AY Honors/Disaster Response/Answer Key
1. Explain the type of damage most likely to occur to homes and individuals for each of the following major types of disaster, and indicate for each in which parts of the world does it occur most frequently:
a. Hurricane/Typhoon
Damage: These storms bring with them tidal surges that cause flooding, devastating winds, rain, hail, lightning and damage they cause often spark fires, toxic leaks, and electrical hazards. Occasionally they spin off tornados, and massive inland thunderstorms. As a result people are killed in large numbers when not evacuated, homes are destroyed, water contaminated and responses delayed as a result of the ongoing storm. These storms have destroyed economies in history and have the record for most costly to recover from for nations affected.
Effects: Have been known to affect the coastal regions of every inhabited continent and virtually every island on Earth. Primarily affecting the Eastern Coasts of the Eastern Hemisphere, The Western Coast of Central America and Mexico, and the Carribean and South and East Coasts of the USA.
b. Tornado
These events are most frequently related to large storm systems although small tornados have been formed on clear days. Often, the smallest such funnels called "Dust Devils" form during the dry summer months in the Sonoran Desert. Large tornados are subject to higher wind speeds than many hurricanes but contained in tighter funnels, they obliterate structures that they meet head on and often cause roof separations, siding separations and other damage to structures outside their central path. Massive deaths may occur when these storms reach populated areas as they are unpredictable by current technology. Therefore, warning times are short and few people can reach safety. These storms have been known to rip the pavement from roads and massive trees from the ground with their roots. They shower debris at the outer most points of their reach sometimes miles away causing even more damage.
Effects: Largely inland plains areas such as the Great Plains of the United States. This is believed to be as a result of the low friction for storm systems that move through the areas and their violent collision with systems of varient tempurature or pressure. Tornados occur outside the plains as well, more frequently in hotter climates (such as the southern US), and less frequently (and less intensely) in cooler climes (such as the northeastern US).
c. Floods
All floods have this in common: if they are big enough and fast they will move absolutely everything in their path. No force seems to be more able to move even the surface of the Earth itself as dramatically as flooding. Small floods may ruin walls and flooring in houses and contaminate water supplies, while large fast floods will simply erase the earth they cover. As in any large disaster in which people are not or can not be evacutated, deaths are large in number. For those who survive they will become refugees needing all assistance from neighboring communities or even nations just to survive.
No part of the Earth has been uneffected by floods. Even those who argue that the Biblical account of the Genesis flood did not happen must acknowledge evidence of flooding at even the highest points of Earth that geologist have studied. Most flooding occurs near rivers and coastal regions or along mountains - the reasons are apparent. Rivers and mountainsides (as well as deserts) are subject to flash floods. These sudden and violent events often occur as a result of storms that are massive and may be miles from the flooding. Lakes, seas, and oceans are most commonly subject to tidal surges caused by storms moving across the surface, and their force pushing the water level under them down (therefore out) causing coastal flooding. These same large bodies of water can be subject to Tsunami as well. This, most commonly caused by earthquakes, will be briefly preluded by tidal retraction. This retraction may be drastic and measuralable in Kilometers or even miles, but when the tide returns it will be FAST, sudden, and high. Tsunamis do not look like breaking waves but rather tidal surges, and they may rise dozens of feet beyond the normal tide.
d. Earthquake
These disasters have large variance. Some may be of little effect to anyone because of their location, and others may leave entire metroplexes a burning ruin. Today those areas of the industrialized world most effected by earthquakes have developed technologies to help limit structural damage during such an event and science is also working on better warning systems and predictions for major events. This can be done in theory because we have some marginal grasp that the world is made up of floating plates and they rub on one another building and releasing pressure. As is so often the case, fire and contamination are a problem, as well as mass deaths for unevacuated people. The cost for industrialized cities to recover can be billions. For those areas that do not have the benefit of an industrial economy, the death tolls are hard to relate to others, and all buildings are often lost in the affected area as they are made from clay or cement or wood with no benefit of industrial engineering.
