Tsunamis Fun Facts

We’ve created this list of 101 fun facts about Tsunamis!

In addition to over 101 fun facts about Tsunamis, learn more about their causes, how they are studied, legends about them, and so much more!

Table of Contents

• About Tsunamis
• Fun Facts About Tsunamis
• Fun Facts About Tsunamis for Kids
• Causes
• Different Kinds
• Scientific Study and History
• Records
• Culture
• Legends of the Tsunamis
• Symbols of the Tsunamis
• Other Interesting Things About Tsunamis

Fun Facts About Tsunamis – About Tsunamis

A tsunami is a series of ocean waves with very long wavelengths (typically several hundred kilometers) caused by large-scale disturbances of the ocean, such as earthquakes, volcanic eruptions, or landslides. Unlike ordinary ocean waves, which are driven by wind, tsunamis are caused by the displacement of a large volume of water, often triggered by a sudden vertical movement of the seafloor.

When a tsunami reaches shallow water near the coast, the wave can increase in height and velocity, leading to devastating flooding and destruction of coastal communities. Tsunamis can travel across entire ocean basins and can take several hours to reach distant coastlines, making it difficult for people to prepare and evacuate in time.

Tsunamis can cause significant damage and loss of life, and efforts are underway around the world to improve early warning systems and preparedness measures to help minimize the impact of these natural disasters.

Fun Facts About Tsunamis – 101 Fun Facts

Here are 101 fun facts about Tsunamis:

