Natural disaster
A natural disaster is the very harmful impact on a society or community after a natural hazard event. Some examples of natural hazard events include avalanches, droughts, earthquakes, floods, heat waves, landslides, tropical cyclones, volcanic activity and wildfires.[1] Additional natural hazards include blizzards, dust storms, firestorms, hails, ice storms, sinkholes, thunderstorms, tornadoes and tsunamis.[1] A natural disaster can cause loss of life or damage property. It typically causes economic damage. How bad the damage is depends on how well people are prepared for disasters and how strong the buildings, roads, and other structures are.[2] Scholars have been saying that the term natural disaster is unsuitable and should be abandoned.[3] Instead, the simpler term disaster could be used. At the same time the type of hazard would be specified.[4][5][6] A disaster happens when a natural or human-made hazard impacts a vulnerable community. It results from the combination of the hazard and the exposure of a vulnerable society.
Nowadays it is hard to distinguish between natural and human-made disasters.[3][7][8] The term natural disaster was already challenged in 1976.[6] Human choices in architecture,[9] fire risk,[10][11] and resource management[12] can cause or worsen natural disasters. Climate change also affects how often disasters due to extreme weather hazards happen. These "climate hazards" are floods, heat waves, wildfires, tropical cyclones, and the like.[13]
Some things can make natural disasters worse. Examples are inadequate building norms, marginalization of people and poor choices on land use planning.[3] Many developing countries do not have proper disaster risk reduction systems.[14] This makes them more vulnerable to natural disasters than high income countries. An adverse event only becomes a disaster if it occurs in an area with a vulnerable population.[15][16]
Terminology
A natural disaster is the highly harmful impact on a society or community following a natural hazard event. The term "disaster" itself is defined as follows: "Disasters are serious disruptions to the functioning of a community that exceed its capacity to cope using its own resources. Disasters can be caused by natural, man-made and technological hazards, as well as various factors that influence the exposure and vulnerability of a community."[17]
The US Federal Emergency Management Agency (FEMA) explains the relationship between natural disasters and natural hazards as follows: "Natural hazards and natural disasters are related but are not the same. A natural hazard is the threat of an event that will likely have a negative impact. A natural disaster is the negative impact following an actual occurrence of natural hazard in the event that it significantly harms a community.[1] An example of the distinction between a natural hazard and a disaster is that an earthquake is the hazard which caused the 1906 San Francisco earthquake disaster.
A natural hazard[18] is a natural phenomenon that might have a negative effect on humans and other animals, or the environment. Natural hazard events can be classified into two broad categories: geophysical and biological.[19] Natural hazards can be provoked or affected by anthropogenic processes, e.g. land-use change, drainage and construction.[20]
There are 18 natural hazards included in the National Risk Index of FEMA: avalanche, coastal flooding, cold wave, drought, earthquake, hail, heat wave, tropical cyclone, ice storm, landslide, lightning, riverine flooding, strong wind, tornado, tsunami, volcanic activity, wildfire, winter weather.[1] In addition, there are also dust storms.
Critique
The term natural disaster has been called a misnomer already in 1976.[6] A disaster is a result of a natural hazard impacting a vulnerable community. But disasters can be avoided. Earthquakes, droughts, floods, storms, and other events lead to disasters because of human action and inaction. Poor land and policy planning and deregulation can create worse conditions. They often involve development activities that ignore or fail to reduce the disaster risks. Nature alone is blamed for disasters even when disasters result from failures in development. Disasters also result from failure of societies to prepare. Examples for such failures include inadequate building norms, marginalization of people, inequities, overexploitation of resources, extreme urban sprawl and climate change.[6]
Defining disasters as solely natural events has serious implications when it comes to understanding the causes of a disaster and the distribution of political and financial responsibility in disaster risk reduction, disaster management, compensation, insurance and disaster prevention.[21] Using natural to describe disasters misleads people to think the devastating results are inevitable, out of our control, and are simply part of a natural process. Hazards (earthquakes, hurricanes, pandemics, drought etc.) are inevitable, but the impact they have on society is not.
Thus, the term natural disaster is unsuitable and should be abandoned in favor of the simpler term disaster, while also specifying the category (or type) of hazard.[4]
Scale
By region and country
As of 2019, the countries with the highest share of disability-adjusted life years (DALY) lost due to natural disasters are Bahamas, Haiti, Zimbabwe and Armenia (probably mainly due to the Spitak Earthquake).[22][23] The Asia-Pacific region is the world's most disaster prone region.[24] A person in Asia-Pacific is five times more likely to be hit by a natural disaster than someone living in other regions.[25]
Between 1995 and 2015, the greatest number of natural disasters occurred in America, China and India.[26] In 2012, there were 905 natural disasters worldwide, 93% of which were weather-related disasters. Overall costs were US$170 billion and insured losses $70 billion. 2012 was a moderate year. 45% were meteorological (storms), 36% were hydrological (floods), 12% were climatological (heat waves, cold waves, droughts, wildfires) and 7% were geophysical events (earthquakes and volcanic eruptions). Between 1980 and 2011 geophysical events accounted for 14% of all natural catastrophes.[27]
Developing countries often have ineffective communication systems as well as insufficient support for disaster risk reduction and emergency management.[14] This makes them more vulnerable to natural disasters than high income countries.
Slow and rapid onset events
Natural hazards occur across different time scales as well as area scales. Tornadoes and flash floods are rapid onset events, meaning they occur with a short warning time and are short-lived. Slow onset events can also be very damaging, for example drought is a natural hazards that develops slowly, sometimes over years.[28]
Impacts
A natural disaster may cause loss of life, injury or other health impacts, property damage, loss of livelihoods and services, social and economic disruption, or environmental damage.
