Friday, May 24, 2013

WEST COAST TSUNAMI : DANGER ON THE PACIFIC TECTONIC PLATE EARTHQUAKE ACTIVITY


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The great San Francisco earthquake and fire of April 18, 1906. "Pine Street below Kearney." Aftermath of the great San Francisco earthquake and fire of April 18, 1906.

 


Deep 8.3 magnitude earthquake strikes Sea of Okhotsk in Russia’s Far East

Posted on May 24, 2013by The Extinction Protocol
Sea of Okhotsk
May 24, 2013 – KAMCHATKA – A magnitude 8.3 earthquake struck off Russia’s eastern coast on Friday, briefly prompting a tsunami scare but causing no casualties or substantial damage, Russian emergency authorities said. The epicenter of the quake was located at a depth of 385 miles in the Sea of Okhotsk, 244 miles west of the nearest city, Petropavlovsk-Kamchatsky, the U.S. Geological Survey said. The quake was felt in Petropavlovsk-Kamchatsky, the main city on the Kamchatka peninsula and home to a nuclear submarine base, and on Sakhalin Island, where Russia’s largest liquefied natural gas project is located. The earthquake struck 608 km (377 miles) below the ocean- diminishing any tsunami risks. Regional emergency authorities issued a tsunami warning for Sakhalin and the Kurile Islands, advising residents of dangerous areas to seek high ground, but lifted the warning several minutes later. Residents of northern Japan felt the quake but there was no tsunami warning from Japan’s meteorological agency. It’s the second major earthquake to strike the planet in 24 hours. A 7.4earthquake struck the region of Tonga, in the South Pacific, hours earlier.  –Reuters
Pacific Plate Quakes May 24
Pacific Plate turbulence increases: At 103 million square kilometers, the Pacific plate is the largest of the tectonic plates and consequently the most violent. Geological forces are tearing at the integrity and stability of this large lithospheric cross-section of the planet. As I reported several days ago, seismic tension was mounting along the Pacific tectonic plate. The cascading series of earthquakes over the last 24 hours are yet one more indication that dynamic geological change is accelerating within the interior of the planet. These processes of change will have profound implications for the entire Ring of Fire and all subduction zones located within this region.


California May 24
May 24, 2013 – CALIFORNIA - An earthquake in far northeastern California was felt by thousands of people as far away as San Francisco and in two other states, but there have been no reports of injury or serious damage. The magnitude-5.7 quake broke dishes and shook mirrors when it struck at 8:47 p.m. Thursday, officials said. It was centered near Greenville, about 25 miles southwest of Susanville in far northeastern California, said Rafael Abreu, a geophysicist with the U.S. Geological Survey’s National Earthquake Center in Golden, Colo. There have been several aftershocks, including a magnitude 4.9 that struck early Friday morning. Slight damage has been reported including objects falling from shelves and dishes rattled or broken, according to a report from the National Weather Service. Susan Shephard and her husband Alan Shephard, who run the Quail Lodge at Lake Almanor near Greenville very close to the epicenter, said they were watching “The Hunger Games” on TV when the whole building started shaking. “All of a sudden things started falling off the shelves, mirrors fell off the wall, vases fell down to the floor, everything started crashing,” Shephard told the Redding Record-Searchlight. “It felt like the end of our world.” The Susanville Fire Department said it had received no reports of damage, and a Plumas County Sheriff’s Office dispatcher said calls were flooding into its office but no reports of damage. Thousands of people reported feeling the quake, as far away as the San Francisco Bay area and across the borders into Oregon and Nevada, according to the USGS website. KCRA-TV in Sacramento reported that the Plumas County temblor was felt in downtown Sacramento, about 145 miles south of the epicenter. People in Yuba and Sutter Counties, south of Plumas, said they felt a rolling quake, according to the Marysville Appeal-Democrat. “People in the area felt a strong jolt, but it was not enough to generate serious damage, based on early field reports,” Abreu said.

Seattle’s hilly neighborhoods could slide into the water during the next earthquake

 
October 23, 2013 – SEATTLE – You already know Seattle is due for a devastating earthquake, but a new study shows one more thing to worry about: Landslides. Seattle is full of slope-side real estate with gorgeous views of Lake Washington and Puget Sound. It’s also primed for possible disaster, thanks to these very same hilly areas that could hurtle into the water during the next big earthquake. Published Tuesday in the Bulletin of the Seismological Society of America, the study found that damage from earthquake-triggered landslides will be worse and more widespread in Seattle than previously thought. The study focused on the Seattle Fault, a 30-mile fracture that runs east-west through Seattle, under CenturyLink Field and over to Issaquah. Capable of inflicting mass damage, it’s due for another rupture, but no one knows when. “A major quake along the Seattle Fault is among the worst case scenarios for the area since the fault runs just south of downtown,” said Kate Alltstadt, a University of Washington doctoral student and co-author of the study.
Then there’s Seattle’s rain and craggy topography, a recipe for landslides. Allstadt and the research team wondered: How would a magnitude 7.0 quake along the Seattle Fault affect the city’s crumbly slopes? Answer: Catastrophe. The study found that thousands of landslides would ravage Seattle’s coastal bluffs and southern neighborhoods. More than a 1,000 buildings would be in hazard zones of collapsing hills, the study found. But that when the soil was dry. A far worse threat loomed when hills were soggy. More than 8,000 buildings would be in potential danger if a major earthquake hit after a rainy spell. “A lot of people assume that all landslides occur in the same areas, but those triggered by rainfall or human behavior have a different triggering mechanism than landslides caused by earthquakes, so we need dedicated studies,” said Allstadt, who’s also a seismologist with the Pacific Northwest Seismic Network. The Seattle Fault last ruptured in 900 A.D., at an estimated magnitude 7.4. It wreaked geologic havoc, sending chunks of forest into Lake Washington. Seattle was not yet a city then, and the next rupture has the deadly potential to bring down thousands of homes. When will this happen? One estimate puts the quake recurrence at every 750 years. Another says every 200 to 12,000 years. One thing is known: Seattle is due; the fault last ruptured more than 1,100 years ago. –Seattle PI

Two Contrasting Models of Lithospheric Structure

Generalized tectonic map of the Cascadia region
The subduction of the Juan de Fuca plate beneath North America changes markedly along the length of the subduction zone, notably in the angle of subduction, distribution of earthquakes, volcanism, geologic and seismic structure of the upper plate, and regional horizontal stress. To investigate these characteristics, we conducted detailed density modeling experiments of the crust and mantle along two transects across the Cascadia subduction zone. One crosses Vancouver Island and the Canadian margin, and the other crosses the margin of central Oregon. Both density models were constructed independently to a depth of approximately 50 km. We gathered all possible geologic, geophysical, and borehole data to constrain the density calculations. The final densities for the Oregon and Vancouver lithosphere models were obtained from gravity inversions.
Our results confirm that the downgoing slab of the Cascadia subduction zone dips significantly steeper beneath Oregon than beneath Vancouver Island, lending support to the idea that the Juan de Fuca plate is segmented from north to south. In addition, our gravity models indicate that the mantle wedge beneath western Oregon (i.e., below the western Cascades) is lighter than the mantle beneath the Canadian continental crust. This low density agrees with the low mantle velocities observed in the mantle and the present day extensional regime of the Pacific Northwest.
A gravity low at the deformation front of the Oregon margin, absent along the Vancouver margin, can be explained by the different bathymetry of the two regions and by the depth to the top of the subducting Juan de Fuca plate. If the accretionary prisms along these profiles were modeled with equal densities, a density in homogeneity in the lower part of the models would be necessary. Thus that the density of the accretionary prism for the Vancouver profile must be approximately 0.1-0.2 g/cm3 greater than that for Oregon. A density difference within the accretionary prisms also agrees with other data. We note that the volume of accreted sediments is approximately twice as large along the Vancouver profile than along the Oregon profile, and the prism reaches a greater depth (approximately 20 km as compared with 12 km for the Oregon profile). This implies that the sediments within the accretionary prism at Vancouver Island are at a higher metamorphic grade, and therefore have higher densities.
We find that a substantial part of the coastal gravity maxima for both lines is caused by increasing density with depth in the subducting plate. In the proposed model, the maximum possible density of the slab was used to satisfy constraints for the average density of the near coastal crust for both profiles. If a density increase with depth is not introduced into the model, very high densities would be required for the near surface coastal and continental crustal blocks.
gravity models for the oregon and vancouver profiles
View the Vancouver or the Oregon profile at a larger scale annotated with density values.