Effects: There are a large number of plates in the world and where any two meet (and spurs near them) there are fault lines. These meeting points release pressure built up by movement that we call earthquakes. Most are minor and hardly felt beyond the fault itself. Others can cause very strong quakes felt hundreds of miles of away, even causing damage a hundred or more miles away. They may also trigger volcanic erruptions and Tsunami.
*Volcanic eruptions being excluded from the requirements, I will choose to point out that these can be more devastating than anything modern man has known. A single eruption burried two major Roman cities within hours: Pompei and Herculiam. A volcanic erruption (by the will of God) that occurred in the mediterrian not only left behind a large island sea but may have been the trigger that God provided to bring the plagues to Egypt (some scientist of Christian nature argue this to be accurate other say it happened too early for the Exodus). Volcanic eruptions can release various gases that kill thousands - such as happened in Camaroon in 1984 and 1986. They can cause hail storms to occur while still-burning magma is falling, and have cast dense darkness about large areas (some science indicates that certain eruptions - like the Vesuvius eruption that burried Pompei - can cast total darkness for several days over hundreds of miles of the earth). Sometimes major eruptions can partially darken the sky for years, causing crops to fail for lack of sufficient sunshine.
e. Wildfire
Although completely devastating to personal property, often loss of life is limited. Wildfires, even in urban areas, may not be predictable but they are fightable and usually time is had to evacuate people living in the affected or about to be affected areas. This disaster, whether it be natural or man made, is the first of the disasters listed in this requirement that we can fight to protect property and life.
Effects: Those areas of Earth that are not frozen and have growing vegetation.
f. Chemical spill
Chemical spills may cause no personal property damage at all or they may cause various kinds of damage. This depends on the chemical and what happens to it when it spills. Does it become vapor? Did it become ignited in flame or explosion? The clean up can be extensive if the spill of a liquid chemical occurs and gases can cause massive evacuations as well. Few people, by the standards of disasters, residing nearby will die. Most will be evacuted safely or must stay in their homes to protect themselves. If the spill of gas or an explosion occurs, those nearest the event will die - often quickly.
Effects: Normally urban areas where chemicals are manufactured, stored or transported. They can occur at sea or in other areas, normally as a result of a mishap during transportation.
g. Nuclear accident
Two major incidents have occured in the 20th century involving nuclear generating stations (NGS). The first was a leak at Three Mile Island in the USA and the second at Chernobyl in the former Soviet Union. NGS locations are built inside large containment domes that are intended to keep the public from lethal exposure in case of an accidental loss of control. Two events can occur to defeat this: too much radiation can be lost and air must be vented to other non-containment buildings as was the case at Three Mile Island, or a total loss of the the core can occur. Core loss is what occured in Chernobyl. This "meltdown" did not act like a nuclear bomb and destroy the area but rather released an intensely radioactive gas over hundreds of square miles, killing many and causing severe trauma to others. We do not know how bad it might have been as Chernobyl was not a massive metropolis and the heroic men who went to certain death to stop the meltdown over a full day of intensive efforts did their job. There is an area 100 miles in radius around the plant that in 2006 is still centuries from being inhabitable again. The areas outside of this radius are questionably better, although people survive there; death rates are high, birth defects are common place, cancer is a given, and animals as well as plants suffer in the matter as do the humans.
Nuclear energy is largley safe and clean when compared to other forms of generation. But like so many things it is toxic in the state that man alters it to, where in the mountains of Columbia workers chew the leaves of cocoa plants for stamina throughout their adult lives one dose of cocaine can kill a person in minutes, radio active material must be enriched and refined for generation and so its control and awe must be regarded for every minute we coexist with it. At Chernobyl today they are facing the concern of how a place still lethal to man can be worked at because the orginal contaiment structure put together by the teams of workers who saved the USSR from an unknown phenomenon of true meltdown is crumbling as it was built as a stop-gap measure.
Radiation like chlorine will drift with the winds poisoning all surfaces it comes into contact with until it dispates, depending on the density and size of this cloud it could be of no effect or it could kill millions of people and render an area unihabital for centuries without physically damaging a single structure.