On death rates
Globally, the total number of deaths from natural disasters has been reduced by 75% over the last 100 years, due to the increased development of countries, increased preparedness, better education, better methods, and aid from international organizations. Since the global population has grown over the same time period, the decrease in number of deaths per capita is larger, dropping to 6% of the original amount.[29]
The death rate from natural disasters is highest in developing countries due to the lower quality of building construction, infrastructure, and medical facilities.[29]
On the economy
Global economic losses due to extreme weather, climate and water events are increasing. Costs have increased sevenfold from the 1970s to the 2010s.[30]: 16 Direct losses from disasters have averaged above US$330 billion annually between 2015 and 2021.[31]: 21 Socio-economic factors have contributed to this trend of increasing losses, such as population growth and increased wealth.[32] This shows that increased exposure is the most important driver of economic losses. However, part of these are also due to human-induced climate change.[33]: 1611 [34]
On the environment
During emergencies such as natural disasters and armed conflicts more waste may be produced, while waste management is given low priority compared with other services. Existing waste management services and infrastructures can be disrupted, leaving communities with unmanaged waste and increased littering. Under these circumstances human health and the environment are often negatively impacted.[35]
Natural disasters (e.g. earthquakes, tsunamis, hurricanes) have the potential to generate a significant amount of waste within a short period. Waste management systems can be out of action or curtailed, often requiring considerable time and funding to restore. For example, the tsunami in Japan in 2011 produced huge amounts of debris: estimates of 5 million tonnes of waste were reported by the Japanese Ministry of the Environment. Some of this waste, mostly plastic and styrofoam washed up on the coasts of Canada and the United States in late 2011. Along the west coast of the United States, this increased the amount of litter by a factor of 10 and may have transported alien species. Storms are also important generators of plastic litter. A study by Lo et al. (2020) reported a 100% increase in the amount of microplastics on beaches surveyed following a typhoon in Hong Kong in 2018.[35]
A significant amount of plastic waste can be produced during disaster relief operations. Following the 2010 earthquake in Haiti, the generation of waste from relief operations was referred to as a "second disaster". The United States military reported that millions of water bottles and styrofoam food packages were distributed although there was no operational waste management system. Over 700,000 plastic tarpaulins and 100,000 tents were required for emergency shelters. The increase in plastic waste, combined with poor disposal practices, resulted in open drainage channels being blocked, increasing the risk of disease.[35]
Conflicts can result in large-scale displacement of communities. People living under these conditions are often provided with minimal waste management facilities. Burn pits are widely used to dispose of mixed wastes, including plastics. Air pollution can lead to respiratory and other illnesses. For example, Sahrawi refugees have been living in five camps near Tindouf, Algeria for nearly 45 years. As waste collection services are underfunded and there is no recycling facility, plastics have flooded the camps' streets and surroundings. In contrast, the Azraq camp in Jordan for refugees from Syria has waste management services; of 20.7 tonnes of waste produced per day, 15% is recyclable.[35]
On women and vulnerable populations
Because of the social, political and cultural context of many places throughout the world, women are often disproportionately affected by disaster.[36] In the 2004 Indian Ocean tsunami, more women died than men, partly due to the fact that fewer women knew how to swim.[36] During and after a natural disaster, women are at increased risk of being affected by gender based violence and are increasingly vulnerable to sexual violence. Disrupted police enforcement, lax regulations, and displacement all contribute to increased risk of gender based violence and sexual assault.[36]
In addition to LGBT people and immigrants, women are also disproportionately victimized by religion-based scapegoating for natural disasters: fanatical religious leaders or adherents may claim that a god or gods are angry with women's independent, freethinking behavior, such as dressing 'immodestly', having sex or abortions.[37] For example, Hindutva party Hindu Makkal Katchi and others blamed women's struggle for the right to enter the Sabarimala temple for the August 2018 Kerala floods, purportedly inflicted by the angry god Ayyappan.[38][39]
During and after natural disasters, routine health behaviors become interrupted. In addition, health care systems may have broken down as a result of the disaster, further reducing access to contraceptives.[36] Unprotected intercourse during this time can lead to increased rates of childbirth, unintended pregnancies and sexually transmitted infections (STIs).[36][40]
Pregnant women are one of the groups disproportionately affected by natural disasters. Inadequate nutrition, little access to clean water, lack of health-care services and psychological stress in the aftermath of the disaster can lead to a significant increase in maternal morbidity and mortality. Furthermore, shortage of healthcare resources during this time can convert even routine obstetric complications into emergencies.[41]
Once a vulnerable population has experienced a disaster, the community can take many years to repair and that repair period can lead to further vulnerability. The disastrous consequences of natural disaster also affect the mental health of affected communities, often leading to post-traumatic symptoms. These increased emotional experiences can be supported through collective processing, leading to resilience and increased community engagement.[42]
On governments and voting processes
Disasters stress government capacity, as the government tries to conduct routine as well as emergency operations.[43] Some theorists of voting behavior propose that citizens update information about government effectiveness based on their response to disasters, which affects their vote choice in the next election.[44] Indeed, some evidence, based on data from the United States, reveals that incumbent parties can lose votes if citizens perceives them as responsible for a poor disaster response[45] or gain votes based on perceptions of well-executed relief work.[46] The latter study also finds, however, that voters do not reward incumbent parties for disaster preparedness, which may end up affecting government incentives to invest in such preparedness.[46]
Disasters caused by geological hazards
Landslides
Landslides, also known as landslips, or rockslides,[47][48][49] are several forms of mass wasting that may include a wide range of ground movements, such as rockfalls, mudflows, shallow or deep-seated slope failures and debris flows.[50] Landslides occur in a variety of environments, characterized by either steep or gentle slope gradients, from mountain ranges to coastal cliffs or even underwater,[51] in which case they are called submarine landslides.