1. Tsunamis are also known as seismic sea waves.
2. The word tsunami is derived from the Japanese words “tsu” meaning harbor and “nami” meaning wave.
3. Tsunamis are not tidal waves, despite often being called that.
4. A tsunami can travel across the ocean at speeds of up to 500 miles per hour (800 kilometers per hour).
5. The largest tsunami ever recorded was triggered by the 1960 Chilean earthquake and measured over 80 feet (25 meters) in height.
6. A tsunami can travel thousands of miles across the ocean, from the point of origin to distant coastlines.
7. Tsunamis can be caused by earthquakes, volcanic eruptions, landslides, and even meteor impacts.
8. The Indian Ocean tsunami of 2004, triggered by a massive earthquake off the coast of Sumatra, killed over 230,000 people in 14 countries.
9. Tsunamis can occur in any ocean or sea, but are most common in the Pacific Ocean due to its location on the Pacific Ring of Fire, a region of high seismic activity.
10. Tsunamis can also occur in inland bodies of water, such as lakes, when triggered by landslides or other disturbances.
11. Tsunamis can travel up rivers and estuaries, sometimes causing significant flooding and damage to inland areas.
12. The speed and height of a tsunami can vary depending on the characteristics of the ocean floor and coastline it encounters.
13. Tsunamis can be detected using ocean buoys, seismic sensors, and satellite imagery.
14. A tsunami warning is issued when there is a risk of a tsunami occurring, allowing people in coastal areas to evacuate to higher ground.
15. The word “tsunami” was first used in English in 1896, following a tsunami that struck Japan.
16. The term “tidal wave” is a misnomer, as tsunamis are not caused by tides.
17. Tsunamis can travel across the ocean for days or even weeks, dissipating energy as they go.
18. Tsunamis can cause significant damage to underwater infrastructure, such as submarine cables and pipelines.
19. Tsunamis can cause the formation of new land masses, as well as the destruction of existing ones.
20. Tsunamis are often preceded by a rapid retreat of water from the shoreline, exposing the ocean floor.
21. Tsunamis can be classified as local, regional, or distant, depending on their point of origin and distance traveled.
22. The frequency of tsunamis has increased in recent years, due in part to population growth and coastal development.
23. Tsunamis can be caused by human activities, such as underwater explosions and oil drilling.
24. The impact of a tsunami can be amplified by factors such as narrow bays, steep coastlines, and shallow water.
25. Tsunamis can generate powerful currents, which can cause significant damage to boats and ships.
26. Tsunamis can cause significant erosion of coastlines, leading to changes in the shape of the land.
27. The height of a tsunami can be affected by the time of day, with larger waves occurring during high tide.
28. The frequency of tsunamis can be predicted based on past seismic activity and other factors.
29. Tsunamis can cause significant damage to marine ecosystems, such as coral reefs and seagrass beds.
30. Tsunamis can cause groundwater contamination, leading to health risks for people and wildlife.
31. The sound of a tsunami can be heard from several miles away, often described as a roaring or rumbling sound.
32. Tsunamis can cause damage to underwater archaeological sites and artifacts.
33. The first recorded tsunami occurred in 479 BCE in Greece, triggered by an earthquake.
34. The deadliest tsunami in history occurred in 2004, killing over 230,000 people.
35. Tsunamis can cause significant damage to coastal infrastructure, such as ports, harbors, and buildings.
36. Tsunamis can cause long-lasting psychological trauma for those who experience them.
37. Tsunamis can generate massive amounts of debris, including trees, cars, and buildings.
38. Tsunamis can cause significant economic damage, both in terms of direct property damage and lost economic activity.
39. Tsunamis can cause changes in ocean currents, leading to changes in climate patterns.
40. Tsunamis can be simulated using computer models, allowing scientists to better understand their behavior and potential impact.
41. Tsunamis can be caused by asteroid impacts, as well as by volcanic eruptions.
42. Tsunamis can cause significant damage to coastal agriculture and fisheries, leading to food shortages and economic disruption.
43. Tsunamis can generate significant social and political upheaval, leading to changes in government policies and social norms.
44. Tsunamis can cause significant damage to cultural heritage sites, including temples, shrines, and historic buildings.
45. Tsunamis can cause significant damage to transportation infrastructure, including roads, bridges, and airports.
46. Tsunamis can cause significant damage to power and water infrastructure, leading to disruptions in essential services.
47. Tsunamis can cause significant damage to coastal wetlands, which provide critical habitat for many species.
48. Tsunamis can be caused by underwater landslides, which can occur spontaneously or be triggered by seismic activity.
49. Tsunamis can cause significant damage to coastal tourism industries, leading to lost revenue and employment.
50. Tsunamis can be predicted using a combination of seismic data, ocean buoys, and computer modeling.
51. Tsunamis can cause significant damage to coastal wildlife, including marine mammals, birds, and reptiles.
52. Tsunamis can cause significant damage to underwater ecosystems, including seafloor habitats and deep-sea ecosystems.
53. Tsunamis can cause significant damage to offshore oil and gas infrastructure, leading to environmental damage and economic disruption.
54. Tsunamis can be mitigated through a combination of early warning systems, education and outreach, and disaster planning.
55. Tsunamis can cause significant damage to coastal forests, leading to habitat loss and changes in ecosystem function.
56. Tsunamis can cause significant damage to coastal farmland, leading to crop losses and reduced agricultural productivity.
57. Tsunamis can cause significant damage to coastal transportation infrastructure, including railways and ports.
58. Tsunamis can cause significant damage to underwater mining operations, leading to environmental damage and lost production.
59. Tsunamis can be caused by glacial calving, where large chunks of ice break off and fall into the ocean.
60. Tsunamis can cause significant damage to coastal cultural practices and traditions, including fishing and other subsistence activities.
61. Tsunamis can be caused by underwater nuclear explosions, which can have devastating environmental and health consequences.
62. Tsunamis can cause significant damage to coastal ecosystems, leading to declines in biodiversity and ecosystem function.
63. Tsunamis can cause significant damage to coastal aquaculture operations, leading to lost production and economic disruption.
64. Tsunamis can be caused by meteor impacts, which can release huge amounts of energy and generate massive waves.
65. The word “tsunami” comes from the Japanese words “tsu” meaning harbor and “nami” meaning wave.
66. Tsunamis can occur anywhere in the world, but are most common in the Pacific Ocean “Ring of Fire” and the Indian Ocean.
67. The height and speed of a tsunami depend on several factors, including the depth and slope of the seafloor and the strength of the initial disturbance.
68. Tsunamis can travel across entire ocean basins, taking hours or even days to reach distant shorelines.
69. The Indian Ocean tsunami of 2004 was caused by an earthquake with a magnitude of 9.1-9.3, the third-largest ever recorded.
70. Tsunamis can cause severe coastal erosion, leading to changes in the landscape and loss of property.
71. Tsunamis can be detected using ocean buoys, which measure changes in sea level, and seismic sensors, which detect earthquakes and other seismic activity.
72. The 2011 Tohoku earthquake and tsunami in Japan was the costliest natural disaster in history, causing over $300 billion in damage.
73. Tsunamis can cause significant damage to marine and coastal ecosystems, leading to declines in biodiversity and ecosystem function.
74. Tsunamis can cause secondary hazards, such as fires, landslides, and disease outbreaks, which can exacerbate the impact of the initial event.
75. Tsunamis can be mitigated through a combination of land use planning, engineering solutions, and community preparedness.
76. Tsunamis can be caused by the rapid displacement of water, such as when a large object falls into the ocean or when a volcano erupts.
77. Tsunamis can cause significant damage to underwater pipelines and cables, leading to disruptions in communication and energy supply.
78. Tsunamis can cause significant damage to coastal oil refineries and storage facilities, leading to environmental damage and economic disruption.
79. Tsunamis can cause significant damage to coastal airports and seaports, leading to disruptions in transportation and commerce.
80. Tsunamis can be caused by glacier retreat, which can release huge volumes of water into the ocean.
81. Tsunamis can cause significant damage to coastal residential areas, leading to displacement and homelessness.
82. Tsunamis can cause significant damage to coastal hotels and resorts, leading to lost revenue and employment.
83. Tsunamis can cause significant damage to coastal hospitals and medical facilities, leading to disruptions in healthcare services.
84. Tsunamis can be caused by underwater landslides triggered by melting permafrost, which is becoming more common due to climate change.
85. Tsunamis can cause significant damage to coastal educational institutions, leading to disruptions in education and research.
86. Tsunamis can be caused by atmospheric pressure changes, such as those associated with hurricanes and typhoons.
87. Tsunamis can cause significant damage to coastal shopping centers and malls, leading to lost revenue and employment.
88. Tsunamis can cause significant damage to coastal power plants and transmission lines, leading to power outages and economic disruption.
89. Tsunamis can be caused by underwater volcanic eruptions, which can release huge amounts of gas and debris into the ocean.
90. Tsunamis can cause significant damage to coastal recreational areas, such as beaches and parks, leading to lost revenue and employment.
91. Tsunamis can cause significant damage to coastal cultural and historical landmarks, leading to loss of cultural heritage.
92. Tsunamis can trigger mass migrations and population displacement, leading to social and economic instability.
93. Tsunamis can cause significant damage to fishing and aquaculture industries, leading to lost income and food security issues.
94. Tsunamis can be caused by the collapse of coastal cliffs and other unstable landforms, which can trigger large waves.
95. Tsunamis can cause significant damage to coastal infrastructure, such as bridges and highways, leading to transportation disruptions.
96. Tsunamis can cause significant damage to coastal industrial zones, leading to lost production and employment.
97. Tsunamis can cause significant damage to coastal tourism industries, leading to lost revenue and employment.
98. Tsunamis can be caused by underwater landslides triggered by earthquakes, which can generate large waves.
99. Tsunamis can cause significant damage to coastal agriculture, leading to lost crops and income.
100. Tsunamis can be mitigated through the development of early warning systems, evacuation planning, and public education.
101. Tsunamis serve as a reminder of the awesome power of nature and the need for humans to respect and protect the natural world

