Types of Volcanic Hazards: Destructiveness & Scale

Viking Geo

27 Apr 202005:54

Summary

TLDRThis educational video delves into the various hazards posed by volcanic activity, emphasizing the destructive potential of lava, which can obliterate infrastructure despite its slow speed. It also highlights the rapid and forceful nature of lahars, which can travel far and cause significant damage. The video underscores the global impact of volcanic ash, which can disrupt air travel and cause respiratory issues. Lastly, it touches on the dangers of volcanic gases, which can lead to respiratory diseases and even death, noting their primarily local effect due to limited dispersal.

Takeaways

🌋 Lava is molten rock that flows from a volcano and can cause significant damage to infrastructure but is relatively slow-moving, usually less than 10 miles per hour.
🔥 Lava flows can ignite fires, as seen in Hawaii, where it has destroyed farmland and buildings.
🌊 Lahars are fast-moving mudflows composed of volcanic ash and water, which can be extremely destructive and deadly, moving at speeds up to 50 miles per hour.
💧 Lahars can travel long distances, sometimes tens of miles away from the volcano, and their wet concrete-like consistency makes them a forceful hazard.
🌫 Ash from volcanic eruptions consists of fine rock particles that can be thrown miles high into the air, affecting air quality and causing respiratory issues.
✈️ Ash clouds can disrupt air travel on a regional or even global scale, as seen in 2010 when an Icelandic eruption grounded flights across Europe.
🌾 Heavy ashfall can lead to crop failure and damage buildings, potentially causing them to collapse under the weight.
🗺️ The scale of volcanic hazards varies: while lava and pyroclastic flows are localized, ash can reach a global level, and lahars fall somewhere in between.
🌀 Pyroclastic flows are fast-moving currents of hot gas, ash, and lava fragments that can cause localized destruction within 10 to 20 miles of a volcano.
💨 Volcanic gases, including carbon dioxide, sulfur dioxide, and carbon monoxide, can cause respiratory diseases and eye irritations, with the impact mostly local due to their limited dispersal.

Q & A

What is lava and why is it destructive?
-Lava is hot molten rock that is erupted from a volcano. It is destructive because it can destroy farmland, buildings, and infrastructure due to its high temperature and ability to flow over and set fire to objects.
How fast do most lava flows move and why does this affect the number of deaths?
-Most lava flows move at less than 10 miles an hour. This slow movement is why there are very few deaths directly caused by lava, as people generally have time to evacuate or avoid its path.
What causes a lahar and how does it differ from lava in terms of speed and destructiveness?
-A lahar is a fast-moving mud flow caused by the mixture of water and ash, often from a volcanic eruption. It differs from lava in that it can move up to 40 to 50 miles an hour, making it more dangerous to people and property due to its speed and wet concrete-like consistency.
How far can lahars travel from their source, and what does this imply about their impact?
-Lahars can travel many kilometers away from the actual source of the volcano. This implies that their impact can be extensive, affecting areas far from the volcano itself.
What is ash and how can it affect human health and the environment on a large scale?
-Ash consists of fine particles of rock ejected during a volcanic eruption. It can cause respiratory diseases when inhaled, and in large quantities, it can cover land, potentially killing crops and collapsing buildings. On a large scale, ash can cover wide areas, affecting air quality and visibility.
How did the 2010 eruption in Iceland demonstrate the global impact of volcanic ash?
-The 2010 eruption in Iceland ejected ash particles high into the air, which then spread and covered nearly all of Europe, causing significant disruptions and highlighting the potential for volcanic ash to have a global impact.
What are the different hazards associated with volcanic gases, and how do they affect both health and the environment?
-Volcanic gases include carbon dioxide, sulfur dioxide, and carbon monoxide. They can cause respiratory diseases and eye irritation when breathed in, and in large quantities, they can be lethal. They also contribute to environmental issues such as acid rain and climate change.
How do the scales of volcanic hazards differ, and what does this mean for the areas affected?
-The scales of volcanic hazards differ significantly. Lava and pyroclastic flows are more localized, typically not traveling more than 10 to 20 miles from the volcano. Lahars can extend further, up to 30-40 miles, while ash can reach regional or even global levels, affecting air travel and health on a broader scale.
What is the significance of the map showing hazards from Mount Baker, and what does it tell us about the proximity of hazards to the volcano?
-The map of hazards from Mount Baker illustrates the varying distances that different volcanic hazards can travel from the volcano. It shows that pyroclastic flows and lava are more localized, while lahars can extend much further, indicating the importance of considering the scale of hazards when assessing risk.
How do the characteristics of lava, lahars, and ash contribute to the types of damage they cause?
-Lava's slow movement allows for some avoidance but can lead to extensive property damage and fires. Lahars' rapid movement and wet concrete-like consistency make them highly destructive to infrastructure and dangerous to people. Ash, being lightweight and easily dispersed, can cause widespread health issues and environmental damage over large areas.