Gravity is the primary driving force for a landslide to occur, but there are other factors affecting slope stability that produce specific conditions that make a slope prone to failure. In many cases, the landslide is triggered by a specific event (such as a heavy rainfall, an earthquake, a slope cut to build a road, and many others), although this is not always identifiable.
Landslides are frequently made worse by human development (such as urban sprawl) and resource exploitation (such as mining and deforestation). Land degradation frequently leads to less stabilization of soil by vegetation.[52] Additionally, global warming caused by climate change and other human impact on the environment, can increase the frequency of natural events (such as extreme weather) which trigger landslides.[53] Landslide mitigation describes the policy and practices for reducing the risk of human impacts of landslides, reducing the risk of natural disaster.Avalanches
An avalanche is a rapid flow of snow down a slope, such as a hill or mountain.[54] Avalanches can be triggered spontaneously, by factors such as increased precipitation or snowpack weakening, or by external means such as humans, other animals, and earthquakes. Primarily composed of flowing snow and air, large avalanches have the capability to capture and move ice, rocks, and trees.
Avalanches occur in two general forms, or combinations thereof:[55] slab avalanches made of tightly packed snow, triggered by a collapse of an underlying weak snow layer, and loose snow avalanches made of looser snow. After being set off, avalanches usually accelerate rapidly and grow in mass and volume as they capture more snow. If an avalanche moves fast enough, some of the snow may mix with the air, forming a powder snow avalanche.Earthquakes
An earthquake is the result of a sudden release of energy in the Earth's crust that creates seismic waves. At the Earth's surface, earthquakes manifest themselves by vibration, shaking, and sometimes displacement of the ground. Earthquakes are caused by slippage within geological faults. The underground point of origin of the earthquake is called the seismic focus. The point directly above the focus on the surface is called the epicenter. Earthquakes by themselves rarely kill people or wildlife – it is usually the secondary events that they trigger, such as building collapse, fires, tsunamis and volcanic eruptions, that cause death. Many of these can possibly be avoided by better construction, safety systems, early warning and planning.[citation needed]
Sinkholes
A sinkhole is a depression or hole in the ground caused by some form of collapse of the surface layer. When natural erosion, human mining or underground excavation makes the ground too weak to support the structures built on it, the ground can collapse and produce a sinkhole.
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.[56] 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. Coastal erosion is one of the most significant coastal hazards. It forms a threat to infrastructure, capital assets and property.
Volcanic eruptions
Volcanoes can cause widespread destruction and consequent disaster in several ways. One hazard is the volcanic eruption itself, with the force of the explosion and falling rocks able to cause harm. Lava may also be released during the eruption of a volcano; as it leaves the volcano, it can destroy buildings, plants and animals due to its extreme heat. In addition, volcanic ash may form a cloud (generally after cooling) and settle thickly in nearby locations. When mixed with water, this forms a concrete-like material. In sufficient quantities, ash may cause roofs to collapse under its weight. Even small quantities will harm humans if inhaled – it has the consistency of ground glass and therefore causes laceration to the throat and lungs. Volcanic ash can also cause abrasion damage to moving machinery such as engines. The main killer of humans in the immediate surroundings of a volcanic eruption is pyroclastic flows, consisting of a cloud of hot ash which builds up in the air above the volcano and rushes down the slopes when the eruption no longer supports the lifting of the gases. It is believed that Pompeii was destroyed by a pyroclastic flow. A lahar is a volcanic mudflow or landslide. The 1953 Tangiwai disaster was caused by a lahar, as was the 1985 Armero tragedy in which the town of Armero was buried and an estimated 23,000 people were killed.[citation needed]
Volcanoes rated at 8 (the highest level) on the volcanic explosivity index are known as supervolcanoes. According to the Toba catastrophe theory, 75,000 to 80,000 years ago, a supervolcanic eruption at what is now Lake Toba in Sumatra reduced the human population to 10,000 or even 1,000 breeding pairs, creating a bottleneck in human evolution,[57] and killed three-quarters of all plant life in the northern hemisphere. However, there is considerable debate regarding the veracity of this theory. The main danger from a supervolcano is the immense cloud of ash, which has a disastrous global effect on climate and temperature for many years.
Tsunami
A tsunami (plural: tsunamis or tsunami; from Japanese: 津波, lit. "harbour wave"; English pronunciation: /tsuːˈnɑːmi/), also known as a seismic sea wave or tidal wave, is a series of waves in a water body caused by the displacement of a large volume of water, generally in an ocean or a large lake. Tsunamis can be caused by undersea earthquakes such as the 2004 Boxing Day tsunami, or by landslides such as the one in 1958 at Lituya Bay, Alaska, or by volcanic eruptions such as the ancient eruption of Santorini. On March 11, 2011, a tsunami occurred near Fukushima, Japan and spread through the Pacific Ocean.
Disasters caused by extreme weather hazards
Some of the 18 natural hazards included in the National Risk Index of FEMA[1] now have a higher probability of occurring, and at higher intensity, due to the effects of climate change. This applies to heat waves, droughts, wildfire and coastal flooding.[58]: 9
Hot and dry conditions
Heat waves
A heat wave is a period of unusually and excessively hot weather. Heat waves are rare and require specific combinations of weather events to take place, and may include temperature inversions, katabatic winds, or other phenomena. The worst heat wave in recent history was the European Heat Wave of 2003. The 2010 Northern Hemisphere summer resulted in severe heat waves which killed over 2,000 people. The heat caused hundreds of wildfires which led to widespread air pollution and burned thousands of square kilometers of forest.