Fun Facts About Tsunamis – 25 Fun Facts for Kids

Here are 25 fun facts about Tsunamis that kids might enjoy:

1. Tsunamis are giant waves that can be caused by earthquakes, volcanic eruptions, or landslides.
2. The word “tsunami” comes from Japanese, meaning “harbor wave.”
3. Tsunamis can travel up to 500 miles per hour, which is faster than a jet plane!
4. A tsunami wave can be as high as a 10-story building.
5. Tsunamis can travel across entire ocean basins, making them a global phenomenon.
6. The largest recorded tsunami in history was caused by an earthquake in Chile in 1960 and measured over 80 feet high!
7. Tsunamis can travel long distances without losing much energy, which makes them very dangerous.
8. In deep water, a tsunami can be just a few feet high, but as it approaches the coast, it can grow into a giant wave.
9. Tsunamis can also be caused by meteor impacts, although this is rare.
10. The Indian Ocean tsunami of 2004 was one of the deadliest in history, killing over 200,000 people.
11. Tsunamis can cause damage to boats and ships far out at sea.
12. Tsunamis can also cause damage to underwater infrastructure, such as pipelines and cables.
13. Tsunamis can cause water levels to rise or fall dramatically, exposing new areas of land or submerging existing ones.
14. Tsunamis can create strong currents that can pull people and objects out to sea.
15. Tsunamis can be difficult to predict, but scientists use seismometers and other instruments to monitor earthquakes and other events that could trigger a tsunami.
16. Tsunamis can be felt by people on boats or ships, but they are often difficult to see until they approach the shore.
17. Tsunamis can also be caused by underwater landslides or volcanic eruptions.
18. Tsunamis can happen at any time of year, but they are more likely to occur during certain seasons or in certain regions.
19. Tsunamis are often depicted in movies and other media, but it’s important to remember that they can be very dangerous in real life.
20. Tsunamis can affect not just coastal regions but also inland areas that are connected to the coast by rivers or other waterways.
21. The first warning sign of a tsunami is often a rapid rise or fall in sea level, which can be observed by people on the coast or by instruments such as tide gauges.
22. The height of a tsunami wave can vary depending on the size and strength of the event that caused it.
23. Tsunamis can be caused by human activities such as underwater explosions or nuclear tests.
24. Tsunamis can leave behind deposits of sand and debris that can be studied by scientists to learn more about past events.
25. Tsunamis are a reminder that the natural world can be both beautiful and dangerous, and we need to work together to understand and prepare for these events.