 

 

 






Cascadia subduction zone

File:JuandeFucasubduction.jpg
Structure of the Cascadia subduction zone
File:Cascadia subduction zone USGS.png
Area of the Cascadia subduction zone
In the past 25 years, scientists have developed a theory -- called plate tectonics -- that explains the locations of volcanoes and their relationship to other large-scale geologic features. ...


According to this theory, the Earth's surface is made up of a patchwork of about a dozen large plates that move relative to one another at speeds from less than one centimeter to about ten centimeters per year (about the speed at which fingernails grow). These rigid plates, whose average thickness is about 80 kilometers, are spreading apart, sliding past each other, or colliding with each other in slow motion on top of the Earth's hot, pliable interior. Volcanoes tend to form where plates collide or spread apart, but they can also grow in the middle of a plate, as for example the Hawaiian volcanoes.
The boundary between the Pacific and Juan de Fuca Plates is marked by a broad submarine mountain chain about 500 kilometers long, known as the Juan de Fuca Ridge. Young volcanoes, lava flows, and hot springs were discovered in a broad valley less than 8 kilometers wide along the crest of the ridge in the 1970's. The ocean floor is spreading apart and forming new ocean crust along this valley or "rift" as hot magma from the Earth's interior is injected into the ridge and erupted at its top.
In the Pacific Northwest, the Juan de Fuca Plate plunges beneath the North American Plate. As the denser plate of oceanic crust is forced deep into the Earth's interior beneath the continental plate, a process known as subduction, it encounters high temperatures and pressures that partially melt solid rock. Some of this newly formed magma rises toward the Earth's surface to erupt, forming a chain of volcanoes (the Cascade Range) above the subduction zone.
Coordinates: 45°N 124°WThe Cascadia subduction zone (also referred to as the Cascadia fault) is a subduction zone, a type of convergent plate boundary that stretches from northern Vancouver Island to northern California. It is a very long sloping fault that separates the Juan de Fuca and North America plates.
Ocean floor is sinking below the continental plate offshore of Washington and Oregon. The North American Plate moves in a general southwest direction, overriding the oceanic plate. The Cascadia Subduction Zone is where the two plates meet.
Tectonic processes active in the Cascadia subduction zone region include accretion, subduction, deep earthquakes, and active volcanism that has included such notable eruptions as Mount Mazama (Crater Lake) about 7,500 years ago, Mount Meager about 2,350 years ago and Mount St. Helens in 1980.
Major cities affected by a disturbance in this subduction zone would include Vancouver and Victoria, British Columbia; Seattle, Washington; Portland, Oregon; and Sacramento, California.The zone separates the Juan de Fuca Plate, Explorer Plate, Gorda Plate, and North American Plate. Here, the oceanic crust of the Pacific Ocean has been sinking beneath the continent for about 200 million years, and currently does so at a rate of approximately 40 mm/yr.
The width of the Cascadia subduction zone varies along its length, depending on the temperature of the subducted oceanic plate, which heats up as it is pushed deeper beneath the continent. As it becomes hotter and more molten, it eventually loses the ability to store mechanical stress and generates earthquakes. On the Hyndman and Wang diagram (not shown, click on reference link below) the "locked" zone is storing up energy for an earthquake, and the "transition" zone, although somewhat plastic, could probably rupture.
The Cascadia subduction zone runs from triple junctions at its north and south ends. To the north, just below Queen Charlotte Island, it intersects the Queen Charlotte Fault and the Explorer Ridge. To the south, just off of Cape Mendocino in California, it intersects the San Andreas Fault and the Mendocino fault zone at the Mendocino Triple Junction.

Earthquakes

File:Cascadia earthquake sources.png
Cascadia earthquake sources
Earthquake magnitude
The Cascadia subduction zone can produce very large earthquakes ("megathrust earthquakes"), magnitude 9.0 or greater, if rupture occurs over its whole area. When the "locked" zone stores up energy for an earthquake, the "transition" zone, although somewhat plastic, can rupture. Great Subduction Zone earthquakes are the largest earthquakes in the world, and can exceed magnitude 9.0. Earthquake size is proportional to fault area, and the Cascadia Subduction Zone is a very long sloping fault that stretches from mid-Vancouver Island to Northern California. It separates the Juan de Fuca and North American plates. Because of the very large fault area, the Cascadia Subduction Zone could produce a very large earthquake. Thermal and deformation studies indicate that the locked zone is fully locked for 60 kilometers (about 40 miles)downdip from the deformation front. Further downdip, there is a transition from fully locked to aseismic sliding.
In 1999, a group of Continuous Global Positioning System sites registered a brief reversal of motion of approximately 2 centimeters (0.8 inches) over a 50 kilometer by 300 kilometer (about 30 mile by 200 mile) area. The movement was the equivalent of a 6.7 magnitude earthquake. The motion did not trigger an earthquake and was only detectable as silent, non-earthquake seismic signatures.
Earthquake timing
The last known great earthquake in the northwest was the 1700 Cascadia earthquake. Geological evidence indicates that great earthquakes may have occurred at least seven times in the last 3,500 years, suggesting a return time of 300 to 600 years. There is also evidence of accompanying tsunamis with every earthquake, and one line of evidence for these earthquakes is tsunami damage, and through Japanese records of tsunamis.
The next rupture of the Cascadia Subduction Zone is anticipated to be capable of causing widespread destruction throughout the Pacific Northwest.
Other similar subduction zones in the world usually have such earthquakes every 100 to 200 years; the longer interval here may indicate unusually large stress buildup and subsequent unusually large earthquake slip.
San Andreas Fault connection
Studies of past earthquake traces on both the northern San Andreas Fault and the southern Cascadia subduction zone indicate a correlation in time which may be evidence that quakes on the Cascadia subduction zone may have triggered most of the major quakes on the northern San Andreas during at least the past 3,000 years or so. The evidence also shows the rupture direction going from north to south in each of these time-correlated events. The 1906 San Francisco earthquake seems to have been a major exception to this correlation, however, as it was not preceded by a major Cascadia quake.
[edit]Forecasts of the next major earthquake
Recent findings concluded the Cascadia subduction zone was more hazardous than previously suggested. The feared next major earthquake has some geologists predicting a 10% to 14% probability that the Cascadia Subduction Zone will produce an event of magnitude 9 or higher in the next 50 years; however, the most recent studies suggest that this risk could be as high as 37% for earthquakes of magnitude 8 or higher.
Geologists and civil engineers have broadly determined that the Pacific Northwest region is not well prepared for such a colossal earthquake. The tsunami produced may reach heights of approximately 30 meters (100 ft). The earthquake is expected to be similar to the 2011 Tōhoku earthquake and tsunami, as the rupture is expected to be as long as the 2004 Indian Ocean earthquake and tsunami.
Three days after a massive earthquake that is now estimated to have registered a 9.0 magnitude, Japanese rescue crews are being joined by foreign aid teams in the search for survivors in the wreckage. Japan's Prime Minister Naoto Kan has called the disaster nation's worst crisis since World War II, as the incredible scope of the destruction becomes clear and fears mount of a possible nuclear meltdown at a failing power plant. It is still too early for exact numbers, but the estimated death toll may top 10,000 as thousands remain unaccounted for. Gathered here are new images of the destruction and of the search for survivors. [This is a follow-up to an earlier entry:
File:Diablo Canyon NPP above.jpg
Diablo Canyon Power Plant, 2009 photo from offshore. The light beige domes are the containment structures for Unit 1 and 2 reactors. The brown building is the turbine building where electricity is generated and sent to the grid. In the foreground is the Administration Building (black and white stripes).
File:Diablo Canyon Power Plant from Port San Luis.jpg
Diablo Canyon Power Plant is an electricity-generating nuclear power plant at Avila Beach in San Luis Obispo County, California. The plant has twoWestinghouse-designed 4-loop pressurized-water nuclear reactors operated by Pacific Gas & Electric. The facility is located on about 750 acres (300 ha) in Avila Beach, California. Together, the twin 1,100 MWe reactors produce about 18,000 GW·h of electricity annually, supplying the electrical needs of more than 2.2 million people, sent along the Path 15 500-kV lines that connect to this plant. It was built directly over a geological fault line, and is located near a second fault.
The plant is located in Nuclear Regulatory Commission Region IV. In November 2009, PG&E applied to the Nuclear Regulatory Commission (NRC) for 20-year license renewals for both reactors.
Unit One is a 1,122 M.  We pressurized water reactor supplied by Westinghouse. It went online on May 7, 1985 and is licensed to operate through November 2, 2024.[8] In 2006, Unit One generated 9,944,983 MW·h of electricity, at a nominal capacity factor of 101.2 percent.
Unit Two
Unit Two is a 1,118 MWe pressurized water reactor supplied by Westinghouse. It went online on March 3, 1986 and is licensed to operate through August 20, 2025.[8] In 2006, Unit Two generated 8,520,000 MW·h of electricity, at a capacity factor of 88.2 percent.
The plant draws cooling water from the Pacific Ocean, and during heavy storms both units are throttled back by 80 percent to prevent kelp from entering the cooling water intake. The cooling water is used once and is not recirculated but rather returned to the Pacific Ocean at a minutely higher temperature.