Droughts
Well-known historical droughts include the 1997–2009 Millennium Drought in Australia which led to a water supply crisis across much of the country. As a result, many desalination plants were built for the first time (see list). In 2011, the State of Texas lived under a drought emergency declaration for the entire calendar year and suffered severe economic losses.[65] The drought caused the Bastrop fires.
Duststorms
Firestorms
Wildfires
Wildfires are large fires which often start in wildland areas. Common causes include lightning and drought but wildfires may also be started by human negligence or arson. They can spread to populated areas and thus be a threat to humans and property, as well as wildlife. One example for a notable wildfire is the 1871 Peshtigo Fire in the United States, which killed at least 1700 people.[70][71] Another one is the 2009 Victorian bushfires in Australia (collectively known as "Black Saturday bushfires").[72][73][74] In that year, a summer heat wave in Victoria, Australia, created conditions which fueled the massive bushfires in 2009. Melbourne experienced three days in a row of temperatures exceeding 40 °C (104 °F), with some regional areas sweltering through much higher temperatures.
Storms and heavy rain
Floods
A flood is an overflow of water that 'submerges' land.[75] The EU Floods Directive defines a flood as a temporary covering of land that is usually dry with water.[76] In the sense of 'flowing water', the word may also be applied to the inflow of the tides. Flooding may result from the volume of a body of water, such as a river or lake, becoming higher than usual, causing some of the water to escape its usual boundaries.[77] While the size of a lake or other body of water will vary with seasonal changes in precipitation and snow melt, a flood is not considered significant unless the water covers land used by humans, such as a village, city or other inhabited area, roads or expanses of farmland.
Thunderstorms
Severe storms, dust clouds and volcanic eruptions can generate lightning. Apart from the damage typically associated with storms, such as winds, hail and flooding, the lightning itself can damage buildings, ignite fires and kill by direct contact. Most deaths from lightning occur in the poorer countries of the Americas and Asia, where lightning is common and adobe mud brick housing provides little protection.[78]
Tropical cyclone
Typhoon, cyclone, cyclonic storm and hurricane are different names for the same phenomenon: a tropical storm that forms over an ocean. It is caused by evaporated water that comes off of the ocean and becomes a storm. It is characterized by strong winds, heavy rainfall and thunderstorms. The determining factor on which term is used is based on where the storm originates. In the Atlantic and Northeast Pacific, the term "hurricane" is used; in the Northwest Pacific, it is referred to as a "typhoon"; a "cyclone" occurs in the South Pacific and Indian Ocean.
The deadliest hurricane ever was the 1970 Bhola cyclone; the deadliest Atlantic hurricane was the Great Hurricane of 1780, which devastated Martinique, St. Eustatius and Barbados. Another notable hurricane is Hurricane Katrina, which devastated the Gulf Coast of the United States in 2005. Hurricanes may become more intense and produce more heavy rainfall as a consequence of human-induced climate change.
Tornadoes
A tornado is a violent and dangerous rotating column of air that is in contact with both the surface of the Earth and a cumulonimbus cloud, or, in rare cases, the base of a cumulus cloud. It is also referred to as a twister or a cyclone,[79] although the word cyclone is used in meteorology in a wider sense to refer to any closed low pressure circulation. Tornadoes come in many shapes and sizes but typically take the form of a visible condensation funnel, the narrow end of which touches the Earth and is often encircled by a cloud of debris and dust. 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.
Most tornadoes have wind speeds of less than 180 km/h (110 mph), are approximately 75 m (250 ft) across, and travel a few kilometers before dissipating. The most extreme tornadoes can attain wind speeds of more than 480 km/h (300 mph), attain a width exceeding 3 km (2 mi) across, and stay on the ground for perhaps more than 100 km (60 mi).[80][81][82]
Cold-weather events
Blizzards
Blizzards are severe winter storms characterized by heavy snow and strong winds. When high winds stir up snow that has already fallen, it is known as a ground blizzard. Blizzards can impact local economic activities, especially in regions where snowfall is rare. The Great Blizzard of 1888 affected the United States, when many tons of wheat crops were destroyed. In Asia, the 1972 Iran blizzard and the 2008 Afghanistan blizzard, were the deadliest blizzards in history; in the former, an area the size of Wisconsin was entirely buried in snow. The 1993 Superstorm originated in the Gulf of Mexico and traveled north, causing damage in 26 American states as well as in Canada and leading to more than 300 deaths.[83]
Hailstorms
Hail is precipitation in the form of ice that does not melt before it hits the ground. Hailstorms are produced by thunderstorms. Hailstones usually measure between 5 and 150 mm (1⁄4 and 6 in) in diameter. These can damage the location in which they fall. Hailstorms can be especially devastating to farm fields, ruining crops and damaging equipment. A particularly damaging hailstorm hit Munich, Germany, on July 12, 1984, causing about $2 billion in insurance claims.
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.[84][85]
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.[85] A detailed review of such interactions across 21 natural hazards identified 90 possible interactions, of varying likelihood and spatial importance.[85] There may also be interactions between these natural hazards and anthropic processes.[86] For example, groundwater abstraction may trigger groundwater-related subsidence.[87]
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. To be of most use for risk reduction, hazard analysis should be extended to risk assessment wherein the vulnerability of the built environment to each of the hazards is taken into account. This step is well developed for seismic risk, where the possible effect of future earthquakes on structures and infrastructure is assessed, as well as for risk from extreme wind and to a lesser extent flood risk. For other types of natural hazard the calculation of risk is more challenging, principally because of the lack of functions linking the intensity of a hazard and the probability of different levels of damage (fragility curves).[88]
Responses
Disaster management is a main function of civil protection (or civil defense) authorities. It should address all four of the phases of disasters: mitigation and prevention, disaster response, recovery and preparedness.