Fun Facts About Tsunamis – Causes

Tsunamis are most commonly caused by large undersea earthquakes or volcanic eruptions that displace large amounts of water, but they can also be caused by landslides, glacier calvings, and meteor impacts in the ocean.

The sudden movement of the earth’s crust during an earthquake or volcanic eruption can create powerful shock waves that propagate through the ocean, causing the water to start moving in a circular motion, which can lead to the formation of a tsunami wave.

The size and strength of the tsunami will depend on a number of factors, including the magnitude of the earthquake or volcanic eruption, the depth of the ocean floor, and the distance from the shore where the tsunami was generated.

Fun Facts About Tsunamis – Different Kinds

Another fun facts about Tsunamis are that there are two main types of tsunamis: local and distant.

Local tsunamis: These tsunamis are generated by earthquakes or other geological events that occur near the coast. They travel very quickly, at speeds of up to 800 km/h (500 mph), and can reach the shore within minutes of being generated. Local tsunamis are generally smaller in size and have shorter wavelengths, but they can still cause significant damage and loss of life.

Distant tsunamis: These tsunamis are generated by large earthquakes or volcanic eruptions that occur far from the coast. They travel across the open ocean at speeds of up to 700 km/h (435 mph), and can take several hours to reach the shore. Distant tsunamis are typically larger in size and have longer wavelengths than local tsunamis, but their impact on the coast is generally less severe due to the longer warning time.

Fun Facts About Tsunamis – Scientific Study and History

Another fun facts about Tsunamis is that Scientists use a variety of tools and techniques to study tsunamis, including:

Seismometers: These instruments are used to detect and record earthquakes, which can trigger tsunamis. By analyzing the seismic waves generated by an earthquake, scientists can estimate the size and location of the earthquake, and predict whether it is likely to cause a tsunami.

Ocean buoys: These buoys are equipped with sensors that can detect changes in ocean pressure and wave height, which can indicate the presence of a tsunami. Data from these buoys is transmitted in real-time to a network of monitoring stations, allowing scientists to quickly identify and track tsunamis as they travel across the ocean.

Computer models: Scientists use computer models to simulate the behavior of tsunamis, including their propagation across the ocean and their interaction with the coastline. These models can be used to predict the size and impact of a tsunami before it reaches the shore, allowing authorities to issue early warnings and evacuate at-risk areas.

Field surveys: After a tsunami has struck, scientists will often conduct field surveys to assess the damage and collect data on the size and characteristics of the wave. This information can be used to improve computer models and forecasting methods, and to inform the design of coastal infrastructure to better withstand future tsunamis.

By using these and other tools and techniques, scientists are able to better understand the causes and behavior of tsunamis, and to develop more effective ways to predict and mitigate their impact on coastal communities.

Fun Facts About Tsunamis – Records

Here are some notable records related to tsunamis:

Largest recorded tsunami: The largest recorded tsunami occurred in Lituya Bay, Alaska in 1958, when a landslide triggered a wave that reached a height of 524 meters (1,719 feet), the tallest recorded tsunami in history.

Deadliest tsunami: The deadliest tsunami in history occurred in 2004, when a magnitude 9.1 earthquake off the coast of Sumatra, Indonesia triggered a series of tsunamis that killed an estimated 230,000 people in 14 countries.

Farthest-reaching tsunami: The 2004 Sumatra tsunami was also the farthest-reaching tsunami in history, with waves recorded as far away as South Africa, Antarctica, and the eastern coast of the Americas.

