Wildfire
56106
226138261
2008-07-17T00:06:15Z
155.42.34.63
/* Designations and terminology */
{{otheruses}}
{{Wildland Firefighting}}
[[Image:Lava wildfire.JPG|right|thumb|[[Lava]] flow on the coastal plain of [[Kilauea|Kīlauea]], on the island of [[Hawaii (island)|Hawaii]], generated this wildfire. This kind of fire cannot be easily prevented or suppressed.]]
A '''wildfire''', also known as a '''wildland fire''', '''forest fire''', '''brush fire''', '''vegetation fire''', '''grass fire''', '''[[peat]] fire''', '''[[bushfire]]''' (in [[Australasia]]), or '''hill fire''', is an uncontrolled [[fire]] often occurring in [[wildland]] areas, but which can also consume houses or agricultural resources. Common causes include [[lightning]], human carelessness, [[arson]], [[volcano]] eruption, [[pyroclastic]] cloud from active volcano, and [[mine fire|underground coal fire]]. [[Heat wave]]s, [[drought]]s, and cyclical [[climate change]]s such as [[El Niño]] can also dramatically increase the risk of wildfires.
The word "wildfire" was once a synonym for [[Greek fire]] as well as a word for any furious or destructive conflagration. According to the [[Oxford English Dictionary]], the earliest known usages are specifically for lightning-caused conflagrations. The modern usage may have arisen in part from people misunderstanding the expression "spread like wildfire".
==Background==
Wildfires are very common in many places around the world, including much of the vegetated areas of [[Australia]] as well as the [[veld]] in the interior and the [[fynbos]] in the Western Cape of [[South Africa]], and of course, California. The forested areas of the [[United States]] and [[Canada]] are also susceptible to wildfires. The climates are sufficiently moist to allow the growth of trees, but feature extended dry, hot periods. Fires are particularly prevalent in the summer and [[autumn|fall]], and during [[drought]]s when fallen branches, leaves, and other material can dry out and become highly flammable. Some suggest that [[global warming]] has been increasing the intensity and frequency of droughts in many areas, creating more intense and frequent wildfires.<ref name=climatechangelink>[http://www.sfgate.com/cgi-bin/article.cgi?f=/c/a/2006/07/07/MNG7JJR8521.DTL&feed=rss.news Climate Change Link Seen in Surge of Western Blazes]</ref> Wildfires are also common in grasslands and scrublands.
Wildfires tend to be most common and severe during years of drought and occur on days of strong winds. With extensive urbanization of wildlands, these fires often involve destruction of suburban homes located in the wildland urban interface, a zone of transition between developed areas and undeveloped wildland.
Today it is generally accepted that wildfires are a natural part of the [[ecosystem]] of numerous wildlands, where some plants have evolved to survive fires by a variety of strategies (from possessing reserve shoots that sprout after a fire, to fire-resistant [[seed]]s), or even encourage fire (for example [[eucalypt]]s contain flammable oils in their leaves) as a way to eliminate competition from less fire-tolerant species. Smoke, charred wood, and heat are common fire cues that stimulate the germination of seeds (Keeley and Fotheringham 1997). In 2004, researchers discovered that exposure to [[smoke]] from burning plants actually promotes [[germination]] in other types of plants by inducing the production of the orange [[butenolide]].
However, many ecosystems are suffering from too much fire such as the [[chaparral]] in southern California and lower elevation deserts in the American Southwest. The increased fire frequency in these areas has caused the elimination of native plant communities and have replaced them with non-native weeds (Keeley 1995, Zedler 1995). These weeds create a positive feedback loop, increasing fire frequency even more (Brooks, et al. 2004).
On occasions, wildfires have caused large-scale damage to private or public property, destroying many homes and causing deaths, particularly when they have reached urban-fringe communities. Wildfires are extremely dangerous, but some are purposely caused.
==Designations and terminology==
In the U.S., there are a number of specific terms that are applicable to such fires. A '''Wildland fire''' is "any non-structure fire, that occurs in the wildland", and there are three distinct types of wildland fire which are defined:<ref name=2005plan>[http://www.nifc.gov/nicc/administrative/nmac/correspond/FireOpsPlan.pdf Federal Fire and Aviation Operations Action Plan, 2005]</ref>
*'''Wildfire''' is "an unplanned, unwanted wildland fire, including unauthorized human-caused fires, escaped wildland fire use events, escaped prescribed fire projects and all other wildland fires where the objective is to put the fire out."
*'''Wildland fire use''' is "the application of the appropriate management response to naturally ignited wildland fires to accomplish specific resource management objectives in predefined designated areas outlined in Fire Management Plans."
*'''Prescribed fire''' is "any fire ignited by management actions to meet specific objectives."
Chuck Norris causes forest fires with his rage.
==Behavior==
{{Unreferencedsection|date=May 2008}}
[[Image:Forest fire aftermath.jpg|thumb|right|Charred landscape following a crown fire in the [[Cascade Range|North Cascades]].]]
[[Image:Forestfire5.jpg|thumb|left|A massive forest fire]]
The evaporation of water in plants is balanced by water absorbed from the soil. Below this threshold, the plants dry out and under stress release the flammable gas [[ethylene]]. A consequence of a long hot and dry period is therefore that the air contains flammable essences and plants are drier and highly flammable.