Mitigation and prevention
Disaster risk reduction
It is possible to include DRR in almost all areas of development and humanitarian work. People from local communities, agencies or federal governments can all propose DRR strategies. DRR policies aim to "define goals and objectives across different timescales and with concrete targets, indicators and time frames."[90]: 16
There are some challenges for successful DRR. Local communities and organisations should be actively involved in the planning process. The role and funding of local government needs to be considered. Also, DRR strategies should be mindful of gender aspects. For example, studies have shown that women and girls are disproportionately impacted by disasters.[92] A gender-sensitive approach would identify how disasters affect men, women, boys and girls differently. It would shape policy that addresses people's specific vulnerabilities and needs.[93]
The Sendai Framework for Disaster Risk Reduction is an international initiative that has helped 123 countries adopt both federal and local DRR strategies (as of 2022).[94] The International Day for Disaster Risk Reduction, on October 13 every year, has helped increase the visibility of DRR. It aims to promote a culture of prevention.
Spending on DRR is difficult to quantify for many countries. Global estimates of costs are therefore not available. However an indication of the costs for developing countries is given by the Us$215 billion to $387 billion per year (up to 2030) estimated costs for climate adaptation. DRR and climate adaptation share similar goals and strategies. They both require increased finance to address rising climate risks.[95]: 49
DRR activities are part of the national strategies and budget planning in most countries. However the priorities for DRR are often lower than for other development priorities. This has an impact on public sector budget allocations. For many countries, less than 1% of the national budget is available for DRR activities.[95]: 51 The Global Facility for Disaster Reduction and Recovery (GFDRR) is a multi-donor partnership to support developing countries in managing the interconnected risks of natural hazards and climate hazards. Between 2007 and 2022, GFDRR provided $890 million in technical assistance, analytics, and capacity building support to more than 157 countries.[95]: 54Response
Recovery
The recovery phase starts after the immediate threat to human life has subsided. The immediate goal of the recovery phase is to bring the affected area back to normalcy as quickly as possible. During reconstruction, it is recommended to consider the location or construction material of the property.[97]
The most extreme home confinement scenarios include war, famine, and severe epidemics and may last a year or more. Then recovery will take place inside the home. Planners for these events usually buy bulk foods and appropriate storage and preparation equipment, and eat the food as part of normal life. A simple balanced diet can be constructed from vitamin pills, whole-grain wheat, beans, dried milk, corn, and cooking oil.[98] Vegetables, fruits, spices and meats, both prepared and fresh-gardened, are included when possible.[99]Preparedness
Society and culture
International law
The 1951 Refugee Convention[102] and its 1967 Protocol are the cornerstone documents for refugee protection and population displacement.[103] The 1998 UN Guiding Principles on Internal Displacement and 2009 Kampala Convention protect people displaced due to natural disasters.[104][105]
See also
- Act of God – Natural disaster outside human control
- Environmental disaster – Disaster to the natural environment due to human activity
- Environmental emergency – Type of emergency that causes severe environmental damage
- Global catastrophic risk – Hypothetical global-scale disaster risk
- List of environmental disasters – Cataloging of environmental disasters
- World Conference on Disaster Risk Reduction
- Wild animal suffering – Suffering of wild animals due to natural processes
References
- ^ a b c d e "Natural Hazards | National Risk Index". hazards.fema.gov. FEMA. Retrieved 2022-06-08.
- ^ G. Bankoff; G. Frerks; D. Hilhorst, eds. (2003). Mapping Vulnerability: Disasters, Development and People. Routledge. ISBN 1-85383-964-7.[page needed]
- ^ a b c "Why natural disasters aren't all that natural". openDemocracy. 2020-11-26. Archived from the original on 2020-11-29. Retrieved 2020-12-29.
- ^ a b Kevin Blanchard #NoNaturalDisasters – Changing the discourse of natural disaster reporting (16 November 2018)
- ^ Cannon, Terry. (1994). Vulnerability Analysis and The Explanation Of 'Natural' Disasters. Disasters, Development and Environment.
- ^ a b c d "Why natural disasters aren't all that natural". preventionweb.net. 14 September 2017. Retrieved 2022-06-06.
- ^ Gould, Kevin A.; Garcia, M. Magdalena; Remes, Jacob A.C. (1 December 2016). "Beyond 'natural-disasters-are-not-natural': the work of state and nature after the 2010 earthquake in Chile". Journal of Political Ecology. 23 (1): 93. doi:10.2458/v23i1.20181.
- ^ Smith, Neil (2006-06-11). "There's No Such Thing as a Natural Disaster". Items. Archived from the original on 2021-01-22. Retrieved 2020-12-29.
- ^ Coburn, Andrew W.; Spence, Robin JS; Pomonis, Antonios (1992). "Factors determining human casualty levels in earthquakes: mortality prediction in building collapse" (PDF). Proceedings of the tenth world conference on earthquake engineering. Vol. 10. pp. 5989–5994. ISBN 978-90-5410-060-7. Archived (PDF) from the original on 2020-11-12. Retrieved 2020-12-29.
- ^ "Wildfire Causes and Evaluations". National Park Service. 2018-11-27. Archived from the original on 2021-01-01. Retrieved 2020-12-29.
- ^ DeWeerdt, Sarah (2020-09-15). "Humans cause 96% of wildfires that threaten homes in the U.S." Anthropocene. Archived from the original on 2020-12-10. Retrieved 2020-12-29.
- ^ Smil, Vaclav (18 December 1999). "China's great famine: 40 years later". The BMJ. 319 (7225): 1619–1621. doi:10.1136/bmj.319.7225.1619. PMC 1127087. PMID 10600969.
