Transcript JAPAN

PLATE
TECTONICS
The earthquake in Japan on March 11,
2011 and the tsunami that occurred as
a result of it, once again has shown us
how vulnerable we actually are, living
on tectonic plates that are constantly
on the move.
This presentation will give you a better
understanding of the scientific
concepts of the cause of this
earthquake, the scientific evidence of
the continental drift and the effort of
people to control the damage of these
earthquakes
How do we know about these plates?
Who are the scientists who
contributed to our understanding of
the plate tectonics?
CONTINENTAL DRIFT
Alfred Wegener (1880-1930)
The world’s continents are in
motion
Click here to see a movie about
Continental drift
In 1912 Wegener published his book “ The Origins of Continents and Oceans”.
He hypothesized in the book that, at one time, the continents were joined
together in a supercontinent: Pangaea
Evidence to support this hypothesis:
Continents fit
along their
continental
shelves
Similar fossils
found
Matching
rock types
Pangaea
Evidence for continental drift
Continents fit along their
continental shelves
Matching rock types and similar fossils
found along the borders of these shelves
Similar types and structures of rock exist on continents on opposites
sides of the ocean. The rocks also show similar climate changes. When
the continents are reassembled, the mountain chains from a continuous
belt have the same rock types, structures and rock ages.
What force was
powerful enough to
drive the continents
apart?
What is the
mechanism for
continental drift?
Harry Hess and
Robert Dietz
discovered the
SEAFLOOR
SPREADING
SEAFLOOR SPREADING
The mid-oceanic ridge is formed when
new lithosphere wells up through
convection movement and old lithosphere is
recycled back into the asthenosphere at a
deep ocean trench.
Hess published his ideas about seafloor
spreading in 1962 in a paper titled: “History
of Ocean Basins”
Lithosphere
One of the evidences found for this
seafloor spreading is the discovery of
magnetic stripes.
Earth’s magnetic poles are not stationary:
once in a great while the magnetic poles
exchange positions: north becomes south,
south becomes north.
S
Magnetic
reversal
N
MAGNETIC STRIPES
•
Magnetic surveys show alternating strips of
normal and reversed polarity on both sides of
the rift area
PLATE TECTONICS
•
The interaction of the plates at their
boundaries results in intense
geological activity in those areas
• RING OF FIRE
•The ring of fire is a region of intense
geological activity, because plates
meet at convergent boundaries all
along it.
•As a result earthquakes are common
and many volcanoes are found along
the Ring of Fire.
•Japan lies on the boundary of the
North American Plate and the Pacific
Plate which has shaken the country in
the Pacific Ocean more than once….
KOBE EARTHQUAKE
•
•
The Great Hanshin earthquake, or Kobe
earthquake, occurred on Tuesday,
January 17, 1995, in the southern part of
Hyōgo Prefecture, Japan. It measured 6.8
on the Richter Scale. The focal point of
the earthquake was located 16 km
beneath its epicenter on the northern
end of Awaji Island, 20 km away from the
city of Kobe.
Approximately 6,434 people lost their
lives; about 4,600 of them were from
Kobe. Among major cities, Kobe, with its
population of 1.5 million, was closest to
the epicenter and hit by the strongest
tremors. This was Japan's second worst
earthquake in the 20th century after the
Great Kantō earthquake in 1923, which
claimed 140,000 lives.
NEW BUILDING TECHNIQUES
• The Kobe Earthquake was
the trigger for a renewal in
building techniques:
earthquake resistant
construction.
• Japan has built many
earthquake resistant
constructions since then
and was well prepared
when a massive earthquake
rocked its skyscrapers on
March 11, 2011 in the
Tohoku prefecture………
Earthquake resistant building
Click on:
• This skyscraper was able to
withstand the massive
earthquake…..
• HOWEVER………
swaying skyscraper
TSUNAMI
….the earthquake did not
come alone….
The energy released by the quake
generated huge seismic sea waves:
A TSUNAMI
A WALL OF WATER
•
A tsunami wave is usually less than 1
meter high when it gets close to
shore. As it nears the shore, the
shape of the shore compresses the
wave length but increases its height.
Tsunami waves can then reach
heights of 30 meters above sea level.
This wall of water has caused major
damage to buildings and structures
and has caused the death of about 18000
People, click on: tsunami Japan
WHAT HAVE WE LEARNED
FROM THE KOBE AND
TOHOKU EARTHQUAKE?
1
2
3
4
Earthquake damage can be limited by
earthquake resistant building. The
Kobe earthquake was a catalyst for
rapid change. The need to retrofit to an
improved seismic standard drove
immediate research to determine
appropriate criteria and methods for
repair and retrofit. The earthquake was
the trigger for Implementing New
Seismic Design Technologies in Japan.
The damage to the land and buildings
depend on the type of earthquake, the
type of seismic waves it causes, the
amplitude and strength of the
earthquake and position of the
epicenter of the earthquake
An earthquake occurring at the ocean
floor can cause a tsunami as well. The
tsunami can cause major damage and
can even be the beginning of a nuclear
disaster.
Earthquake prediction is not very
accurate, but a tsunami warning system
can be effective. Warning the countries
that are bordering the ocean through
which the tsunami waves are traveling
with a speed of about 500 miles per
hour can save lives.
Science helps us understand phenomena such as
earthquakes.
Science and technology help us to prevent
damage and death.
NEXT CHALLENGE:
HOW DO WE LIMIT THE DAMAGE
OF A TSUNAMI?
Slideshow by:
Nienke Adamse
4/9/2011
REFERENCES
Hewitt, P.G., Lyons, S., Suchoki, J., Yeh, J. (2007) Conceptual Integrated Science
Glenview, Il: Pearson Education, Inc.
Slide 1 picture Tohoku earthquake. Retrieved from
http://www.ecarolinewalters.com/?p=116
Slide 2 picture Continental drift. Retrieved from http://wwwdas.uwyo.edu/~geerts/cwx/notes/chap15/ancient.html
Slide 2 picture Alfred Wegener. Retrieved from
http://www.scientific-web.com/en/Geology/Biography/AlfredWegener.html
Slide 2 Movie Continental Drift. Retrieved from
http://www.youtube.com/watch?v=leTM6A4NOP4
Slide 4 picture matching continental shelves. Retrieved from
http://commons.wikimedia.org/wiki/File:Pangea_pl_gi_ubt.png
Slide 4 picture matching fossils. Retrieved from
http://www.suu.edu/faculty/colberg/Hazards/PlateTectonics/PlateTectonics.html
Slide 8 picture plate tectonics right. Retrieved from
http://spot.pcc.edu/~aodman/GS%20107%20web/earth,venus,mars/earthmarsvenusind
ex.htm
Slide 8 picture Plate Tectonics left. Retrieved from
http://geology.csupomona.edu/drjessey/class/Gsc101/Plate.html
Slide 9 picture Ring of Fire. Retrieved from
http://pubs.usgs.gov/gip/dynamic/hotspots.html
Slide 10 picture damaged building. Retrieved from http://geoffropuff.com/2010/10/ichikashiearthquake-drill
Slide 11 pictures earthquake resistant building. Retrieved from
http://mceer.buffalo.edu/infoservice/Reference_Services/advEQdesign.asp
Slide12 Movie skyscraper. Retrieved from
http://www.youtube.com/watch?v=-xlUnl5jnIk
Slide 14 Movie Tsunami Japan. Retrieved from
http://www.youtube.com/watch?v=w3AdFjklR50
Slide 15 picture tsunami warning system. Retrieved from http://www.fullissue.com/wpcontent/uploads/2010/12/Tsunami-warning-system.jpg