Earthquake hazard

Diablo Canyon was originally designed to withstand a 6.75 magnitude earthquake from four faults, including the nearby San Andreas and Hosgri faults, but was later upgraded to withstand a 7.5 magnitude quake. It has redundant seismic monitoring and a safety system designed to shut it down promptly in the event of significant ground motion.

 

Pacific Gas & Electric Company went through six years of hearings, referenda and litigation to have the Diablo Canyon plant approved. A principal concern about the plant is whether it can be sufficiently earthquake-proof. The site was deemed safe when construction started in 1968.
By the time of the plant's completion in 1973, a seismic fault, the Hosgri fault, had been discovered several miles offshore. This fault had a 7.1 magnitude quake 10 miles offshore on November 4, 1927, and thus was capable of generating forces equivalent to approximately 1/16 of those felt in the 1906 San Francisco earthquake.[
The company updated its plans and added structural supports designed to reinforce stability in case of earthquake. In September 1981, PG&E discovered that a single set of blueprints was used for these structural supports; workers were supposed to have reversed the plans when switching to the second reactor, but did not.[12]According to Charles Perrow, the result of the error was that "many parts were needlessly reinforced, while others, which should have been strengthened, were left .untouched."  Nonetheless, on March 19, 1982 the Nuclear Regulatory Commission decided not to review its 1978 decision approving the plant's safety, despite these and other design errors.
This disaster in Japan can happen here in California after a similar tsunami hits the West Coast
we learned that four of six Fukushima nuclear reactor sites are irradiating the earth, that the fire is burning out of control at Reactor No. 4's pool of spent nuclear fuel, that there are six spent fuel pools at risk all told, and that the sites are too hot to deal with. On March 16 Plumes of White Vapor began pouring from crippled Reactor No. 3 where the spent fuel pool may already be lost. Over the previous days we were told: nothing to worry about. Earthquakes and after shocks, tidal wave, explosions, chemical pollution, the pox of plutonium, contradicting information too obvious to ignore, racism, greed -- add these to the original Four Horsemen of the Apocalypse: Conquest, War, Famine and Death. The situation is apocalyptic and getting worse. This is one of the most serious challenges humanity has ever faced.
While the absence of cooling water facilitated the nuclear crises in Japan, most likely some major reactor components (proven unsafe) also failed under the seismic stresses of the 9.0 quake. Key components likely cracked or shattered. The tsunami and huge aftershocks advanced the chaos. These factors were complicated by the loss of offsite electrical power (an electrical BLACKOUT), the failure of emergency diesel generators, and the subsequent loss-of-coolant (water).
Embrittlement of nickel-based superalloys that comprise reactor internals was flagged as a major safety issue as early as the 1960s, yet such problems were bureaucratically dismissed, covered over, buried in paperwork and regulatory studies produced by the NRC ("NUREG" documents), and ignored. Intergranular stress corrosion cracking of BWR core shrouds (the core shroud is next to fuel rods deep inside) is another major safety issue in GE designed BWRs built by Hitachi at Fukushima, and these plague every BWR reactor in the U.S.
The Tokyo Electric Power Company's (TEPCO) house of cards is toppling, as it has now been revealed that three reactors at the crippled Fukushima Daiichi nuclear power facility all melted shortly after the devastating earthquake and tsunami hit them on March 11 (http://www.bloomberg.com/news/2011-...). TEPCO also now admits that holes likely exist in the reactors' containment vessels as a result, which explains the persistent water leaks and drastic temperature fluctuations that led to continuous containment problems (http://www3.nhk.or.jp/daily/english...).TEPCO officials claim that the company has never hidden any of this information from the public, but that recent data analysis has confirmed what many scientists and experts had correctly predicted weeks ago based on observation of the situation. And rightfully so, many remain critical of TEPCO's drastic underestimation of the true condition of the plant, and say the company's unrealistic optimism since the disaster first occurred has been wholly misleading, and not at all based in reality.
The entire faulty approach taken by TEPCO throughout this unfolding mega-disaster can be compared to the following scenario:
A major vehicle accident has caused the engine of a semi-truck carrying a large
fuel tank to catch fire and explode, which has obviously destroyed the truck's internal computer monitoring system and rendered it non-operational. The large fuel tank on the back of the truck has not yet caught fire, but instead of making a logical assessment based on simple observation that the situation is very serious, and that the fuel tank could soon catch fire, emergency responders (TEPCO) instead say that, because there is no way to run a computer analysis of the truck's engine, there is no way to know for sure to know exactly what is going on. So they instead pour water all over the engine and allege that everything is just fine, instead of making the logical decision to unhinge the truck from the fuel tank and fix the situation as quickly as possible. In the end, more explosions take place, and eventually the disaster escalates into a much worse one.
The only difference between this truck scenario and
Fukushima is the fact that large explosions already took place very early on, which should have been an obvious indicator that things were out of control at the plant. But TEPCO officials, with the apparent approval of the Japanese government, minimized the severity of the situation since nothing could be confirmed with concrete data, despite the fact that nuclear experts everywhere observed the "symptoms" of the disaster, and had come to logical conclusions early on that meltdowns were likely taking place.
So instead of doing what most people would consider to be the right thing, and admitting that the plant was most likely beyond containment -- and that entombing it as quickly as possible in order to avoid the continuous spewing of radioactive particles into
the environment was the best option to take -- TEPCO has instead been playing around with ocean water (http://www.naturalnews.com/031978_r...) and ridiculous polyester tents (http://www.naturalnews.com/032400_F...), all while radioactive materials continue to leak into the atmosphere, groundwater, and oceans. Clearly, things are amiss in the way the entire thing is being handled by those who are expected to be most privy to the nature of nuclear technology and how it behaves under current conditions.
The most recent reports available explain that a shocking 94 percent of the fuel in Reactor 3 may have melted into containment water just three days after the May 11 disaster (
http://www.world-nuclear-news.org/R...). Reactor 3, of course, contains the deadly, plutonium-based MOX fuel that is actually capable of "breeding" itself and regenerating beyond its original mass. And at this point in time, Reactors 1, 2, and 3 have all likely had their entire fuel rods completely melt, creating holes in the containment vessels that are leaking and spreading unknown levels of radiation directly into the environment. And to make matters even worse, a "very intense" super typhoon, Songda, is making its way across the Pacific Ocean where it is expected to hit Japan in the next couple of days. This Category 5 storm is seeing sustained winds of 161 miles per hour (mph) and gusts of up to 195 mph, according to CNN(http://news.blogs.cnn.com/2011/05/2...). Though the storm system is expected to drop to a Category 2 by the time it hits Japan, it has the potential to exacerbate the Fukushima situation by causing more flooding, or by further spreading radioactive particles (http://www.jma.go.jp/en/typh/1102.html).

