Natural hazard

This article is about the natural hazards that may lead to disasters. For natural disasters, see natural disaster.

A natural hazard[1] is a naturally occurring event that might have a negative effect on people or the environment. Natural hazard events can be grouped into two broad categories.[2] Geophysical hazards[3] encompass geological and meteorological phenomena such as earthquakes, volcanic eruption, wildfire, cyclonic storms, flood, drought, and coastal erosion. Biological hazards can refer to a diverse array of disease and infestation.

Many geophysical hazards are interrelated;[4] for example, submarine earthquakes can cause tsunamis, and hurricanes can lead to coastal flooding and erosion. Floods and wildfires can result from a combination of geological, hydrological, and climatic factors. It is possible that some natural hazards are intertemporally correlated as well.[5][6] A concrete example of the division between a natural hazard and a natural disaster is that the 1906 San Francisco earthquake was a disaster, whereas living on a fault line is a hazard.

Geological hazards

Main article: Geohazard

Avalanche

An avalanche occurs when a large snow (or rock) mass slides down a mountainside.[7] An avalanche is an example of a gravity current consisting of granular material. In an avalanche, lots of material or mixtures of different types of material fall or slide rapidly under the force of gravity. Avalanches are often classified by the size or severity of consequences resulting from the event.[8]

Earthquake

San Francisco was devastated by an earthquake in 1906

An earthquake is a phenomenon that results from a sudden release of stored energy that radiates seismic waves. At the Earth's surface, earthquakes may manifest with a shaking or displacement of the ground; when the earthquake occurs on the seafloor, the resulting displacement of water can sometimes result in a tsunami. Most of the world's earthquakes (90%, and 81% of the largest) take place in the 40,000-km-long, horseshoe-shaped zone called the circum-Pacific seismic belt, also known as the Pacific Ring of Fire, which for the most part bounds the Pacific Plate.[9] Many earthquakes happen each day, few of which are large enough to cause significant damage.

Coastal erosion

Coastal erosion is a physical process by which shorelines in coastal areas around the world shift and change, primarily in response to waves and currents that can be influenced by tides and storm surge.[10] Coastal erosion can result from long-term processes (see also beach evolution) as well as from episodic events such as tropical cyclones or other severe storm events.

Lahar

A lahar is a type of natural event closely related to a volcanic eruption, and involves a large amount of material originating from an eruption of a glaciated volcano, including mud from the melted ice, rock, and ash sliding down the side of the volcano at a rapid pace. These flows can destroy entire towns in seconds and kill thousands of people, and form flood basalt. This is based on natural events.

Landslide

A landslide is a mass displacement of sediment, usually down a slope.[11]

Sinkholes

A sinkhole is a localized depression in the surface topography, usually caused by the collapse of a subterranean structure such as a cave. Although rare, large sinkholes that develop suddenly in populated areas can lead to the collapse of buildings and other structures.

Volcanic eruption

A volcanic eruption is the point in which a volcano is active and releases its power, and the eruptions come in many forms. They range from daily small eruptions which occur in places like Kilauea in Hawaii, to megacolossal eruptions (where the volcano expels at least 1,000 cubic kilometers of material) from supervolcanoes like Lake Taupo (26,500 years ago) and Yellowstone Caldera. According to the Toba catastrophe theory, 70 to 75 thousand years ago, a supervolcanic event at Lake Toba reduced the human population to 10,000 or even 1,000 breeding pairs, creating a bottleneck in human evolution. Some eruptions form pyroclastic flows, which are high-temperature clouds of ash and steam that can travel down mountainsides at speed exceeding an airliner.

Meteorological hazard(climate hazards)

Young steer after a blizzard, March 1966

Blizzard

A blizzard is a severe winter stormer icy and windy conditions characterized by low temperature, strong wind and heavy snow.

Drought

Scientists warn that global warming and climate change may result in more extensive droughts in coming years. These extensive droughts are likely to occur within the African continent due to its very low precipitation levels and high climate.

Hailstorm

A hailstorm is a natural hazard where a thunderstorm produces numerous hailstones which damage the location in which they fall. Hailstorms can be especially devastating to farm fields, ruining crops and damaging equipment.

Heat wave

A heat wave is a hazard characterized by heat which is considered extreme and unusual in the area in which it occurs. Heat waves are rare and require specific combinations of weather events to take place, and may include temperature inversions, katabatic winds, or other phenomena. There is potential for longer-term events causing global warming, including stadial events (the opposite to glacial "ice age" events), or through human-induced climatic warming.

Cyclonic storm

Hurricane, tropical cyclone, and typhoon are different names for the same phenomenon: a cyclonic storm system that forms over the oceans. It is caused by evaporated water that comes off of the ocean and becomes a storm. The Coriolis effect causes the storms to spin.74 mph (119 km/h). Hurricane is used for these phenomena in the Atlantic and eastern Pacific Oceans, tropical cyclone in the Indian, and typhoon in the western Pacific.

Ice storm

An ice storm is a particular weather event in which precipitation falls as ice, due to atmosphere conditions. It causes damage.