The propagation of the fire has three mechanisms:
* '''Crawling fire''': the fire spreads via low level vegetation (e.g., bushes)
* '''Crown fire''': a fire that "crowns" (spreads to the top branches of trees) can spread at an incredible pace through the top of a forest. Crown fires can be extremely dangerous to all inhabitants underneath, as they may spread faster than they can be outrun, particularly on windy days. (''see [[Firestorm]]'')
* '''Jumping fire''' and '''spotting fire''': burning branches and leaves are carried by the wind and start distant fires; the fire can thus "jump" over a road, river, or even a [[firebreak]]. In Australian bushfires, spot fires have been documented "up to 10 km [aprox. 6 miles] ahead of the fire front" (Billing 1983).
The Nevada Bureau of Land Management identifies several different wildfire behaviors. For example, extreme fire behavior includes wide rates of spread, prolific crowning and/or spotting, the presence of [[fire whirl]]s, or a strong [[convection|convection column]]. Extreme wildfires behave erratically and unpredictably.
In southern [[California]], under the influence of [[Santa Ana winds]], wildfires can move at incredible speeds, up to 40 miles (60 km) in a single day, consuming up to 1,000 acres (4 km²) per hour. Dense clouds of burning embers push relentlessly ahead of the flames crossing firebreaks without pause.
[[Image:Propagation model wildfire.png|thumb|Propagation of the fire with a characteristic shape of a "pear"]]
The powerful [[convection column|updraft]] caused by a large wildfire will draw in air from surrounding areas. These self-generated winds can lead to a phenomenon known as a firestorm.
French models of wildfires dictate that a fire's front line will take on the characteristic shape of a pear; the major axis being aligned with the wind. In the case of the fires in southeastern [[France]], the speed of the fire is estimated to be 3% to 8% of the speed of the [[wind]], depending on the conditions (density and type of vegetation, slope). Other models predict an [[ellipse|elliptical]] shape when the ground is flat and the vegetation is homogeneous.
Another type of wildfire is the [[smoulder]]ing fire. It involves the slow combustion of surface fuels without generating [[flame]], spreading slowly and steadily. It can linger for days or weeks after flaming has ceased, resulting in potential large quantities of fuel consumed and becoming a global source of [[Air pollution|emissions]] to the atmosphere. It heats the [[duff]] and [[Soil profile|mineral]] layers, affecting the [[root]]s, [[seed]]s and plant [[Plant stem|stems]] at the ground.
Since 1997, in Kalimantan and East Sumatra, Indonesia, there is a type of continuous smouldering fire on the peat bogs that burns underground for years without any supply of oxygen. The underground fire ignited new forest fires each year during dry season.
==Prevention==
[[Image:Forest Fire Danger Level.jpg|right|thumb|Forest fire danger level ([[Los Alamos, New Mexico]]). When danger level is ''Extreme'', a red flag is flown.]]
[[Image:Forestfire2.jpg|thumb|right|A '''wildfire''']]
[[Image:Wsa-lightning-complex fire ron-gregory.jpg||thumb|right|WSA Complex fire, Oregon]]
[[Image:Brush 28 of PBCFR..JPG|right|thumb|Brush 28 of [[Palm Beach County Fire-Rescue]] serves areas of [[Palm Beach County, Florida]].]]
For many decades the policy of the [[United States Forest Service]] was to suppress all fires. This policy was epitomized by the mascot [[Smokey Bear]] and was also the basis of parts of the movie ''[[Bambi]]''. The policy began to be questioned in the 1960s, when it was realized that no new [[Giant Sequoia]] had been grown in the forests of California, because fire is an essential part of their life cycle. This produced the policy of [[controlled burn]]s to reduce underbrush. This clears much of the undergrowth through forest and woodland areas, making travel and [[hunting]] much easier while reducing the risk of dangerous high-intensity fires caused by many years of fuel buildup.
The previous policy of absolute fire suppression in the United States has resulted in the buildup of fuel in some ecosystems such as dry [[ponderosa pine]] forests. However, this concept has been misapplied in a "one-size-fits-all" application to other ecosystems such as California chaparral. Fire suppression in southern California has had very little impact over the past century. The amount of land burned in 6 southern California counties has been relatively unchanged. In fact, fire frequency has been increasing dramatically over the past century in lock step with population growth. [[Urbanization]] can also result in fuel buildup and devastating fires, such as those in [[Los Alamos, New Mexico]], [[Oakland Hills firestorm|East Bay Hills]], within the California cities of [[Oakland, California|Oakland]] and [[Berkeley, California|Berkeley]] between [[October 19]] and 22, 1991, all over Colorado in 2002, and throughout southern California in October 2003. Homes designed without considering the fire prone environment in which they are built have been the primary reason for the catastrophic losses experienced in wildfires.
On average, wildfires burn 4.3 million acres (17,000 km²) in the United States annually. In recent years the federal government has spent $1 billion a year on fire suppression. 2002 was a record year for fires with major fires in [[Arizona]], [[California]], [[Colorado]], and [[Oregon]].