Highest tsunami death toll in a single country: The 2011 Tohoku earthquake and tsunami in Japan resulted in more than 18,000 deaths, making it the deadliest tsunami in Japan’s history.

Most expensive tsunami: The 2011 Tohoku tsunami also caused an estimated $360 billion in damage, making it the most expensive natural disaster in history.

Fastest tsunami: Tsunami waves can travel at incredibly fast speeds, with the fastest recorded speed of a tsunami wave being over 720 kilometers per hour (450 miles per hour).

These records highlight the devastating power and impact of tsunamis and serve as a reminder of the importance of early warning systems and disaster preparedness measures to protect coastal communities.

Fun Facts About Tsunamis – Cultures

Tsunamis have been a part of human experience for thousands of years, and different cultures have developed their own beliefs and attitudes towards these powerful natural phenomena. Here are some examples:

Japan: Tsunamis have a long history in Japan, and the Japanese have developed a deep respect for the power of the ocean. Traditional Japanese folklore includes stories of “Namazu,” a giant catfish said to live beneath the ocean and cause earthquakes and tsunamis when it thrashes about. The Japanese also have a well-developed system of tsunami warnings and disaster preparedness measures, including seawalls, early warning systems, and regular drills.

Indonesia: In Indonesia, tsunamis are often viewed as a manifestation of divine punishment or retribution. The people of Aceh, a region of Indonesia that was devastated by the 2004 tsunami, believe that the disaster was a punishment from God for their sinful ways.

Hawaii: In Hawaiian culture, tsunamis are seen as a natural part of the ocean’s rhythms and cycles. Hawaiians have a deep respect for the power of the ocean and believe that tsunamis are a reminder of the need to live in harmony with nature.

Ancient Greece: In ancient Greek mythology, Poseidon was the god of the sea and earthquakes, and was often associated with tsunamis. The Greeks believed that tsunamis were caused by Poseidon’s wrath, and offered sacrifices and prayers to appease him.

Pacific Northwest: In Native American cultures of the Pacific Northwest, tsunamis are seen as a natural part of the ocean’s cycle of renewal and transformation. The Makah tribe of Washington State, for example, tell stories of a great flood that occurred long ago, which transformed the landscape and created new opportunities for growth and change.

These are just a few examples of the rich and diverse ways that different cultures have thought about and interacted with tsunamis throughout history.

About Tsunamis – Legends

Another fun facts about Tsunamis is that Tsunamis have been a part of human experience for thousands of years, and many cultures have developed legends and myths about these powerful natural phenomena. Here are a few examples:

The Great Flood: The story of a great flood that destroys the world is found in many cultures around the world, from the story of Noah’s Ark in the Bible to the ancient Sumerian tale of Gilgamesh. In many of these stories, the flood is caused by the wrath of the gods, and is seen as a punishment for the sins of humanity.

Yemoja: In Yoruba mythology, Yemoja is the goddess of the ocean and protector of women and children. She is said to control the tides and waves, and is often invoked for protection during storms and tsunamis.

The Dragon King: In Chinese mythology, the Dragon King is the ruler of the sea and is said to have the power to control the waves and tides. He is often depicted as a benevolent deity who can be called upon for protection during storms and other natural disasters.

Susanoo: In Japanese mythology, Susanoo is the god of storms and the sea. He is often depicted as a fierce and unpredictable deity who can cause tsunamis and other natural disasters.

Nāmaka: In Hawaiian mythology, Nāmaka is the goddess of the ocean and sister to the fire goddess Pele. She is said to have the power to control the tides and waves, and is often associated with volcanic eruptions and other natural disasters.

These are just a few examples of the many legends and myths that have developed around tsunamis and other natural disasters. These stories reflect the awe and respect that people have for the power of nature, as well as the ways in which people have tried to understand and make sense of these destructive forces.

About Tsunamis – Symbols

Tsunamis are incredibly powerful natural phenomena that can cause massive destruction and loss of life. While there are no specific symbols associated with tsunamis, there are some images that are commonly used to represent their devastating effects. Here are a few examples:

Waves: Tsunamis are characterized by huge waves that can reach heights of over 100 feet. Images of waves crashing against shorelines or sweeping across the ocean are often used to symbolize the power and destructive force of tsunamis.

Water: Since tsunamis are caused by the displacement of large amounts of water, images of water surging or flooding can be used to represent the effects of these powerful waves.