Effects: Areas dozens of miles in radius to the event. Most likely effected are those areas nearest a nuclear generating station, or military nuclear storage facility. Beyond this those cities targeted for nuclear detonation by weapons. Few locations on the planet are likely to have a natural nuclear emergency, most radioactive material is slow to be lethal in its natural state and those people who have for generations lived near it often build a tolerance to it. So quickly that I was told in college for years low grade nuclear waste was stored in a particular New York area neighborhood because the area was once a watch manufacuring location where Radium was hand painted on watch and clock hands and the residents had become tolerant to it.
2. Describe briefly the types of services provided to survivors of disasters in your nation by ADRA or Adventist Community Services (ACS).
ADRA provides services outside of North America in 120 nations around the globe. ACS provides services inside North America and Bermuda. Their missions are often parallel in Disaster Response.
In the area of Disaster Response the Adventist organizations provide an important basic need of disaster relief, warehousing and distribution. Adventists are responsible for recieving most of the donated goods sent to an incident, then sorting, warehousing, and distributing them. Large scale distribution is done to fill the needs of the Red Cross, Southern Baptists, Salvation Army, and Second Harvest as well as local food banks and shelters during a response. Small scale distributions to individuals and families are done at satellite distribution centers where families report to obtain those essential items they need such as clothing, hygiene products, and food.
Before this type of system was organized or when it does not function, donated items often went to waste. Because of the slow action of the state of Louisiana and its political subdivisions, truckloads of goods were dropped in fields and streets within hurricane ravaged areas and went to waste. The central collection of goods and their managed distribution is essential to good Disaster Management.
3. View a video report from ADRA or ACS concerning a recent disaster response project and discuss with your instructor, Pathfinder Club counselor, teacher or group the key roles that would be necessary in the disaster response team in order to accomplish the work described in the video.
The ADRA Presents series of videos includes very good introductions to ACS and disaster resoponse in short video segments. These videos are available through AdventSource .
4. Complete the official ADRA introductory training unit provided by your national ADRA office or ACS organization.
Contact ADRA at http://www.adra.org
Contact ACS at http://www.communityservices.org
For the Pacific Union Conference contact Charlene Sargent, Director ADR PUC at the Pacific Union Conference 6005 Amber Oaks Avenue, Bakersfield California, 93306
OR check with your local conference for the contact of your conference or union disaster coordinator.
Currently ACS has 5 general training modules and specific courses on Warehouse Management, Public Information, and interagency liason. The 5 general modules are currently being revised.
5. Describe at least one of these other major disaster response organizations and the kind of relationship that ADRA or ACS has with it:
a. Red Cross
b. UNHCR
c. Food banks
6. Explain the role of government officials when a disaster occurs, identify the key government agency in your nation that manages emergency response, and describe the nature of the relationship that your ADRA or ACS country office has with this government agency.
In the United States each state has the responsibility to manage major emergencies and disasters. They do so by establishing a state level agency to oversee planning and response while advising local juridictions such as counties and cities on their planning and response. Part of this planning is the development of contracts for response to ermergencies with non-government agencies within and outside of their state, this will include ADRA and the Red Cross and may include local contractors who will provide equipment on demand and local charaties they may help with refugee shelter or goods management.
If the governor of a state declares an emergency these plans and contracts go into effect, in addition if that governor makes a formal request of the United States Federal Government for assistance the President may after reviewing the request dispatch the Federal Emergency Management Agency (FEMA) and provide federal funding to help off set the cost of the disaster for the state. The U.S. Federal Government has no jurisdiction to respond to an emergency or to fund its recovery when it occurs off of federally controlled lands, therefore the system requires as a constitutional matter of seperation of powers that the state request aid before it can be given. In recent years in the United States a gross failure of a state to act resulted in the deaths and suffering of many of its residents and in blame placed on FEMA where it was not due; for this reason it is deeply important that we understand the emergency management system of our nation and how we can best be of service to it.
7. Find a Bible text that you might use to comfort and encourage an individual of your same age and gender who has just experienced the total loss of their home, and tell why you chose that text.
References
Disaster Response Guide from the ADRA or ACS national office
Ministries of Compassion, second edition by Monte Sahlin, AdventSource, Lincoln, Nebraska(1998)