The risk of major wildfires can be reduced partly by a reduction or alteration of fuel present. In wild land, reduction can be accomplished by either conducting [[controlled burn]]s, deliberately setting areas ablaze under less dangerous weather when conditions are less volatile or physical fuel removal by removing some trees as is conducted in many American forests. Alteration of fuels, which involves reducing the structure of fuel ladders, can be accomplished by hand crews with chain saws or by large mastication equipment that shreds trees and vegetation to a mulch. Such techniques are best used within the wild land/urban interface where communities connect with wild open space. Prescribed burns in the back country, away from human habitations, are not particularly effective in preventing large fires. All the large catastrophic fires in the United States have been wind driven events where the amount of fuel (trees, shrubs, etc.) has not been the most important factor in fire spread.
People living in fire-prone areas typically take a variety of precautions, including building their homes out of flame-resistant materials, reducing the amount of fuel near the home or property (including ''firebreaks'', their own miniature control lines, in effect), and investing in their own firefighting equipment.
Rural [[farming]] communities are rarely threatened directly by wildfire. These types of communities are usually located in large areas of cleared, usually [[graze]]d, land, and in the drought conditions present in wildfire years there is often very little grass left on such grazed areas. Hence the risk is minimized. However, urban fringes have spread into forested areas, for example in [[Sydney]] and [[Melbourne]], and communities have literally built themselves in the middle of highly flammable forests. In [[Cape Town]], the city lies on the fringe of the Table Mountain National Park. These communities are at high risk of destruction in bush fires, and should take extra precautions.
There are quite a few US states, Canadian provinces and many countries around the world that still use [[Fire lookout]]s as a means of early detection of forest fires. Some nations still using this system besides the US and Canada include: Australia, Israel, Latvia, Poland, France, Germany, Italy, Spain, Portugal, Brazil, Uruguay.
==Wildfire detection==
Fast and effective detection is a key factor in wildfire fighting.
Recently, there have been significant efforts to create automatic solutions for early wildfire detection.
An '''integrated approach''' is best, based on a practical combination of different detection systems depending on wildfire risk and the size of the area.
{| class="wikitable"
|-
! SOLUTIONS
! SIZE AREA
! RISK LEVEL
! DETECTION WITHIN
|-
| Aero/satellite
| Very large (>250,000 acres)
| Low
| 30 acres (12 ha)
|-
| Infrared/smoke scanners
| Medium (10,000-250,000 acres)
| Medium
| 3 acres (2.4 ha)
|-
| Local sensor network
| Small (<10,000 acres)
| High
| 150 sq feet (15 sq m)
|}
A careful GIS data analysis will suggest how to divide the area in sub-categories based on different risk level and human presence (which imply a higher wildfire risk and a need for earlier intervention).
* A small high risk area (thick vegetation, strong human presence or close to critical urban area) could be monitored using a local sensor network.
Although it is a relatively new approach, it seems to be the only solution able to penetrate thick vegetation and guarantee early detection without false alarms, as well as detecting crawling wildfires.
The main limitation of this technology is its high cost which at this time limit its application to small areas.
* A larger medium risk area could be monitored by infrared scanning towers.
These have a disadvantage in that they are "blind" to obstacles like thick vegetation, therefore they can miss crawling wildfires for a long time and have still frequent false alarms, but are the best approach to wider areas.
Smoke and hot-air-column scanners have the advantage of "looking higher", making them able to locate a wildfire of any size, but do not perform well during strong wind (which is, ironically, the riskiest situation).
* Satellite and aero monitoring can provide a wider view and may be sufficient to monitor very large and low risk areas.
Many studies have been done in this field, some producing interesting results.
Limitations include the long distance to satellites in geostationary orbits and the short window of observation time for satellites in polar orbits.
==Fire suppression==
{{main|wildland fire suppression}}
[[Image:Hercules C130 bombardier d eau Californie.jpg|thumb|A [[Modular Airborne FireFighting System|MAFFS]]-equipped [[Air National Guard]] [[C-130 Hercules]] drops [[fire retardant]] on wildfires in Southern California]]
The vast majority of wildfires are suppressed before they grow out of control. In 2004, firefighters contained more than 99% of all new wildfires during initial action. That record was achieved despite the volatile conditions that prevailed in much of that year's fire season. However, the wildfires that escaped initial actions and grew above {{convert|300|acre|km2|1}} accounted for the bulk of acres burned, and nearly 75% of all suppression expenditures.<ref name=2005plan/>
[[Wildland fire suppression]] is a unique aspect of firefighting. Most fire-prone areas have large [[firefighting|firefighter]] services to help control bushfires. As well as the water-spraying [[fire apparatus]] most commonly used in urban firefighting, bushfire services use a variety of alternative techniques. Typically, forest fire fighting organizations will use large crews of 20 or more people who travel in trucks to the fire. These crews use heavier equipment to construct firebreaks, and are the mainstay of most firefighting efforts. Other personnel are organized into fast attack teams typically consisting of 5–8 people. These fast attack teams are [[helicopter]]ed into smaller fires or hard to reach areas as a preemptive strike force. They use portable [[pump]]s to douse small fires and [[chainsaw]]s to construct firebreaks or helicopter landing pads if more resources are required. Hand tools are commonly used to construct firebreaks and remove fuels around the perimeter of the fire to halt its spread, including shovels, rakes, and the [[Pulaski (tool)|pulaski]], a tool unique to wildland firefighting. In the eastern United States, portable leaf blowers are sometimes used. In the western United States, large fires often become extended campaigns, and temporary fire camps are constructed to provide food, showers, and rest to fire crews. These large fires are often handled by 20 person hand crews, sometimes known as [[hotshot crew]]s, specially organized to travel to large fires.