Broken Buildings: Tsunamis can cause massive destruction to buildings and infrastructure, and images of damaged or destroyed buildings can be used to symbolize the devastating impact of these waves.

Warning Signs: Tsunamis can strike without warning, so warning signs and sirens are used to alert people to the danger. Images of these warning signs can be used to symbolize the importance of being prepared and taking action in the face of a potential disaster.

These images are not specific to tsunamis, but are often associated with the aftermath of these destructive waves. They can help to communicate the severity and impact of these natural disasters, and serve as a reminder of the importance of being prepared and taking precautions in the face of potential danger.

Other Interesting Things About Tsunamis – Scales for Measuring

Another fun facts about Tsunamis is that Tsunamis are measured using a variety of methods, including:

Seismometers: Tsunamis are often caused by underwater earthquakes, so seismometers can be used to detect and measure the strength and location of the earthquake. This information can be used to predict the potential size and location of a resulting tsunami.

Tide gauges: Tide gauges are devices that measure the rise and fall of sea levels over time. These devices can be used to measure the height of a tsunami as it approaches and passes over a location.

Deep-ocean assessment and reporting of tsunamis (DART) buoys: DART buoys are anchored to the ocean floor and measure changes in water pressure caused by passing tsunamis. This information is transmitted to a network of buoys and can be used to calculate the size, speed, and direction of the approaching tsunami.

Satellites: Satellites can be used to detect changes in sea level caused by a tsunami. This information can be used to estimate the size and location of the tsunami.

By combining data from these different sources, scientists can create detailed models of tsunamis and predict their potential impact on coastal communities. These models can be used to issue warnings and alerts to people in the path of an approaching tsunami, giving them time to evacuate and seek shelter before the wave hits.

Other Interesting Things About Tsunamis – Warning Systems

Another fun facts about Tsunamis is that Tsunami warning systems are designed to detect and alert people to the threat of an incoming tsunami, giving them time to evacuate and seek safety. There are several components to a typical tsunami warning system, including:

Seismic monitoring: One of the primary ways to detect a potential tsunami is by monitoring earthquakes that occur under the ocean. Seismometers can detect the location and strength of these earthquakes, which can be used to estimate the size and location of any resulting tsunami.

Buoy network: Deep-ocean assessment and reporting of tsunamis (DART) buoys are anchored to the ocean floor and measure changes in water pressure caused by passing tsunamis. This information is transmitted to a network of buoys, which can be used to calculate the size, speed, and direction of the approaching tsunami.

Tsunami modeling: Scientists use data from seismic monitoring and buoys to create computer models of potential tsunamis, predicting their size and the areas they may impact.

Warning dissemination: When a potential tsunami is detected, warnings are issued to emergency management officials and the public through a variety of channels, including emergency alerts, social media, radio, television, and sirens.

Evacuation planning: Local emergency management officials work with the community to develop evacuation plans and educate residents about how to respond to a tsunami warning. This includes identifying evacuation routes, setting up evacuation centers, and providing guidance on what to bring and where to go.

While warning systems are an important tool for keeping people safe from tsunamis, it’s important to note that not all tsunamis can be detected or predicted in advance. It’s always a good idea to be aware of the signs of an incoming tsunami, such as a sudden rise or fall in sea level, and to seek higher ground immediately if you believe a tsunami may be coming.

Other Interesting Things About Tsunamis – Quotes

Here are some quotes about tsunamis:

“The ocean is both beautiful and terrifying. It can create life and it can destroy it.” – Mia Sheridan

“The sea, once it casts its spell, holds one in its net of wonder forever.” – Jacques Yves Cousteau

“In one drop of water are found all the secrets of all the oceans.” – Kahlil Gibran

“The sea is everything. It covers seven tenths of the terrestrial globe. Its breath is pure and healthy. It is an immense desert, where man is never lonely, for he feels life stirring on all sides.” – Jules Verne

“Tsunamis are nature’s wake-up call.” – Dr. Walter Dudley

“The sea complains upon a thousand shores.” – Alexander Smith

“Waves are not measured in feet or inches, they are measured in increments of fear.” – Buzzy Trent

“The sea, the great unifier, is man’s only hope. Now, as never before, the old phrase has a literal meaning: we are all in the same boat.” – Jacques Yves Cousteau

“The most important thing is to be able to hold on to the feeling of being alive.” – Haruki Murakami

“The sea hath its pearls, the heaven hath its stars, but my heart, my heart hath its love.” – Henry Wadsworth Longfellow

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