The Odaka neighborhood seems frozen in time since it was abandoned after the tsunami nearly three months ago: Doors were left hanging open and bicycles were abandoned. A lone taxi sits in front of the train station. Mud-caked dogs roam empty streets, their barking and the cawing of crows the only sounds.
Many homes and businesses in the area escaped serious damage from the March 11 earthquake and tsunami, but their owners have not been allowed back because of concerns about radiation from the nearby nuclear plant crippled by the massive wave. Some have returned anyway, saying they need to get on with their lives.
“It’s eerie here,” said Masahiko Sakamoto, 59, who was loading a truck with two other workers Thursday in their company’s parking lot. “Everyone has gone. I think the number of people who have stayed is just about zero. Some people come back during the day. But it’s too scary at night.”
Government officials have said it is important that the 70,000 to 80,000 people living in the zone stay away, but there are few roadblocks, and police are occupied with other duties and have, for the most part, not been forcing people out.
“I’d rather die from radiation than live in a shelter,” said 55-year-old Mitsuo Sato, who has food and electricity at his home in the evacuation zone but was riding his bike to get water from a well. “I don’t think the police know I’m here.”
In Focus: Abandoned Town
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A Japanese policeman wearing a protective radiation suit stands guard as his colleagues load a dead body into a van in the Odaka area of Minamisoma, inside the deserted evacuation zone established for the 20 kilometer radius around the Fukushima Dai-ichi nuclear reactors. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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A stray dog looks back at the ruins of a tsunami-destroyed neighborhood. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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Uncollected garbage sits on a corner in the Odaka area of Minamisoma. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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A covered car sits in a garage where it was left behind in Odaka area of Minamisoma, inside the deserted evacuation zone established for the 20 kilometer radius around the Fukushima Dai-ichi nuclear reactors. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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A dead pig lies next to a flooded road in the Odaka area of Minamisoma. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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Japanese police wearing protective radiation suits search for the bodies of victims of the tsunami in the Odaka area. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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Shoes and slippers are left in the front entrance of a small abandoned hotel. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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A cat sits in the window of a damaged building. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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A police roadblock is set up on an entry road to the Odaka area of Minamisoma, inside the deserted evacuation zone established for the 20 kilometer radius around the Fukushima Dai-ichi nuclear reactors. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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Chairs are left behind and roof tiles from a collapsed building litter the street in the Odaka area of Minamisoma. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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In this Thursday April 7, 2011 photo, abandoned dogs roam an empty street in the Odaka area of Minamisoma, inside the deserted evacuation zone established for the 20 kilometer radius around the Fukushima Dai-ichi nuclear reactors. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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Bicycles are left at the Odaka train station. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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Japanese police wearing protective radiation suits carry the body of a victim of the tsunami from a rice paddy in the Odaka area of Minamisoma. (AP Photo/David Guttenfelder) #
In Focus: Abandoned Town
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A dead carp lies in the rubble of a tsunami destroyed part of Odaka. (AP Photo/David Guttenfelder)#
In Focus: Abandoned Town
No masking the fear: A masked boy walks past nearly empty shelves at a supermarket in the northwestern city of Akita as panic buying sweeps the country. Radiation levels are rising across Japan
No masking the fear: A boy walks past nearly empty shelves at a supermarket in the north-western city of Akita as panic buying sweeps the country. Radiation levels are rising across Japan
Panic buying: People shop for food from an almost empty shelf at a store in Tokyo
People examine goods on an almost empty shelf at a store in Tokyo. Other residents are fleeing the capital, despite officials insisting that radiation levels are safe
One way traffic: A baby is scanned for radiation in Nihonmatsu as cars stream away from the stricken Fukushima reactor and rising radiation levels in Kitaibaraki, north of Tokyo,
Fight for control: A third explosion rocks the Fukushima Dai-ichi nuclear plant last night where engineers are struggling to avoid a nuclear catastrophe
Fight for control: A third explosion rocks the Fukushima Dai-ichi nuclear plant last night where engineers are struggling to avoid a nuclear catastrophe
Although experts said winds are currently blowing most harmful material out across the Pacific,thousands of residents are also fleeing towns nearer the reactor on the north east coast of Japan.
The situation is worse for 140,000 people who live within an 18-mile exclusion zone around the plant. They were today ordered to stay indoors or be exposed to a dangerous level of radiation.
There is now a 30m no-fly zone around the reactor. The emergency has sparked a mass exodus as far away as Tokyo. Planes out of the Japanese capital were crammed.
A wave approaches Miyako City from the Heigawa estuary in Iwate Prefecture after the magnitude 9.0 earthquake struck the area March 11, 2011. Picture taken March 11, 2011. (REUTERS/Mainichi Shimbun)

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Smoke rises in the distance behind destroyed houses in Kesennuma City in Miyagi Prefecture in northeastern Japan March 12, 2011.(REUTERS/Kyodo)
Coastal towns would be inundated. Schools, buildings and bridges would collapse, and economic damage could hit $32 billion. These findings were published in a chilling new report by the Oregon Seismic Safety Policy Advisory Commission, a group of more than 150 volunteer experts. In 2011, the Legislature authorized the study of what would happen if a quake and tsunami such as the one that devastated Japan hit the Pacific Northwest. The Cascadia Subduction Zone, just off the regional coastline, produced a mega-quake in the year 1700. Seismic experts say another monster quake and tsunami are overdue. “This earthquake will hit us again,” Kent Yu, an engineer and chairman of the commission, told lawmakers. “It’s just a matter of how soon.” When it hits, the report says, there will be devastation and death from Northern California to British Columbia. Many Oregon communities will be left without water, power, heat and telephone service. Gasoline supplies will be disrupted. The 2011 Japan quake and tsunami were a wakeup call for the Pacific Northwest. Governments have been taking a closer look at whether the region is prepared for something similar and discovering it is not. Oregon legislators requested the study so they could better inform themselves about what needs to be done to prepare and recover from such a giant natural disaster. The report says that geologically, Oregon and Japan are mirror images. Despite the devastation in Japan, that country was more prepared than Oregon because it had spent billions on technology to reduce the damage, the report says. Jay Wilson, the commission’s vice chairman, visited Japan and said he was profoundly affected as he walked through villages ravaged by the tsunami. “It was just as if these communities were ghost towns, and for the most part there was nothing left,” said Wilson, who works for the Clackamas County emergency management department. Wilson told legislators that there was a similar event 313 years ago in the Pacific Northwest, and “we’re well within the window for it to happen again.”
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A car sits on top of a small building in a destroyed neighborhood in Sendai, Japan, on Sunday, March 13, 2011 after it was washed into the area by the tsunami that hit northeastern Japan. (AP Photo/David Guttenfelder) #

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People are rescued by helicopter from a rooftop following an earthquake and tsunami in Sendai, northeastern Japan March 12, 2011.(REUTERS/Kyodo) #

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A victim's hand sticks out among the rubble after a magnitude 9.0 earthquake and tsunami struck Rikuzentakata, northern Japan March 13, 2011. (REUTERS/Toru Hanai) #

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Cargo containers strewn about by the recent tsunami in Sendai, northern Japan, Saturday, March 12, 2011. (AP Photo/Itsuo Inouye) #

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Smoke billows from an oil refinery with submerged rice paddy in foreground following a massive tsunami triggered by a powerful earthquake in Sendai, Miyagi prefecture, northern Japan, Saturday, March 12, 2011. (AP Photo/Junji Kurokawa) #

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Cars, which were swept together by a tsunami then caught fire, are seen after an earthquake in Hitachi City, Ibaraki Prefecture March 12, 2011.(REUTERS/Yomiuri) #

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A damaged train off its tracks after an earthquake and tsunami in Matsushima City, Miyagi Prefecture March 12, 2011. (REUTERS/Yomiuri) #

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Fire boats battle a blaze at the Cosmo Oil facility in Ichihara City, Chiba Prefecture near Tokyo March 12, 2011. (REUTERS/Kyodo) #

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A man looks at messages left by survivors at an evacuation center in Ofunato, Iwate Prefecture in northeastern Japan March 12, 2011.(REUTERS/Kyodo) #

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A survivor cries at a shelter in Rikuzentakata, Iwate prefecture in northeast Japan March 13, 2011 after the magnitude 9.0 earthquake and tsunami struck the area. (REUTERS/Lee Jae-Won) #

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A vehicle is half-submerged at a crossroad after an earthquake and tsunami in Sendai, northeastern Japan March 12, 2011.(REUTERS/Jo Yong-Hak) #

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A firefighter runs at the site of a massive tsunami, triggered by a powerful earthquake in Sendai, Miyagi prefecture, northern Japan, Saturday, March 12, 2011. (AP Photo/Junji Kurokawa) #

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People in a floating container are rescued from a building following an earthquake and tsunami in Miyagi Prefecture, northeastern Japan March 12, 2011. (REUTERS/Kyodo) #