- ^ McGuire, Bill (2012). Waking the Giant: How a changing climate triggers earthquakes, tsunamis, and volcanoes. Oxford University Press. ISBN 978-0-19-959226-5. Archived from the original on 2022-04-18. Retrieved 2020-12-29.[page needed]
- ^ a b Zorn, Matija (2018), Pelc, Stanko; Koderman, Miha (eds.), "Natural Disasters and Less Developed Countries", Nature, Tourism and Ethnicity as Drivers of (De)Marginalization: Insights to Marginality from Perspective of Sustainability and Development, Perspectives on Geographical Marginality, vol. 3, Cham: Springer International Publishing, pp. 59–78, doi:10.1007/978-3-319-59002-8_4, ISBN 978-3-319-59002-8, retrieved 2022-06-08
- ^ D. Alexander (2002). Principles of Emergency planning and Management. Harpended: Terra publishing. ISBN 1-903544-10-6.
- ^ B. Wisner; P. Blaikie; T. Cannon & I. Davis (2004). At Risk – Natural hazards, people's vulnerability and disasters. Wiltshire: Routledge. ISBN 0-415-25216-4.[page needed]
- ^ "What is a disaster?". ifrc.org – IFRC. Retrieved 2023-05-24.
- ^ 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.
- ^ Burton, I.; Kates, R.W.; White, G.F. (1993). The environment as hazard. Guilford Press. ISBN 978-0898621594.
- ^ Gill, Joel C.; Malamud, Bruce D. (2017-03-01). "Anthropogenic processes, natural hazards, and interactions in a multi-hazard framework". Earth-Science Reviews. 166: 246–269. Bibcode:2017ESRv..166..246G. doi:10.1016/j.earscirev.2017.01.002.
- ^ "Time to say goodbye to "natural" disasters". preventionweb.net. 16 July 2020. Retrieved 2022-06-06.
- ^ "Global health estimates: Leading causes of DALYs". Archived from the original on 2021-01-06.
- ^ "2019 WHO DALY report data". Archived from the original on 2022-03-31.
- ^ Asia-Pacific World's Most Disaster-Prone Region
- ^ "Asia-Pacific: the world's most disaster-prone region – World". ReliefWeb. 10 October 2017. Archived from the original on 2018-10-04. Retrieved 2018-10-04.
- ^ "Weather-related disasters are increasing". The Economist. 29 Aug 2017. Archived from the original on 30 August 2017. Retrieved 30 August 2017.
- ^ Natural Catastrophes in 2012 Dominated by U.S. Weather Extremes Archived 2013-07-02 at the Wayback Machine Worldwatch Institute May 29, 2013
- ^ "Natural hazards and disaster risk reduction". public.wmo.int. 2015-12-01. Archived from the original on December 18, 2023. Retrieved 2023-05-18.
- ^ a b Rosling, H.; Rosling, O.; Rönnlund, A.R. (2018). Factfulness: Ten Reasons We're Wrong About the World – and Why Things Are Better Than You Think. Flatiron Books. pp. 107–109, 299–325. ISBN 978-1-250-10781-7.
- ^ World Meteorological Society (WMO) (2021). WMO Atlas of Mortality and Economic Losses from Weather, Climate and Water Extremes (1970–2019). https://library.wmo.int/idurl/4/57564
- ^ UNDRR (2023). The Report of the Midterm Review of the Implementation of the Sendai Framework for Disaster Risk Reduction 2015–2030. UNDRR: Geneva, Switzerland.
- ^ Bouwer, Laurens M. (2019), Mechler, Reinhard; Bouwer, Laurens M.; Schinko, Thomas; Surminski, Swenja (eds.), "Observed and Projected Impacts from Extreme Weather Events: Implications for Loss and Damage", Loss and Damage from Climate Change: Concepts, Methods and Policy Options, Climate Risk Management, Policy and Governance, Cham: Springer International Publishing, pp. 63–82, doi:10.1007/978-3-319-72026-5_3, ISBN 978-3-319-72026-5
- ^ Seneviratne, S.I., X. Zhang, M. Adnan, W. Badi, C. Dereczynski, A. Di Luca, S. Ghosh, I. Iskandar, J. Kossin, S. Lewis, F. Otto, I. Pinto, M. Satoh, S.M. Vicente-Serrano, M. Wehner, and B. Zhou, 2021: Weather and Climate Extreme Events in a Changing Climate. In Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [Masson-Delmotte, V., P. Zhai, A. Pirani, S.L. Connors, C. Péan, S. Berger, N. Caud, Y. Chen, L. Goldfarb, M.I. Gomis, M. Huang, K. Leitzell, E. Lonnoy, J.B.R. Matthews, T.K. Maycock, T. Waterfield, O. Yelekçi, R. Yu, and B. Zhou (eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, pp. 1513–1766, doi:10.1017/9781009157896.013
- ^ Newman, R., Noy, I. The global costs of extreme weather that are attributable to climate change. Nat Commun 14, 6103 (2023). doi:10.1038/s41467-023-41888-1
- ^ a b c d "Drowning in Plastics – Marine Litter and Plastic Waste Vital Graphics". UNEP – UN Environment Programme. 2021-10-21. Archived from the original on 2022-03-21. Retrieved 2022-03-23. This article incorporates text available under the CC BY 4.0 license.
- ^ a b c d e Nour, Nawal N (2011). "Maternal Health Considerations During Disaster Relief". Reviews in Obstetrics and Gynecology. 4 (1): 22–27. PMC 3100103. PMID 21629495.
- ^ Lord, Leighann (1 October 2019). "The easiest way to respond to a natural disaster? Blame God or global warming". The Guardian. Archived from the original on 28 September 2019. Retrieved 28 September 2019.