Fast attack teams, such as the Boise District BLM Helitack crew, are often considered the elite of firefighting forces, as they sometimes deploy in unusual ways. If the fire is on a particularly steep hill or in a densely wooded area, they may [[rappel]] or [[fast-rope]] down from helicopters. If the fire is extremely remote, firefighters known as [[smokejumper]]s may [[parachute]] into site from fixed-wing [[aircraft]]. In addition to the aircraft used for deploying ground personnel, firefighting outfits often possess helicopters and [[water bomber]]s specially equipped for use in [[aerial firefighting]]. These [[aircraft]] can douse areas that are inaccessible to ground crews and deliver greater quantities of water and/or flame retardant chemicals. Managing all of these various resources over such a large area in often very rugged terrain is extremely challenging, and often the [[Incident Command System]] is used. As such, each fire will have a designated [[Incident Commander]] who oversees and coordinates all the operations on the fire. This Incident Commander is ultimately responsible for the safety of the firefighters and for the success of firefighting efforts.
[[Image:Helicoptere bombardier d eau Italie.jpg|thumb|left|A helicopter dips its [[Bambi bucket|bucket]] into a pool before returning to drop the water on a wildfire outside of Naples, Italy.]]
Large fires are of such a size that no conceivable firefighting service could attempt to douse the whole fire directly, and so alternative techniques are used. In alternative approaches, firefighters attempt to control the fire by controlling the area that it can spread to, by creating "control lines", which are areas that contain no combustible material. These control lines can be produced by physically removing fuel (for instance, with a [[bulldozer]]), or by "backfiring", in which small, low-intensity fires are started, using a device such as the [[driptorch]], or [[Flare (pyrotechnic)|pyrotechnic flares]] known as "fusees", to burn the flammable material in a (hopefully) controlled way. These may then be extinguished by firefighters or, ideally, directed in such a way that they meet the main fire front, at which point both fires run out of flammable material and are thus extinguished.
[[Image:Wildfire-ISS007 Mosaic2.jpg|thumb|The [[Old Fire]] burning in the [[San Bernardino Mountains]] (image taken from the [[International Space Station]])]]
[[Image:Fireplow0179.JPG|thumb|right|Plowing a fire lane in advance of a forest wildfire, [[Georgetown, South Carolina]]]]
Unfortunately, such methods can fail in the face of wind shifts causing fires to miss control lines or to jump straight over them (for instance, because a burning tree falls across a line, burning embers are carried by the wind over the line, or burning tumbleweeds cross the line).
The actual goals of firefighters vary. Protection of life (those of both the firefighters and "civilians") is given top priority, then private property according to economic and social value and also to its "defendibility" (for example, more effort will be expended on saving a house with a tile roof than one with a wooden-shake roof). In very severe, large fires, this is sometimes the only possible action. Protecting houses is regarded as more important than, say, farming machinery sheds, although firefighters, if possible, try to keep fires off farmland to protect stock and fences (steel fences are destroyed by the passage of fire, as the wire is irreversibly stretched and weakened by it). Preventing the burning of publicly owned forested areas is generally of least priority, and, indeed, it is quite common (in Australia, at least) for firefighters to simply observe a fire burn towards control lines through forest rather than attempt to put it out more quickly; it is, after all, a natural process. On any incident, ensuring the safety of firefighters takes priority over fire suppression. When arriving on a scene a fire crew will establish a safety zone(s), escape routes, and designate lookouts (known by the acronym LCES, for lookouts, communications, escape routes, safety zones). This allows the firefighters to engage a fire with options for a retreat should their current situation become unsafe. In addition all fire suppression activities are based from an "anchor point" (such as lake, rock slide or road). From an anchor point firefighters can work to contain a wild land fire without the fire outflanking them. As a last resort, all wild land firefighters carry a [[fire shelter]]. In an unescapable burnover situation the shelter will provide limited protection from radiant and convective heat, as well as superheated air. As such a greater emphasis is placed on safety and preventing entrapment, and is reinforced with a list of 10 fire orders and 18 "watch out situations" for firefighters to be aware of, which warn of potentially dangerous conditions.
In North America, the belief that fire suppression has substantially reduced the average annual area burned is widely held by resource managers and is often thought to be self-evident. However, this belief has been the focus of vocal [[Success of fire suppression in northern forests|debate in the scientific literature]].
A new material called "gel" (made from super-absorbent polymer) is used in California, USA for fighting forest fire. Water is soaked up by the gel and stored in layers of tiny bubbles.
The gel can protect tree/house for longer time than ordinary water, because it gets boiled by the fire one layer at a time.
==Atmospheric effects==
[[Image:Fire Portugal summer2005.jpg|thumb|Wildfires burn areas of [[Portugal|Portuguese]] forest every year, obscuring the Sun in smoke]]
[[Image:FireSmokeFlorida.jpg|thumb|left|250px|A Wildfire in South Florida covers Miami's sky with smoke. (2004)]]
Wildfires can affect climate and weather and have major impacts on regional and global pollution (Bravo, et al., 2002)).