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Factory facilities look damaged in an industrial complex in Sendai, northern Japan, Saturday, March 12, 2011. (AP Photo/Itsuo Inouye) #

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Vessels lie in the rubble in Ofunato, Iwate prefecture, northern Japan, Saturday, March 12, 2011, after being washed away by an earthquake-triggered tsunami. (AP Photo/The Yomiuri Shimbum, Miho Iketani) #

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Oil leaked from a Nippon Petroleum Refining Co. oil factory float at Shiogama bay, Miyagi prefecture, Japan, Saturday, March 12, 2011, a day after one of Japan's strongest earthquakes ever recorded hit the country's east coast. (AP Photo/The Yomiuri Shimbun, Naoki Ueda) #

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Police officers wearing respirators guide people to evacuate away from the Fukushima Daiichi nuclear plant following an evacuation order for residents who live in within a 10 km (6.3 miles) radius from the plant after an explosion in Tomioka Town in Fukushima Prefecture March 12, 2011. Japanese authorities battling to contain rising pressure in nuclear reactors damaged by a massive earthquake were forced to release radioactive steam from one plant on March 12, 2011 after evacuating tens of thousands of residents from the area. Tokyo Electric Power Co also said fuel may have been damaged by falling water levels at the Daiichi facility, one of its two nuclear power plants in Fukushima, some 240 km (150 miles) north of Tokyo. (REUTERS/Asahi Shimbun) #

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A patient is evacuated from a destroyed hospital after a magnitude 8.9 earthquake and tsunami hit Otsuchi Town, Iwate Prefecture in northern Japan March 13, 2011. (REUTERS/Kyodo) #

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Self-Defense Force officers search for missing people after a tsunami and earthquake in Rikuzentakatashi City in Iwate Prefecture in northeastern Japan March 12, 2011. (REUTERS/Yomiuri) #

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Buildings destroyed by a tsunami are pictured in Minamisanriku, Miyagi Prefecture, in northern Japan after the magnitude 8.9 earthquake and tsunami struck the area, March 13, 2011. (REUTERS/Kyodo) #

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Evacuees sit through an earthquake at a temporary shelter at a stadium in Koriyama, northeastern Japan March 12, 2011.(REUTERS/Jo Yong-Hak) #

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Damaged houses are seen after an earthquake and tsunami in Sendai, northeastern Japan March 12, 2011. (REUTERS/Jo Yong-Hak) #

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White smokes rises into the air in the badly damaged town of Yamada in Iwate prefecture on March 12, 2011 a day after a massive quake and tsunami hit the region. (YOMIURI SHIMBUN/AFP/Getty Images) #

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A resident is rescued from debris in Natori, Miyagi, northern Japan Saturday, March 12, 2011, after one of the country's strongest earthquakes ever recorded hit its eastern coast on Friday. (AP Photo/Asahi Shimbun, Noboru Tomura) #

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A ship sits grounded after a tsunami and earthquake in Kamaishi City in Iwate Prefecture March 12, 2011. (REUTERS/YOMIURI) #

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Buildings stand in the rubble in Rikuzentakata, northern Japan after the magnitude 9.0 earthquake and tsunami struck the area, March 13, 2011. (REUTERS/Toru Hanai) #

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Rescue workers lift the body of a victim from the rubble in Rikuzentakata, northern Japan after the magnitude 8.9 earthquake and tsunami struck the area, March 13, 2011. (REUTERS/Toru Hanai) #

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Building foundations and mud are all that remain in a tsunami-devastated area in Sendai, northeastern Japan March 12, 2011.(REUTERS/Jo Yong-Hak) #

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People evacuate with small boats down a road flooded by the tsunami waves in the city of Ishinomaki in Miyagi prefecture on March 12, 2011 a day after massive quake and tsunami hit the region. (JIJI PRESS/AFP/Getty Images) #

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A man looks at the scene of devastation as he stands in the rubble in Rikuzentakata, northern Japan after the magnitude 9.0 earthquake and tsunami struck the area, March 13, 2011. (REUTERS/Toru Hanai) #

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A person walks past an overturned squid-fishing boat tossed onto land by a tsunami in Hachinohe City, Aomori Prefecture, in northern Japan, March 13, 2011. (REUTERS/Kyodo)


































































































Japan Earthquake, 2 Years Later: Before and After

In a few days, Japan will mark the 2nd anniversary of the devastating Tohoku earthquake and resulting tsunami. The disaster killed nearly 19,000 across Japan, leveling entire coastal villages. Now, nearly all the rubble has been removed, or stacked neatly, but reconstruction on higher ground is lagging, as government red tape has slowed recovery efforts. Locals living in temporary housing are frustrated, and still haunted by the horrific event, some displaying signs of post-traumatic stress disorder. Collected below are a series of before-and-after interactive images. Click on each one to see the image fade from before (2011) to after (2013).

The tsunami-devastated Kesennuma in Miyagi prefecture, is pictured in this side-by-side comparison photo taken March 12, 2011 (left) and March 4, 2013 (right), ahead of the two-year anniversary of the March 11 earthquake and tsunami that damaged so much of northeastern Japan.(Reuters/Kyodo)

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This before-after pair of images shows a private plane, cars and debris outside Sendai Airport in Natori, Miyagi prefecture on March 13, 2011, and the same area two years later, on February 21, 2013. [click image to view transition](Mike Clarke, Toru Yamanaka, Toshifumi Kitamura/AFP/Getty Images) #

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A catamaran sightseeing boat washed by the tsunami onto a two-story tourist home in Otsuchi, Iwate prefecture on April 16, 2011, and (click to fade) the same area on February 18, 2013. [click image to view transition](Toru Yamanaka, Yasuyoshi Chiba, Toshifumi Kitamura/AFP/Getty Images) #

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Residents crossing a bridge covered with debris in a tsunami-hit area of the city of Ishinomaki in Miyagi prefecture on March 15, 2011, and (click to fade) the same area nearly two years later on February 22, 2013. [click image to view transition](Kim Jae-Hwan, Toru Yamanaka/AFP/Getty Images) #

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Residents look at a tsunami-damaged area of Minamisoma, Fukushima Prefecture, on March 12, 2011, and (click to fade) the same area on February 17, 2013. [click image to view transition] (Toru Yamanaka, Kazuhiro Nogi, Toshifumi Kitamura/AFP/Getty Images) #

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Rusted vehicles and tsunami debris in Ishinomaki, Miyagi prefecture, on March 19, 2011, and (click to fade) March 1, 2013. [click image to view transition] (Reuters/Kyodo) #

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Tsunami debris covers a large area of Natori, near Sendai in Miyagi prefecture on March 13, 2011, and (click to fade) the same field on February 21, 2013. [click image to view transition] (Mike Clarke, Toru Yamanaka, Toshifumi Kitamura/AFP/Getty Images) #

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A tsunami-hit area of Rikuzentakata, Iwate prefecture on March 29, 2011, and (click to fade) the same area on February 19, 2013. [click image to view transition] (Toru Yamanaka, Toshifumi Kitamura/AFP/Getty Images) #

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The tsunami-devastated Minamisanriku, Miyagi prefecture, seen on March 13, 2011, and (click to fade) March 2, 2013. [click image to view transition] (Reuters/Kyodo) #

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Residents walk past damaged cars on a street in a tsunami-damaged area of Tagajo, Miyagi prefecture on March 13, 2011, and (click to fade) the same street on February 21, 2013. [click image to view transition](Kim Jae-Hwan, Toru Yamanaka, Toshifumi Kitamura/AFP/Getty Images) #

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A tsunami-hit street in Ofunato, Iwate prefecture on March 14, 2011, and (click to fade) the same scene as it appeared on February 19, 2013.[click image to view transition] (Toru Yamanaka, Toshifumi Kitamura/AFP/Getty Images) #

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A rescue worker walks through rubble in the tsunami hit area of Minamisanriku, Miyagi prefecture on March 18, 2011, and (click to fade) the same area on February 20, 2013. [click image to view transition] (Mike Clarke, Toru Yamanaka, Toshifumi Kitamura/AFP/Getty Images) #

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A cherry blossom tree stands among tsunami debris in the city of Kamaishi, Iwate prefecture on April 20, 2011, and (click to fade) the same scene on February 18, 2013. [click image to view transition] (Toru Yamanaka, Yasuyoshi Chiba, Toshifumi Kitamura/AFP/Getty Images) #