Tornado

A tornado is a natural disaster resulting from a thunderstorm. Tornadoes are violent, rotating columns of air which can blow at speeds between 50 mph (80 km/h) and 300 mph (480 km/h), and possibly higher. Tornadoes can occur one at a time, or can occur in large tornado outbreaks associated with supercells or in other large areas of thunderstorm development. Waterspouts are tornadoes occurring over tropical waters in light rain conditions.

Climate change

Climate change is a long-term hazard which can increase or decrease the risk of other weather hazards, and also directly endangers property due to sea level rise and biological organisms due to habitat destruction.

Geomagnetic storm

Geomagnetic storms can disrupt or damage technological infrastructure, and disorient species with magnetoception.

Water spout

A tornado formed over water. Check Water spout

Flood

A flood results from an overflow of water beyond its normal confines of a body of water such as a lake, or the accumulation of water over land areas.[12]

Wildfire

Wildfire is a fire that burns in an uncontrolled and unplanned manner. Wildfires can result from natural occurrences such as lightning strikes or from human activity.[13]

Disease

Disease is a natural hazard that can be enhanced by human factors such as urbanization or poor sanitation. Disease affecting multiple people can be termed an outbreak or epidemic.

In some cases, a hazard exists in that a human-made defense against disease could fail, for example through antibiotic resistance.

Multi-hazard analysis

Each of the natural hazard types outlined above have very different characteristics, in terms of the spatial and temporal scales they influence, hazard frequency and return period, and measures of intensity and impact. These complexities result in "single-hazard" assessments being commonplace, where the hazard potential from one particular hazard type is constrained. In these examples, hazards are often treated as isolated or independent. An alternative is a "multi-hazard" approach which seeks to identify all possible natural hazards and their interactions or interrelationships.[14][15]

Many examples exist of one natural hazard triggering or increasing the probability of one or more other natural hazards. For example, an earthquake may trigger landslides, whereas a wildfire may increase the probability of landslides being generated in the future.[16] A detailed review of such interactions across 21 natural hazards identified 90 possible interactions, of varying likelihood and spatial importance.[17] There may also be interactions between these natural hazards and anthropic processes.[18] For example, groundwater abstraction may trigger groundwater-related subsidence.[19]

Effective hazard analysis in any given area (e.g., for the purposes of disaster risk reduction) should ideally include an examination of all relevant hazards and their interactions.

International campaigns

In 2000, the United Nations launched the International Early Warning Programme to address the underlying causes of vulnerability and to build disaster-resilient communities by promoting increased awareness of the importance of Disaster Risk Reduction as an integral component of sustainable development, with the goal of reducing human, economic and environmental losses due to hazards of all kinds (UN/ISDR, 2000). The 2006-2007 United Nations International Disaster Reduction Day theme is “Disaster reduction education begins in school”. The Foundation of Public Safety Professionals has launched an international campaign giving everybody a chance to have their say, thought their international open essay or documentary competition “Disaster Risk Reduction Education Begins at School”.

See also

References

  1. Organization of American States, Department of Regional Development; Organization of American States, Natural Hazards Project; United States Agency for International Development, Office of Foreign Disaster Assistance (1990). Disaster, planning and development: managing natural hazards to reduce loss (PDF). Washington, D.C.: Organization of American States. Retrieved 21 July 2014.
  2. Burton, I.; Kates, R.W.; White, G.F. (1993). The environment as hazard. Guilford Press. ISBN 9780898621594.
  3. Geography in the News - topical geography resources for teachers and students
  4. http://onlinelibrary.wiley.com/doi/10.1002/2013RG000445/abstract
  5. http://onlinelibrary.wiley.com/doi/10.1002/2013RG000445/abstract
  6. http://papers.ssrn.com/sol3/papers.cfm?abstract_id=1679224
  7. "Snow avalanches". All about snow. National Snow & Ice Data Center. Retrieved 22 July 2014.
  8. "North American Public Avalanche Danger Scale". Avalanche.org. American Avalanche Association. Retrieved 27 April 2015.
  9. Simkin, Tom; Tilling, Robert I.; Vogt, Peter R.; et al. (2006). This Dynamic Planet: World map of volcanoes, earthquakes, impact craters, and plate tectonics. U.S. Geological Survey Map I-2800. ISBN 1-411-30959-6. Archived from the original (map) on 7 Jan 2014. Retrieved 18 July 2014.
  10. Komar, Paul D. (1983). CRC handbook of coastal processes and erosion. CRC Press. ISBN 9780849302251.
  11. Koch, Nicholas K. (1995). Geohazards: natural and human. Prentice Hall. ISBN 9780023229923.
  12. "Flood". Meteorology glossary. American Meteorological Society. Retrieved 22 July 2014.
  13. "Wildfire". Cambridge dictionaries online. Cambridge University Press. Retrieved 22 July 2014.
  14. "Challenges of analyzing multi-hazard risk: a review". Natural Hazards. 64: 1925–1958. doi:10.1007/s11069-012-0294-2.
  15. http://onlinelibrary.wiley.com/doi/10.1002/2013RG000445/abstract
  16. http://onlinelibrary.wiley.com/doi/10.1002/2013RG000445/abstract
  17. http://onlinelibrary.wiley.com/doi/10.1002/2013RG000445/abstract
  18. http://meetingorganizer.copernicus.org/EGU2014/EGU2014-3049.pdf
  19. http://water.usgs.gov/edu/earthgwlandsubside.html
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