- ^ "Kerala flood blamed on women's entry into Sabarimala by Hindu Makkal Katchi". The New Indian Express. 15 August 2018. Archived from the original on 28 September 2019. Retrieved 28 September 2019.
- ^ Asmita Nandy (20 August 2018). "Hate Mongers on Twitter Blamed Women, Beef, Muslims, Christians and Communism for Causing the Kerala Floods". The Quint. Archived from the original on 28 September 2019. Retrieved 28 September 2019.
- ^ Harville, Emily; Xiong, Xu; Buekens, Pierre (November 2010). "Disasters and Perinatal Health: A Systematic Review". Obstetrical & Gynecological Survey. 65 (11): 713–728. doi:10.1097/OGX.0b013e31820eddbe. PMC 3472448. PMID 21375788.
- ^ Meyers, Talya (23 December 2019). "Pregnant women are particularly vulnerable to disasters". Direct Relief. Archived from the original on 1 October 2020. Retrieved 21 September 2020.
- ^ Kieft, J.; Bendell, J (2021). "The responsibility of communicating difficult truths about climate influenced societal disruption and collapse: an introduction to psychological research". Institute for Leadership and Sustainability (IFLAS) Occasional Papers. 7: 1–39. Archived from the original on 2021-03-10. Retrieved 2021-04-03.
- ^ Clarke, Daniel J.; Dercon, Stefan (2016). Dull Disasters? How planning ahead will make a difference. Oxford University Press. hdl:20.500.12657/32368. ISBN 978-0-19-878557-6. Archived from the original on 2021-10-04. Retrieved 2021-10-04.
- ^ Ashworth, Scott; Bueno de Mesquita, Ethan; Friedenberg, Amanda (May 2017). "Accountability and Information in Elections". American Economic Journal: Microeconomics. 9 (2): 95–138. doi:10.1257/mic.20150349. ISSN 1945-7669. S2CID 17843113. Archived from the original on 2021-10-04. Retrieved 2022-04-18.
- ^ Gasper, John T.; Reeves, Andrew (April 2011). "Make It Rain? Retrospection and the Attentive Electorate in the Context of Natural Disasters". American Journal of Political Science. 55 (2): 340–355. doi:10.1111/j.1540-5907.2010.00503.x. JSTOR 23025055.
- ^ a b Healy, Andrew; Malhotra, Neil (August 2009). "Myopic Voters and Natural Disaster Policy". American Political Science Review. 103 (3): 387–406. doi:10.1017/S0003055409990104. ISSN 1537-5943. S2CID 32422707. Archived from the original on 2021-10-04. Retrieved 2021-10-04.
- ^ "Landslide synonyms". thesaurus.com. Roget's 21st Century Thesaurus. 2013. Archived from the original on 24 September 2020. Retrieved 16 March 2018.
- ^ McGraw-Hill Encyclopedia of Science & Technology, 11th Edition, ISBN 9780071778343, 2012
- ^ "USGS factsheet, Landslide Types and Processes, 2004". Archived from the original on 2020-10-04. Retrieved 2020-08-28.
- ^ Hungr, Oldrich; Leroueil, Serge; Picarelli, Luciano (2014-04-01). "The Varnes classification of landslide types, an update". Landslides. 11 (2): 167–194. Bibcode:2014Lands..11..167H. doi:10.1007/s10346-013-0436-y. ISSN 1612-5118. S2CID 38328696.
- ^ Haflidason, Haflidi; Sejrup, Hans Petter; Nygård, Atle; Mienert, Jurgen; Bryn, Petter; Lien, Reidar; Forsberg, Carl Fredrik; Berg, Kjell; Masson, Doug (2004-12-15). "The Storegga Slide: architecture, geometry and slide development". Marine Geology. COSTA - Continental Slope Stability. 213 (1): 201–234. Bibcode:2004MGeol.213..201H. doi:10.1016/j.margeo.2004.10.007. ISSN 0025-3227.
- ^ Giacomo Pepe; Andrea Mandarino; Emanuele Raso; Patrizio Scarpellini; Pierluigi Brandolini; Andrea Cevasco (2019). "Investigation on Farmland Abandonment of Terraced Slopes Using Multitemporal Data Sources Comparison and Its Implication on Hydro-Geomorphological Processes". Water. 8 (11). MDPI: 1552. doi:10.3390/w11081552. hdl:11567/968956. ISSN 2073-4441. OCLC 8206777258., at the introductory section.
- ^ Merzdorf, Jessica. "Climate Change Could Trigger More Landslides in High Mountain Asia". Climate Change: Vital Signs of the Planet. NASA's Goddard Space Flight Center. Archived from the original on 2023-02-04. Retrieved 2023-02-04.
- ^ "Snow Avalanches | National Snow and Ice Data Center". nsidc.org. Retrieved 23 March 2021.
- ^ Louchet, Francois (2021). Snow Avalanches. Oxford University Press. pp. 1–2. doi:10.1093/oso/9780198866930.001.0001. ISBN 978-0-19-886693-0.
- ^ Komar, Paul D. (1983). CRC handbook of coastal processes and erosion. CRC Press. ISBN 9780849302251.
- ^ Gibbons, Ann (19 January 2010). "Human Ancestors Were an Endangered Species". Science. AAAS. Archived from the original on 8 December 2020. Retrieved 29 December 2020.
- ^ IPCC, 2022: Summary for Policymakers [H.-O. Pörtner, D.C. Roberts, E.S. Poloczanska, K. Mintenbeck, M. Tignor, A. Alegría, M. Craig, S. Langsdorf, S. Löschke, V. Möller, A. Okem (eds.)]. In: Climate Change 2022: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [H.-O. Pörtner, D.C. Roberts, M. Tignor, E.S. Poloczanska, K. Mintenbeck, A. Alegría, M. Craig, S. Langsdorf, S. Löschke, V. Möller, A. Okem, B. Rama (eds.)]. Cambridge University Press: Cambridge and New York, pp. 3–33, doi:10.1017/9781009325844.001.