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A catamaran sightseeing boat washed by the tsunami onto a two-story home in Otsuchi, Iwate prefecture on April 16, 2011, and (click to fade) the same structure on February 18, 2013. [click image to view transition](Toru Yamanaka, Yasuyoshi Chiba, Toshifumi


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On March 12, 2011, people evacuate down a road flooded by the tsunami in the city of Ishinomaki in Miyagi prefecture, click to fade the image and show the same road on February 22, 2013. [click image to view transition](Jiji Press, Toru Yamanaka, Toshifumi Kitamura/AFP/Getty Images) #

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A 10-meter tall pine tree stands in Rikuzentakata, Iwate prefecture on March 29, 2011, shortly after the tsunami. Click to see the same scene nearly two years later, on February 19, 2013. It was the only tree to have survived the tsunami among some 70,000 trees located by the seashore to protect from salt, sand and wind damage, but later died. The crane (2nd image) is working on a memorial to the tree. [click image to view transition] (Toru Yamanaka, Toshifumi Kitamura/AFP/Getty Images) #

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Tsunami-hit Ofunato, in Iwate prefecture on March 14, 2011, and (click to fade) the same scene as it appeared on February 18, 2013. [click image to view transition] (Toru Yamanaka, Toshifumi Kitamura/AFP/Getty Images) #

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An image of the tsunami breaching an embankment and flowing into the city of Miyako, Iwate prefecture, taken by a Miyako City official on March 11, 2011, and (click to fade) the same scene on February 18, 2013, nearly two years later. [click image to view transition](Jiji Press, Toru Yamanaka, Toshifumi Kitamura/AFP/Getty Images)



















Nuclear power and earthquakes
IN THE ZONE: Diablo Canyon Nuclear Plant in California sits within the most active earthquake zone in the United States. (Photo: emdot/Flickr)
Nuclear power is under the microscope as much of the world watches the aftermath of the Japanese earthquake and the resulting tsunamis.
Fires near Japanese nuclear power plants are forcing evacuations and concerns for all the obvious reasons. Those concerns have traveled across the Pacific to California, where nuclear power plants are being shut down.
Let’s take a look at which nuclear power plants sit in the seismically active areas of the United States.
Generally, this concern is focused on the West Coast of the United States, because that's where most of our large earthquakes have occurred. There are no nuclear power plants in Hawaii or Alaska, but there are four nuclear reactor sites along the West Coast — one nuclear reactor site in Washington, two in California and one in Arizona.Here's a link to an interesting site, nukepills.com, where you can see the location of all nuclear power plants as well as the theoretical fallout zones.
Below, you can see the locations of the power plants, minus the fallout zones:
commercial nuclear reactor plants
Now, these are just the power plants. There is a whole other issue with non-power nuclear reactors. These aren’t power plants, but research facilities such as universities where smaller-scale reactors are located. In all, there are eight of these sites along the West Coast. One is in Arizona, four are in California, two are in Oregon and one is in Washington. In all, the United States has 36 of these smaller sites, which can be seen below:
As you can see, most of the nuclear power plants and research facilities lie in the middle of the country. A good number that lie the West Coast are in the most seismically active parts of the nation, as this map from the United States Geological Survey shows:
Over the course of history, the concerns surrounding the nuclear industry have been focused on accidents that occurred despite safety regulations. This is what caused Chernobyl, and what has been blamed for the cause of Three Mile Island. While earthquakes and tsunamis can't be controlled, we can control what we know. And these maps allow us to know where the risks lie when it comes to nuclear industry and earthquakes.








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What if the great 1906 San Francisco earthquake struck today?

  • Photographer Shawn Clover finds the exact spot each photo was taken and waits for the right light conditions
  • He studied archives of old photos taken at the time of the disaster
  • Around 25,000 buildings were destroyed by fire that raged for four days after the quake



These dramatic photographs show the streets of modern-day San Francisco torn apart by the after-effects of a violent earthquake.
Buildings are reduced to rubble, huge craters have opened in the debris-strewn roads and uncontrollable fires have ripped through homes.
Fortunately, these pictures are a clever amalgamation of images of the city today and after the devastating quake of 1906.
Trip back in time: A women opens the door to her Mercedes on Sacramento Street while horses killed by falling rubble lie in the street
Trip back in time: A women opens the door to her Mercedes on Sacramento Street while horses killed by falling rubble lie in the street
Wonders of the modern world: A crowd from 1906 stare out over the burning city - and a 21st century bus
Wonders of the modern world: A crowd from 1906 stare out over the burning city - and a 21st century bus
Foundations: Shoppers blithely cross the street while workers begin the monumental task of rebuilding a destroyed San Francisco
Foundations: Shoppers blithely cross the street while workers begin the monumental task of rebuilding a destroyed San Francisco
Breathtaking: Mr Clover returned almost 20 times to get the exact position and light right for this picture of the fallen Valencia St. Hotel
Breathtaking: Mr Clover returned almost 20 times to get the exact position and light right for this picture of the fallen Valencia St. Hotel
They were created by photographer Shawn Clover, a San Francisco resident who wanted to reimagine the traditional 'then-and-now' concept.
Mr Clover first selects a catalogue of historical photos and then takes new ones from the same spot, which he softly blends with the old. Once he has usable images, he has to recreate the exact conditions in which the original was taken - from where the photographer was positioned to where the sun is in the sky.
I found that many of the original photos I planned to use were in fact unusable because the photographer was situated in a place where a building stands today,' he writes on his blog. 'Others now have trees blocking the view.
'My goal is to stand in the exact spot where the original photographer stood,' he adds. 'Doing this needs to take into account equivalent focal length, how the lens was shifted, light conditions, etc.
Ghostly echoes: Mechanics Monument at Bush Street and Battery Street is surrounded by the shells of wrecked buildings from the past
Ghostly echoes: Mechanics Monument at Bush Street and Battery Street is surrounded by the shells of wrecked buildings from the past
Trash to tourism: Passing cable cars offer a view of the destruction of California Street. Cable cars at the time were crushed by rubble
Trash to tourism: Passing cable cars offer a view of the destruction of California Street. Cable cars at the time were crushed by rubble
Evocative: Fire fills the streets around Alamo Square - but does not quite reach the sunlit future - in one of Shawn Clover's mesmerising pictures
Evocative: Fire fills the streets around Alamo Square - but does not quite reach the sunlit future - in one of Shawn Clover's mesmerising pictures
Broken windows: Cars park in front of the brand new US Courthouse, which survived the quake almost intact
Broken windows: Cars park in front of the brand new US Courthouse, which survived the quake almost intact
'I take plenty of shots, each nudged around a bit at each location. Just moving one foot to the left changes everything.
He added: 'I kept running into delays. In the case of the Valencia St. Hotel, I had to return to the scene on Valencia between 18th and 19th four times before I managed to get it right. There’s quite a bit of conflicting information of exactly where this building once stood.
'And just when I was about to wrap things up, my dad announced that he had unearthed a local magazine published in late 1906 loaded with earthquake-aftermath photos that I had never seen in any library or online collection.'
Photography was a common hobby by 1906 and thousands of photos have survived to this day. One photographer even flew his £46 camera on a kite to get aerial shots of the aftermath. Some colour photographs have even been found.
Strange visions: Modern day business people and a child from 1906 face the camera while fire consumes a building on the corner of Franklin St and Hayes St
Strange visions: Modern day business people and a child from 1906 face the camera while fire consumes a building on the corner of Franklin St and Hayes St
Fade out: Cheerful tourists pass by the Fairmont Hotel, which still stands, but is destroyed inside from the fires
Fade out: Cheerful tourists pass by the Fairmont Hotel, which still stands, but is destroyed inside from the fires
Always prepared: Men pose in a tent city to house displaced residents while an armoured car turns left a corner
Always prepared: Men pose in a tent city to house displaced residents while an armoured car turns left a corner
In ruins: Buildings fell, sinkholes in the streets opened up, railroad tracks bent, and collapsing bricks crushed cable cars during the disaster
In ruins: Buildings fell, sinkholes in the streets opened up, railroad tracks bent, and collapsing bricks crushed cable cars during the disaster
The 42 seconds of intense shaking made building collapse, sinkholes in the streets open up, railroad tracks bend, and collapsing bricks crush cable cars.
Four-day-long fires were responsible for 90 per cent of the destruction, with more than 30, caused by ruptured gas mains, destroying around 25,000 buildings on 490 city blocks.
Many were started when firefighters untrained in the use of dynamite attempted to demolish buildings to create firebreaks, and the dynamited buildings themselves caught fire.
Mayor Eugene Schmitz put out an authorization for the federal troops and police to shoot and kill looters. Thousands of tents and temporary relief houses went up to house 20,000 displaced people.
Mr Clover has spent more than two years recreating the chaos in 1906 + 2010: The Earthquake Blend.