Most of the Earth's [[weather]] and [[air pollution]] reside in the [[troposphere]], the part of the atmosphere that extends from the surface of the planet to a height of between 8 and 13 kilometers. A severe [[thunderstorm]] or [[pyrocumulonimbus]] in the area of a large wildfire can have its vertical lift enhanced to boost smoke, soot and other particles as high as the lower [[stratosphere]] (Wang, 2003).
Previously, it was thought that most particles in the stratosphere came from [[volcano]]es or were generated by high-flying aircraft. Collection of air samples from the stratosphere in 2003 led to detection of [[carbon monoxide]] and other gases related to combustion at a level 30 times higher than can be accounted for by commercial aircraft.
Satellite observation of smoke plumes from wildfires revealed that the plumes could be traced intact for distances exceeding 5,000 kilometers. This observation suggests that the plumes were in the stratosphere above weather conditions that would have brought the plume back to earth.
Atmospheric models suggest that these concentrations of sooty particles could increase absorption of incoming [[solar radiation]] during winter months by as much as 15% (Baumgardner, ''et al.'', 2003).
The massive forest fire in Indonesia in 1997 is estimated to have released between 0.81 and 2.57 gigatonnes of Carbon Dioxide into the atmosphere, which is between 13-40% of the annual carbon dioxide emissions from burning fossil fuels. <ref>{{cite journal |first = Susan E. |last = Page |coauthors=Florian Siegert, John O. Rieley, Hans-Dieter V. Boehm, Adi Jaya and Suwido Limin. |title =The amount of carbon released from peat and forest fires in Indonesia during 1997 |journal= Nature |doi=10.1038/nature01131 |volume=420 |pages=61-65 |date=7 November 2002}}</ref>
After the end of a wildfire, houses sometimes experience an [[ember attack]] - an onslaught of burning twigs or branches that can ignite a fire in the house.
[[Wildland fire emissions]] contain greenhouse gasses and a number of criteria pollutants which can have a substantial impact on human health and welfare (Douglass 2008).
==Benefits==
[[Image:Fireweedstand.JPG|right|thumb|[[Fireweed]]- one example of a [[pioneer species]] that quickly colonizes an area after a wildfire.]]
Fire is sometimes essential for forest regeneration, or provides tangible benefits for local communities. In other cases it destroys forests and has dire social and economic consequences.
Forest fires are a natural part of ecosystems in many, but not all, forest types: in boreal and dry tropical forests for example they are a frequent and expected feature, while in tropical moist forests they would naturally be absent or at least rare enough to play a negligible role in ecology.
== Statistics ==
[[Image:Wildfires Balkans July 2007-NASA.jpg|thumb|Wildfires across the Balkans in late July 2007 (NASA satellite image)]]
Every year, the burnt surface represents about:
* [[France]]: 211 [[square kilometre|km²]], 52,140 [[acre]]s, 0.04% of the territory
* [[Portugal]]:
** 1991 : 1,820 km², 449,732 acres, i.e. 2% of the territory
** 2003 : 4,249 km², 1.05 million acres, i.e. 4.6% of the territory; 20 deaths ;
** 2004 : 1,205 km², 297,836 acres, i.e. 1.3% of the territory
** 2005 : 2,864 km², 707,668 acres, i.e. 3.1% of the territory; 17 deaths;
** 2006 : 724 km², 178,904 acres, i.e. 0.8% of the territory; 10 deaths;
* [[United States]]: 17,400 km², 4.3 million acres i.e. 0.18% of the territory
* Indonesia. Sources: before 1997 from Indonesian Environmental Impact Management Agency (BAPEDAL) and Canadian International Development Agency (CIDA) - Collaborative Environmental Project in Indonesia (CEPI). 1997/1998 from Asian Development Bank (ADB). From 1999: Indonesian Ministry of Forestry.
**[[1982]] and [[1983]]: 36,000 km² (8.9 million acres)
**[[1987]]: 492 km² (121,880 acres).
**[[1991]]: 1,189 km² (293,761 acres).
**[[1994]]: 1,618 km² (399,812 acres).
**[[1997]] and [[1998]]: 97,550 km² (24.1 million acres) - from ADB.
**[[1999]]: 440.90 km² (108,949 acres).
**[[2000]]: 82.55 km² ( 20,399 acres).
**[[2001]]: 143.51 km² ( 35,462 acres).
**[[2002]]: 366.91 km² ( 90,665 acres).
**[[2003]]: 37.45 km² ( 9,254 acres).
**[[2004]]: 139.91 km² ( 34,573 acres).
**[[2005]]: 133.28 km² ( 32,934 acres).
== Notable wildfires ==
{{main|List of wildfires}}
*One of the largest known wild fires, was the [[Great Fire of 1910]], that burned in [[Montana]] and [[Idaho]].
*[[Kursha-2]], a wildfire killed 1,200 in the [[Soviet Union]]
*[[Siege of 1987]] Refers to a complex of fires in northern California and southern Oregon that burned a total of about 650,000 acres. These fires were started by a large lightning storm in late August. The storm started roughly 1600 new fires, most caused by dry lightning. Firefighting efforts continued into October, before the majority of the fires were controlled.
*The [[Yellowstone National Park]] Fire of 1988 burned well over 793,880 acres (321,271 ha) before the winter snows put out the flames. (See: ''[[Yellowstone fires of 1988]]'')
*The [[Biscuit Fire]] burned almost 500,000 acres in [[Oregon]] and [[California]] in 2002.