- ^ Douville, H., K. Raghavan, J. Renwick, R.P. Allan, P.A. Arias, M. Barlow, R. Cerezo-Mota, A. Cherchi, T.Y. Gan, J. Gergis, D. Jiang, A. Khan, W. Pokam Mba, D. Rosenfeld, J. Tierney, and O. Zolina, 2021: Water Cycle Changes Archived 2022-09-29 at the Wayback Machine. In Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [Masson-Delmotte, V., P. Zhai, A. Pirani, S.L. Connors, C. Péan, S. Berger, N. Caud, Y. Chen, L. Goldfarb, M.I. Gomis, M. Huang, K. Leitzell, E. Lonnoy, J.B.R. Matthews, T.K. Maycock, T. Waterfield, O. Yelekçi, R. Yu, and B. Zhou (eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, pp. 1055–1210, doi:10.1017/9781009157896.010.
- ^ Living With Drought Archived 2007-02-18 at the Wayback Machine
- ^ Australian Drought and Climate Change Archived 2018-07-26 at the Wayback Machine. Retrieved June 7th 2007.
- ^ a b Brando, Paulo M.; Paolucci, Lucas; Ummenhofer, Caroline C.; Ordway, Elsa M.; Hartmann, Henrik; Cattau, Megan E.; Rattis, Ludmila; Medjibe, Vincent; Coe, Michael T.; Balch, Jennifer (30 May 2019). "Droughts, Wildfires, and Forest Carbon Cycling: A Pantropical Synthesis". Annual Review of Earth and Planetary Sciences. 47 (1): 555–581. Bibcode:2019AREPS..47..555B. doi:10.1146/annurev-earth-082517-010235. ISSN 0084-6597.
- ^ Merzdorf, Jessica (July 9, 2019). "A Drier Future Sets the Stage for More Wildfires". Climate Change: Vital Signs of the Planet. NASA.
- ^ Hartmann, Henrik; Bastos, Ana; Das, Adrian J.; Esquivel-Muelbert, Adriane; Hammond, William M.; Martínez-Vilalta, Jordi; McDowell, Nate G.; Powers, Jennifer S.; Pugh, Thomas A.M.; Ruthrof, Katinka X.; Allen, Craig D. (20 May 2022). "Climate Change Risks to Global Forest Health: Emergence of Unexpected Events of Elevated Tree Mortality Worldwide". Annual Review of Plant Biology. 73 (1): 673–702. Bibcode:2022ARPB...73..673H. doi:10.1146/annurev-arplant-102820-012804. ISSN 1543-5008. PMID 35231182.
- ^ "Billion-Dollar Weather and Climate Disasters: Events | National Centers for Environmental Information (NCEI)". ncdc.noaa.gov. Archived from the original on 2014-04-01. Retrieved 2015-03-20.
- ^ "Airborne Dust: A Hazard to Human Health, Environment and Society". WMO – Bulletin: Vol 64 (2) – 2015. 2022. Archived from the original on December 18, 2023.
- ^ Scawthorn, Charles, ed. (2005). Fire following earthquake. Technical Council on Lifeline Earthquake Engineering monograph. Reston, VA: American Society of Civil Engineers. p. 68. ISBN 978-0-7844-0739-4.
- ^ Alexander Mckee's Dresden 1945: The Devil's Tinderbox
- ^ "Problems of Fire in Nuclear Warfare (1961)" (PDF). Dtic.mil. Archived from the original (PDF) on 18 February 2013. Retrieved 11 May 2016.
A fire storm is characterized by strong to gale force winds blowing toward the fire everywhere around the fire perimeter and results from the rising column of hot gases over an intense, mass fire drawing in the cool air from the periphery. These winds blow the fire brands into the burning area and tend to cool the unignited fuel outside so that ignition by radiated heat is more difficult, thus limiting fire spread.
- ^ US Department of Commerce, NOAA. "The Peshtigo Fire". weather.gov. Archived from the original on 2021-04-25. Retrieved 2021-04-25.
- ^ "Massive fire burns in Wisconsin". History.com. Archived from the original on 2021-04-15. Retrieved 2021-04-25.
- ^ "2009 Victorian Bushfires | Victorian Government". vic.gov.au. Archived from the original on 2021-04-28. Retrieved 2021-04-25.
- ^ "Black Saturday bushfires". National Museum of Australia. 2023-02-07. Archived from the original on 2021-04-23. Retrieved 2021-04-25.
- ^ "Bushfire – Black Saturday, Victoria, 2009". Australian Disaster Resilience Knowledge Hub. Archived from the original on 2021-03-26. Retrieved 2021-04-25.
- ^ MSN Encarta Dictionary. Flood. Archived 2011-02-04 at the Wayback Machine Retrieved on 2006-12-28. 2009-10-31.
- ^ "Directive 2007/60/EC Chapter 1 Article2". Archived from the original on 2015-11-06. Retrieved 2011-11-14.
- ^ Glossary of Meteorology (June 2000). Flood. Archived 2007-08-24 at the Wayback Machine Retrieved on 2009-01-09.
- ^ "Deadly lightning strike in Mexico reveals plight of poorest citizens". The Guardian. 31 July 2015. Archived from the original on 6 January 2017. Retrieved 17 December 2016.
- ^ "Definition of CYCLONE". Merriam-Webster. Archived from the original on 2021-01-05. Retrieved 2020-12-29.
- ^ Wurman, Joshua (2008-08-29). "Doppler on Wheels". