large volume of oceanic crust displaced The movement.

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Presentation transcript:

Tsunami

Why did the earthquake cause a tsunami?the earthquake cause tsunami Shallow focus earthquake Large volume of oceanic crust displaced The movement of the crust also displaces a large volume of water water

Tsunami One wave moves toward the shoreline, another travels into the open travels open

Tsunami at the shoreline Not a gigantic version of breaking wave Very rapidly rising tide, rushing inland Sometimes water retreats first

Period A series of waves may arrive every minutes

Shallow water waves because as they travel across the ocean and drag on the bottom (up to 18,000 feet) On the ocean’s surface, the wave is barely detectable (3 feet high) Tsunami

Wind versus tsunami wave Wind waves –Single wave is entire water mass –Velocity depends on period of wave 17 mph for 5-second wave; 70 mph for 20-second wave Tsunami –Huge mass of water with tremendous momentum

Velocity Increase in velocity with an increase in depth –Velocity: v = (g x D) ½ g – acceleration due to gravity; D – depth of water For average D = 5,500 m, v = 232 m/sec (518 mph) Actual observations of tsunami speed peak at 420 to 480 mph Wave will slow as approaches shore, but still fast

Tsunami: velocityvelocity Related to depth of ocean water Pacific Ocean: average depth 18,000 feet Velocities in the open ocean: >500 mph Model of Cascadia 1700 tsunami

Tsunami, Japan, feet high Up to 2.5 miles of inundation 8-10 minute warning

Village of Minamisanriku, where up to 10,000 people—60 percent of its population—are now missing, according to the Telegraph. 44 miles south of Sendai

Town of Yagawahama

Sendai Airport

Japan, 2011 tsunami Billions of dollars spent 40% of Japan’s coastline contains up to 39’ high walls Tsunami destroyed 6 feet- wood structures 12 feet- concrete destroyed 70 feet-everything Gates close seconds after earthquake

Projection of Japan tsunami moving across the Pacific Ocean

Santa Cruz and EmeryvilleCruzEmeryville Crescent City, California

Shoreline arrival of tsunami Tsunami reach greater height when they enter harbor or other narrow space –8 m wave on open coastline  30 m wave in narrow harbor Narrow bay, deeper closer to shore Same depth, farther from shore, open shoreline

As the waves reach shore, speed is reduced Height is increased Tsunami

If You Feel the Earthquake –Mild shaking for more than 25 seconds: powerful, distant earthquake may have generated tsunami –Sea may withdraw significantly, or may rise, before first big wave –Water may change character, make unusual sounds Tsunami and You

TsunamiTsunami and You Tsunami Warnings –Coastal Maps Tsunami-hazard map of Hawaii Big Island, based on local topography Coastline mapping of Indonesia, India and Sri Lanka after 2004 tsunami indicated where human activities increased damage and loss of life –Removal of vegetation, reefs increased impact of waves –Buoys and Pressure Sensors Before 2004, NOAO operated six-buoy warning system in northern Pacific Ocean Funding since provided for 32 buoys around world, transmitting information to scientists New tide-gauge stations and seismometers along coastlines

Tsunami and You Insert table 5.4

Simuele Island, Indonesia, 26 December 2004 –Closest inhabited land to epicenter of magnitude 9.2 earthquake –After shaking stopped, residents fled uphill immediately –Only 7 out of 75,000 inhabitants were killed –Oral history reminded people: when ground shakes, run to hills before giant waves arrive Tsunami and You

Applied information from school project Noticed bubbles and water retreated from the shoreline Notified parents and other hotel residents All moved to higher ground Phuket, Thailand

2004 Indonesia earthquake and tsunamiearthquakeand tsunami

ChileChile earthquake, February 27, 2010

ChileChile earthquake and tsunamitsunami MagnitudeMagnitude 8.8; hypocenter 21 miles Tsunami February 27, 2010

Concepcion: moved 10 feet to the west west

Japan’s tsunami warning system

Seismic recording stations

Tsunami warning system

Pacific Tsunami Warning Center: 1967Center Alaska: west coast of North America Hawaii: the remainder portion of the Ring of Fire NOAA: National Oceanographic and Atmospheric Administration Pacific Marine Environmental Laboratory

Goal is to reduce the loss of life and property Eliminate false alarms Stations are positioned in regions that traditionally produce tsunamis Deep-0cean Assessment and Reporting of Tsunami: DART

Seafloor pressure recording system An acoustic link is used to transmit data from the pressure recording system The data is relayed via satellite Tsunami-harbor wave Deep-0cean Assessment and Reporting of Tsunami: DARTDART

DART Locations

DART II

Tsunami-harbor wave Deep-0cean Assessment and Reporting of Tsunami: DART

DART locations: Indian Ocean

Tsunami Formed when a large volume of water is displaced When offshore, one set of waves moves onshore and another offshore Waves arrive in a series in a shorter amount of time closer to the epicenter Waves increase velocity with depth of ocean As wave approaches the shoreline: – the energy orbital collapses, – friction increases along the ocean bottom, – wave slows but energy is the same and drives the water onshore – Topography of shoreline influences height of surge