*[[McNally Fire]] Sequoia NF burned roughly 151,000 acres in 2002, and is the largest wildfire recorded in the forest's history.
*The [[2003 Okanagan Mountain Park Fire]] was started by a lightning strike near Rattlesnake Island in Okanagan Mountain Park in [[British Columbia]], [[Canada]], during one of the driest summers in the past decade. The final size of the firestorm was over 250 square kilometres (61,776 acres). 60 fire departments, 1,400 armed forces troops and 1,000 forest fire fighters took part in controlling the fire, but were largely helpless in stopping the disaster.
*The January 1939 [[Black Friday (1939)|Black Friday]] fires. Across the Australian state of [[Victoria (Australia)|Victoria]], almost 20,000 km² (4,942,000 acres, 2,000,000 ha) of land were burnt, 71 people died, several towns were entirely destroyed. The Stretton [[Royal Commission]] that resulted from it led to major changes in fire and forest management in Australia.
*The February [[1967 Tasmanian fires]]. Fuelled by a severe drought, 110 fires burnt out over 617,763 acres in the Australian state of [[Tasmania]] in around 5 hours. The fires killed 62 people and destroyed 1,400 homes and other buildings. Seven thousand people were left homeless. The fire encircled the state capital [[Hobart]] cutting communications and burnt to within 8 [[km]] (4.9 mi) of the city centre.
*The February 1983 [[Ash Wednesday fires]]. Extreme weather and severe drought conditions combined to create one of Australia’s worst fire days in a century. In 12 hours on February 16 in the states of Victoria and [[South Australia]] 75 people died, including 17 firefighters. Over 2,545 homes were lost along with heavy loss of farms and livestock. Nearly 1,284,000 acres (5,196 km²) were burnt throughout the 1982/83 fire season. Many of the fatalities were caused by a rapid change in the speed and direction of the firefront and poor evacuation procedures.
*The [[2003 Canberra bushfires]] infringed on the Australian capital itself. A firestorm raced through Canberra suburbs on [[January 18]] [[2003]] and damaged or destroyed 431 homes.
*In 2004, approximately 6.5 million acres burned in [[Alaska]], in the state's largest recorded fire season. Over 500,000 acres burned in the Boundary Fire north of Fairbanks.
*The [[Milford Flat Fire]] which burned in 2007 in [[Utah]] is statistically the largest fire burning in Utah's history. At the time, Governor [[Jon Huntsman, Jr.]] stated that it is the biggest fire burning in the world. This fire burned 363,052 acres before it was fully contained.
*The [[2007 Greek fires]] were some of the deadliest in world history, killing at least 64 people in [[Peloponnese]] and [[Evia]].
*The [[Zaca Fire]] burned Los Padres NF, CA. It burned 240,207 acres. It is the 2nd largest recorded fire in California.
*The [[California wildfires of October 2007|2007 Southern California wildfires]], burning an estimated 500,000 acres of land (in the [[San Diego]] and [[Malibu]] areas), with almost 900,000 people evacuated from the area.
*The Evans Road Wildfire of [[June 2008]] in [[Eastern North Carolina]] has so far burned nearly 40,000 acres.[[Virginia]].
*The [[Northern California]] [[California wildfires of 2008|wildfires]], burned an estimated 546,000 acres and continues to crawl across Northern California. With a state wide drought declared ,harsh terrain, and over 1,700 blazes roaring across the region firefighters have been spread thin leaving some fires to burn with little to no attention. The largest in [[Big Sur]],[[California]] is only 3 percent contained and has burned over 65,000 acres in the following week.
== See also ==
{{portal|Fire|Large bonfire.jpg}}
[[Image:PropagandaHitlerTojo.jpg|thumb|140px|right|[[World War II]] anti-forest fire propaganda, featuring [[Adolf Hitler]] and [[Hideki Tojo]].]]
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* [[Aerial firefighting]]
* [[Controlled burn]]
* [[Defensible space]]
* [[Fire ecology]]
* [[Fire lookout tower]]
* [[Forestry]]
* [[Flood]]s after wildfires (i.e. after Greek 2007 wildfires)
* [[Glossary of wildland fire terms]]
* [[International Association of Wildland Fire]]
* [[Keetch-Byram Drought Index]]
* [[List of forest fires]]
* [[Success of fire suppression in northern forests]]
* [[Wildland Firefighter Foundation]]
==References==
{{reflist}}
* Baumgardner, D., ''et al.'' 2003. Warming of the Arctic lower stratosphere by light absorbing particle. American Geophysical Union fall meeting. Dec. 8-12. San Francisco.
* Billing, P., 1983. Otways Fire No. 22 - 1982/83 Aspects of fire behaviour, Fire Research Branch Report No. 20. Dept. of Sustainability and Environment, Victoria, Australia. pp. 5-6, (PDF - 1.8 Mb). [http://www.dse.vic.gov.au/DSE/nrenfoe.nsf/LinkView/332654EE29FA90344A2567E1002C8A4A7B3EF002FA04DC3A4A256DEA0013F3CB]
* Bridge, S.R.J, K. Miyanishi and E.A. Johnson. 2005. A Critical Evaluation of Fire Suppression Effects in the Boreal Forest of Ontario. Forest Science 51:41-50.