Ode to San Fran: A tourist takes a photo of a cable car heading towards the California St incline - if only he could see the aimless people of the past
Ode to San Fran: A tourist takes a photo of a cable car heading towards the California St incline - if only he could see the aimless people of the past



Masterpiece: Two girls stand before the partially destroyed Sharon Building in Golden Gate Park while students work on their art projects inside
Masterpiece: Two girls stand before the partially destroyed Sharon Building in Golden Gate Park while students work on their art projects inside



Underground artwork: A woman walks dangerously close to a pit of rubble on 5th St by the US Mint
Underground artwork: A woman walks dangerously close to a pit of rubble on 5th St by the US Mint




Standing tall: Pedestrians cross Jones St towards a pile of rubble on Market Street and the gutted Hibernia Bank
Standing tall: Pedestrians cross Jones St towards a pile of rubble on Market Street and the gutted Hibernia Bank







Tsunamis are one of the most destructive and deadly natural disasters.In recent history, the two most devastating events occurred in the Indian Ocean in 2004 and Japan in 2011 – killing nearly 300,000 people in total and causing more than $315 billion dollars in damages.However, these ‘regular’ tsunamis cannot compare to another category of massive waves known as ‘mega tsunamis’.The Earth has experienced a handful of these and the most famous may be the event that wiped out the dinosaurs – the asteroid generated a wave up to 3.1 miles high.Scroll down for videos 


In recent history, the two most destructive events occurred in the Indian Ocean in 2004 (pictured) and Japan in 2011. However, these ‘regular’ tsunamis cannot compare to another category of massive waves known as ‘mega tsunamis’






In recent history, the two most destructive events occurred in the Indian Ocean in 2004 (pictured) and Japan in 2011. However, these ‘regular’ tsunamis cannot compare to another category of massive waves known as ‘mega tsunamis’
Unlike a regular tsunami that is created by an earthquake, a mega tsunami is usually created when a massive amount of material suddenly falls into water which displaces that water into a huge wave.
 A landslide into a reservoir in Italy created a wave 820 feet (250 meters) high that traveled over a dam and into a village below, which left it in ruins.
A larger tsunami happened in happened in Lituya Bay, Alaska in 1958 when a landslide fell into the bay.
This event generated waves 1,722 feet (525 meters) high, which caused damage to the area surrounding the bay and destroyed millions of trees.
However, the largest mega tsunami to occur in history happened 66 million years ago. 
It’s believed that when the asteroid hit Earth that wiped out the dinosaurs, it generated an unbelievable wave up to 3.1 miles (5 kilometers) high.
The YouTube channel, ‘RealLifeLore’, posted a video last week entitled ‘How Big do Tsunamis Get?’
‘Tsunamis are some of the most powerful and deadliest forces of nature,’ ReaLifeLore said in a YouTube video.
‘Within recent memory you may recall both the 2004 Indian Ocean and 2011 Japan tsunami – both of which resulted in catastrophic damage and loss of life.’
More than a decade ago, 250,000 people lost their lives in what is deemed 'the deadliest tsunami in history'.
The earthquake that occurred in the Indian Ocean released more energy than every explosive that was detonated in World Word II combined – this is also including the nuclear bombs, according to RealLifeLore.
And as a result, the energy created a wave that was 100 feet (20 meters) high in some places.
Although Japan’s tsunami in 2011 did not claim as many lives, about 2,500, it caused an estimated $300 billion worth of damages in the area.
The earthquake generated waves as high as 133 feet (40.5 meters) high, which is just about 16 feet (5 meters) shorter than the Statue of liberty.
Although these events wreaked havoc and devastated these areas, they aren’t the largest ones to strike the Earth.
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SHARE THIS ARTICLEShare‘Unlike a regular tsunami that is created by an earthquake, a mega tsunami is usually created when a massive amount of material suddenly falls into water which displaces that water into a huge wave,’ RealLifeLore explains.
One of these terrifying events occurred in Italy back in 1963, just 62 miles (100 kilometers) north of Venice.
It happened following the government's construction of the world’s largest dam.
Waves of destruction: History's biggest and deadliest tsunamis
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In the early 2000s, other researchers started publishing evidence that the Cape Verdes could generate large tsunamis. 
Others have argued that Spain's Canary Islands have already done so. 
Simon Day, a senior researcher at University College London has sparked repeated controversy by warning that any future eruption of the Canary Islands' active Cumbre Vieja volcano could set off a flank collapse that might form an initial wave 3,000 feet high. 





The tsunami in the Indian Ocean created waves 100 feet (20 meters) high in some places. However, the tsunami in Japan in 2011 (pictured) generated waves 133ft (40.5 meters) high, which is just about 16 feet (5 meters) shorter than the Statue of liberty





The tsunami in the Indian Ocean created waves 100 feet (20 meters) high in some places. However, the tsunami in Japan in 2011 (pictured) generated waves 133ft (40.5 meters) high, which is just about 16 feet (5 meters) shorter than the Statue of liberty
This, he says, could erase more than nearby islands. 
Such a wave might still be 300 feet high when it reached west Africa an hour or so later he says, and would still be 150 feet high along the coasts of North and South America. 
So far, such studies have raised mainly tsunamis of publicity, and vigorous objections from other scientists that such events are improbable. 
A 2013 study of deep-sea sediments by the United Kingdom's National Oceanography Centre suggests that the Canaries have probably mostly seen gradual collapses. 
Part of the controversy hangs not only on the physics of the collapses themselves, but on how efficiently resulting waves could travel. 
Unseen Japan Tsunami video: Town destroyed in seconds
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In 1792, part of Japan's Mount Unzen collapsed, hitting a series of nearby bays with waves as high as 300 feet, and killing some 15,000 people.
On July 9, 1958, an earthquake shook 90 million tons of rock into Alaska's isolated Lituya Bay; this created an astounding 1,724-foot-high wave, the largest ever recorded. 
Two fishermen who happened to be in their boat that day were carried clear over a nearby forest; miraculously, they survived. 
These events, however, occurred in confined spaces. In the open ocean, waves created by landslides are generally thought to lose energy quickly, and thus to pose mainly a regional hazard. 
However, this is based largely on modeling, not real-world experience, so no one really knows how fast a killer wave might decay into a harmless ripple.
‘The only problem is that they were building this dam with a huge water reservoir the size of a large lake right next to one of the most unstable mountains on the planet,’ says the narrator in the YouTube video.
‘For months leading up to the completion of the dam there were several minor landslides and other signs that there could be a catastrophe coming, but rather than head the numerous warning signs the Italian government actually decided to sue the few journalists reporting on the issue for ‘undermining the social order’.


A landslide in Italy generated a wave 820 feet (250 meters) high and traveled over what was called the world's largest dam and into the village below. Now where the dam was is just a mountain side and the reservoir is filled in with land


A landslide in Italy generated a wave 820 feet (250 meters) high and traveled over what was called the world's largest dam and into the village below. Now where the dam was is just a mountain side and the reservoir is filled in with land


A photo taken of the town Longarone before (pictured) and after the mega tsunami struck shows just how devastating the event was, as the little village was completely destroyedIt caused an impact create 200 feet (60m deep and 260 feet (80m) wide when it hit the ground A photo taken of the town Longarone before (left) and after (right) the mega tsunami struck shows just how devastating the event was, as the little village was completely destroyed. It caused an impact create 200 feet (60m deep and 260 feet (80m) wide when it hit the ground
The landslide ended up being 10 times more than what engineers predicted and filled the entire reservoir, generating a wave 820 feet (250 meters) high that traveled over the dam and into the village below.
And it caused an impact crater 200 feet (60 meters) deep and 260 feet (80 meters) wide when it hit the ground.
A photo taken of the town Longarone before and after the mega tsunami struck shows just how devastating the event was, as the little village was completely destroyed.
However, this event was much smaller than the one that happened in Lituya Bay, Alaska in 1958.
A powerful earthquake caused a landslide at the back side of the bay, which sent land crashing into the water.A powerful Earthquake caused a landslide at the back side of the bay in Lituya Bay, Alaska in 1958., forcing land to come trashing down into the water. This event generated waves 1,722ft high, which caused damage to the area surrounding the bay and destroyed millions of trees


A powerful Earthquake caused a landslide at the back side of the bay in Lituya Bay, Alaska in 1958., forcing land to come trashing down into the water. This event generated waves 1,722ft high, which caused damage to the area surrounding the bay and destroyed millions of trees


The largest tsunami created by a landslide happened nearly 1.5 million years ago on the Hawaiian island called Molokai. One third of the northern portion of the volcano on the island collapsed into the ocean, which created a wave 1,969 feet (600 meters) high


The largest tsunami created by a landslide happened nearly 1.5 million years ago on the Hawaiian island called Molokai. One third of the northern portion of the volcano on the island collapsed into the ocean, which created a wave 1,969 feet (600 meters) high
This event generated waves 1,722 feet (525 meters) high, which caused damage to the area surrounding the bay and destroyed millions of trees.
The wave was taller than the Empire State Building and just 52 feet (16 meters) shorter than the Freedom Tower in New York City.
But this is still tiny compared to some prehistoric mega tsunamis.
The largest tsunami created by a landslide happened nearly 1.5 million years ago on the Hawaiian island called Molokai.
One third of the northern portion of the volcano on the island went tumbling down into the ocean - creating a 1,969 feet (600 meters) high wave.
This event completely flooded the Hawaiian island and wreaked havoc on the rest of the island chain.
‘This wave would have been about the height of four Great Pyramids of Giza stacked on top of each other,’ explains RealLifeLore.


Some 66 million years ago, an asteroid fell from space and is believed to have wiped out the dinosaurs – it is also said to be the largest mega tsunami in all of Earth’s history when it crashed into the modern day Gulf of Mexico Some 66 million years ago, an asteroid fell from space and is believed to have wiped out the dinosaurs – it is also said to be the largest mega tsunami in all of Earth’s history when it crashed into the modern day Gulf of Mexico
‘But even this pales in comparison to the largest ever known mega tsunami, which was caused by an asteroid.’
Some 66 million years ago, an asteroid fell from space and is believed to have wiped out the dinosaurs – it is also said to be the largest mega tsunami in all of Earth’s history when it crashed into the modern day Gulf of Mexico.
The asteroid was 6 miles (10 kilometers) in diameter and when it hit, created 100 teratons of TNT worth of energy.
To put this in perspective, you would need two million Tsar Bomba, the largest nuclear bomb ever detonated, to recreate the same amount of energy.


To put this in perspective, you would need two million Tsar Bomba, the largest nuclear bomb ever detonated, to recreate the same amount of energy. It’s believed that when the asteroid hit Earth, it generated an unbelievable wave up to 3.1 miles (5 kilometers) high


To put this in perspective, you would need two million Tsar Bomba, the largest nuclear bomb ever detonated, to recreate the same amount of energy. It’s believed that when the asteroid hit Earth, it generated an unbelievable wave up to 3.1 miles (5 kilometers) high
It’s believed that when the asteroid hit Earth, it generated an unbelievable wave up to 3.1 miles (5 kilometers) high.
That’s higher than the Matterhorn in the Alps by about 1,640 extra feet (500 meters).
In fact, the height is higher than all of the mountains in the entire Alpine mountain range.
Although we have no signs that suggest an event like this could happen again, RealLifeLore says there is a 0.00001 percent chance that one of the Canary Islands could collapse into the ocean during your lifetime.
This event would cause a wave so enormous, it would wipe out the entire east coast of the US. 
















































1906 + Today: The Earthquake Blend (Part II)
At 5:12 AM on April 18, 1906, San Franciscans woke up to a quick jolt. For the next 25 seconds, all was silent. And then it hit hard–42 seconds of intense shaking. Buildings fell, sinkholes in the streets opened up, railroad tracks bent, and collapsing bricks crushed cable cars sheltered for the night in the cable car barn. But the real damage had not even begun. It was the out-of-control fires that did 90% of the destruction to San Francisco. Over 30 fires, caused by ruptured gas mains, destroyed approximately 25,000 buildings on 490 city blocks. Worst of all, many were started when the military, untrained in the use of dynamite, attempted to demolish buildings to create firebreaks, which resulted in the destruction of more than 50% of the buildings that would have otherwise survived. The dynamited buildings themselves often caught fire. In all, the fires burned for four days and nights.
Mayor Eugene Schmitz put out an authorization for the federal troops and police to shoot and kill looters. Thousands of tents and temporary relief houses went up to house 20,000 displaced people. The city was in disarray. But photography was a common hobby by 1906 and thousands of photos have survived to this day. One photographer even flew his 46 pound camera on a kite to get aerial shots of the aftermath. Some color photographs have even been found.
It’s been two years since I posted the first installment of this series, 1906 + 2010: The Earthquake Blend (Part I). I kept running into delays. In the case of the Valencia St. Hotel, I had to return to the scene on Valencia between 18th and 19th four times before I managed to get it right. There’s quite a bit of conflicting information of exactly where this building once stood. And just when I was about to wrap things up, my dad announced that he had unearthed a local magazine published in late 1906 loaded with earthquake-aftermath photos that I had never seen in any library or online collection. On the plus side, I’ve got plenty more material for a part three now.
To put these photos together, I first create a catalog of historical photos that look like they have potential to be blended. Unfortunately most of these photos end up on the digital cutting room floor because there’s simply no way to get the same photo today because either a building or a tree is in the way. Once I get a good location, I get everything lined up just right. My goal is to stand in the exact spot where the original photographer stood. Doing this needs to take into account equivalent focal length, how the lens was shifted, light conditions, etc. I take plenty of shots, each nudged around a bit at each location. Just moving one foot to the left changes everything.
UPDATE: Prints now available and Fade to 1906 (the book) is coming soon.
Here is part two of the series (part one is here):
Cars travel down S. Van Ness, which has buckled after the quake
Cars travel down S. Van Ness, which has buckled after the quake
Cable car #455 rests halfway in the partially-detroyed cable car barn
Cable car #455 rests halfway in the partially-detroyed cable car barn
People walk beneath Old Saint Mary
People walk beneath Old Saint Mary’s Cathedral, which survived the quake but was gutted by the fire
People mill around Lotta
People mill around Lotta’s Fountain, which served as a meeting place after the quake
The Conservatory of Flowers stands undamaged as now-homeless citizens camp in a tent shelter
The Conservatory of Flowers stands undamaged as now-homeless citizens camp in a tent shelter
A bicyclist rides towards the fallen Valencia St. Hotel and a huge sinkhole that has opened up in the street
A bicyclist rides towards the fallen Valencia St. Hotel and a huge sinkhole that has opened up in the street
People stroll by the original adobe Mission Dolores which survived, while the brick church next door was destroyed
People stroll by the original adobe Mission Dolores which survived, while the brick church next door was destroyed
Horse carriages and cars park in front of Lafayette Park while a destroyed city looms in the background
Horse carriages and cars park in front of Lafayette Park while a destroyed city looms in the background
People cross Market Street in front of the destroyed Hearst Building
People cross Market Street in front of the destroyed Hearst Building
People walk through rubble on Geary St
People walk through rubble on Geary St
People walk up California St amid charred scraps of lumber
People walk up California St amid charred scraps of lumber
Cars park in front of the brand new US Courthouse which fared well in the quake
Cars park in front of the brand new US Courthouse which fared well in the quake
HISTORICAL NOTES
  • The Cable Car Barn & Powerhouse was completely dismantled and rebuilt from 1982-1984. The Washington Street facade depicted is different in design than that of 1906, but the garage opening and tracks are in the exact same place to the best of my knowledge.
  • Lotta’s Fountain has moved around over the years. It was raised eight feet in 1916, smashed by a drunk driver in 1954, moved 10 feet in 1975, and completely stripped down and rebuilt in 1998. I lined it up the best I could, but it was obvious when I was overlaying the photos that things weren’t perfect. The Palace Hotel in the background was demolished after the quake and rebuilt to the “new” Palace Hotel that I’ve blended with the old one.






























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