* Bravo, A. H., E. R. Sosa, A. P. Sánchez, P. M. Jaimes and R. M. I. Saavedra. 2002. Impact of wildfires on the air quality of Mexico City, 1992–1999. Environmental Pollution, 117(2: 243-253.
* Douglass, R. 2008. Quantification of the health impacts associated with fine particulate matter due to wildfires. M.S. Thesis. Nicholas School of the Environment and Earth Sciences of Duke University. 45p.
* Fromm, M., ''et al.'' 2003. Stratospheric smoke down under: Injection from Australian fires/convection in January 2003. American Geophysical Union fall meeting. Dec. 8-12. San Francisco.
* Halsey, R.W. 2008. Fire, Chaparral, and Survival in Southern California. Sunbelt Publications, San Diego, CA. 323 p.
* Johnson, E.A. and Miyanishi K. (Eds.) 2001. Forest Fires - Behavior and Ecological Effects. Academic Press, San Diego.
* Johnson, E.A., K. Miyanishi, and S.R.J. Bridge. 2001. Wildfire regime in the boreal forest and the idea of suppression and fuel buildup. Conserv. Biol. 15:1554-1557.
* Keeley, J.E. 1995. [http://www.werc.usgs.gov/seki/pdfs/Future%20of%20California%20Floristics%20and%20Systematics%20Wildfire%20Th.pdf"Future of California floristics and systematics: wildfire threats to the California flora"]. Madrono 42: 175-179.
* Keeley, J.E. and C.J. Fotheringham. 1997. [http://www.werc.usgs.gov/seki/pdfs/emissions.pdf"Trace gas emission in smoke-induced germination"]. Science 276: 1248-1250.
* Li, C. 2000. Fire regimes and their simulation with reference to Ontario. P. 115-140 in Ecology of a managed terrestrial landscape: patterns and processes of forest landscapes in Ontario, Perera, A.H., D.L. Euler, and I.D. Thompson (eds.). UBC Press, Vancouver, BC.
* Makarim, Nabiel, ''et al.'' BAPEDAL and CIDA-CEPI. 1998. Assessment of 1997 Land and Forest Fires in Indonesia: National Coordination. From "International Forest Fire News", #18, page 4-12, January 1998.
* Martell, D.L. 1994. The impact of fire on timber supply in Ontario. For. Chron. 70:164-173.
* Martell, D.L. 1996. Old-growth, disturbance, and ecosystem management: commentary. Can. J. Bot. 74:509-510.
* Miyanishi, K., and E.A. Johnson. 2001. A re-examination of the effects of fire suppression in the boreal forest. Can. J. For. Res. 31:1462-1466.
* Miyanishi, K., S.R.J. Bridge, AND E.A. Johnson. 2002. Wildfire regime in the boreal forest. Conserv. Biol. 16:1177-1178.
* [[Stephen J. Pyne|Pyne, S.J.]] ''et al.'' 1996. Introduction to Wildland Fire. Wiley, New York.
* Stocks, B.J. 1991. The extent and impact of forest fires in northern circumpolar countries. P. 197-202 in Global biomass burning: atmospheric, climatic and biospheric implications, Levine, J.S. (ed.). MIT Press, Cambridge, MA.
* Wang, P.K. 2003. The physical mechanism of injecting biomass burning materials into the stratosphere during fire-induced thunderstorms. American Geophysical Union fall meeting. Dec. 8-12. San Francisco.
* Ward, P.C., and W. Mawdsley. 2000. Fire management in the boreal forests of Canada. P. 274-288 In Fire, climate change, and carbon cycling in the boreal forest, Kasischke, E.S., and B.J. Stocks (eds.). Springer, New York, NY.
* Ward, P.C., and A.G. Tithecott. 1993. The impact of fire management on the boreal landscape of Ontario. Aviation, Flood and Fire Management Branch Publication No. 305. Ont. Min. Nat. Res., Queens Printer for Ontario, Toronto, ON.
* Ward, P. C., Tithecott, A. G., & Wotton, B. M. 2001. Reply—a re-examination of the effects of fire suppression in the boreal forest. Canadian Journal of Forest Research, 31(8), 1467.
* Weber, M.G., and B.J. Stocks. 1998. Forest fires in the boreal forests of Canada. P. 215-233 in Large forest fires, Moreno, J.M. (ed.). Backhuys Publishers, Leiden.
*Zedler, P.H. 1995. Fire frequency in southern California shrublands: biological effects and management options, pp. 101-112 in J.E. Keeley and T. Scott (eds.), Brushfires in California wildlands: ecology and resource management. International Association of Wildland Fire, Fairfield, Wash.
==External links==
{{commons}}
===Management===
*[http://www.nifc.gov/ National Interagency Fire Center]
*[http://www.nwcg.gov/ National Wildfire Coordinating Group]
*[http://www.nifc.gov/fire_policy/ National Fire and Aviation Executive Board - Policy Directives Task Group]
===Warning and monitoring===
*[http://www.calfirenews.com CalFireNews.com - California / World Wildfire News and Photos]
*[http://www.firefightingnews.com FireFightingNews.com - Wildfire News and Photos]
*[http://www.nifc.gov/information.html Current Wildland Fire Information in the United States]
*[http://fire.cfs.nrcan.gc.ca/report/firereport_e.php Weekly Forest Fire Situation Report - Canadian Forest Service]
*[http://www.for.gov.bc.ca/Protect/ The British Columbia Ministry of Forests-Protection Branch]
*[http://www.fire.uni-freiburg.de/ Global Fire Monitoring Center (GFMC)]
*[http://effis.jrc.it/Home/ European Forest Fire Information System]
*[http://www.geomac.gov/ GeoMAC Wildfire information and internet map viewer of current wildfires in the United States]
*[http://activefiremaps.fs.fed.us/ Locations of large fires in the US and Canada based upon MODIS satellite imagery]
*[http://www.nifc.gov/safety_study/10-18-lces.html The 10 standard fire orders and 18 watch out situations]
*[http://www.capefires.com/ Volunteer Wildfire Services, Cape Town, South Africa]
*[http://www.bwcafire.com/ BWCA Fire Restrictions, Fire Danger, and Forest Fire Updates]
===Wildfire Detection Solution Providers===
*[http://www.evsolutions.biz/Forestwatch-index.php EVSolutions]
*[http://www.fire-watch.de// IQ wireless GmbH]
*[http://www.minteos.eu// Minteos srl]
*[http://geo.arc.nasa.gov/sge/WRAP// NASA Wildfire Research]
===Research===
*[http://www.firelookout.org Forest Fire Lookout Association]
*[http://www.iawfonline.org/journal.shtml The International Journal of Wildland Fire]
*[http://www.iawfonline.org The International Association of Wildland Fire]
*[http://www.fs.fed.us/pnw/fera Fire and Environmental Research Applications Team]
*[http://www.usfa.fema.gov/applications/publications/tr060.cfm FEMA report on the East Bay Hills Fire]
*[http://www.infoaboutnetwork.com/view/news/531/ Interesting Forest Fire Policy]
*[http://siadex.ugr.es/ SIADEX: A decision support system for fighting forest fires in Andalusia]
*[http://www.primalnature.org/wildlife.html Fire in the East, Fire in the West] An overview of conditions and agents of wildfire in different U.S. ecosystems
*[http://spe.univ-corse.fr/expe_feux/VERS_ANGLAIS/SITE%20PLATEFORME%20ENGLISH/debut.htm French National Centre for Scientific Research - University of Corsica] An international platform for the experimental investigations of free wildland fires at field scale
*[http://www.iawfonline.org/summit/2005%20Presentations/2005_pdf/Peuch.pdf Peuch, Eric "Firefighting Safety in France", Eighth International Wildland Fire Summit, April 26-26, 2005]
*[http://www.cifor.cgiar.org/publications/pdf_files/OccPapers/OP-038.pdf Fire and Haze in Southeast Asia]
*[http://archives.cbc.ca/IDD-1-75-849/science_technology/forest_fires/ CBC Digital Archives - Fighting Forest Fires]
*[http://www.treesearch.fs.fed.us/ US Forest Service Research Portal]
*[http://www.ga.gov.au/urban/projects/archive/canberra.jsp Canberra Fires]
*[http://www.bushfirecrc.com/ Australian Bushfire Cooperative Research Centre]
*[http://www.ewatercrc.com.au/bushfire eWater Cooperative Research Centre] Effects of Bushfire on Catchments
*[http://www.cdc.gov/niosh/topics/firefighting/ National Institute for Occupational Safety and Health - Fighting Wildfires]
*[http://www.ncdc.noaa.gov/oa/esb/?goal=ecosystems&file=events/fire/ Social & Economic Costs of Wildfires] from "NOAA Socioeconomics" website initiative
===Educational===
*[http://www.onearth.org/article/our-trial-by-fire OnEarth Magazine » Our Trial By Fire]
*[http://www.wildlandfire.com/pics/wall/wall.htm Wildfire photographs]
*[http://www.tncfire.org Fire and Conservation, The Nature Conservancy's Global Fire Initiative]
*[http://www.californiachaparral.com/ The California Chaparral Institute]
*[http://www.coloradofirecamp.com/ Wildfire Training and Fatality Investigations]
*[http://www.wildfirelessons.net/ Wildland Fire Lessons Learned Center]
*[http://www.treesinstead.com Tree Planting to recover from fires]
*[http://www.wffoundation.org Wildland Firefighter Foundation]
*[http://www.wildfireideas.com Wildfire Communications Company]
[[Category:Wildfires|Wildfires]]
[[Category:Natural hazards]]
[[Category:Climate forcing agents]]
[[Category:Wildland fire suppression]]
[[Category:Ecological succession]]
[[Category:Occupational safety and health]]
[[bs:Šumski požar]]
[[bg:Горски пожар]]
[[ca:Incendi forestal]]
[[da:Skovbrand]]
[[de:Waldbrand]]
[[es:Incendio forestal]]
[[fr:Feu de forêt]]
[[gl:Incendio forestal]]
[[ko:산불]]
[[hr:Šumski požar]]
[[id:Kebakaran liar]]
[[he:אש משתוללת]]
[[nl:Bosbrand]]
[[ja:山火事]]
[[no:Skogbrann]]
[[pt:Incêndio florestal]]
[[ru:Лесной пожар]]
[[sh:Šumski požar]]
[[fi:Metsäpalo]]
[[sv:Skogsbrand]]
[[th:ไฟไหม้ป่า]]
[[tr:Orman yangını]]
[[yi:וואלד פייער]]
[[zh:山火]]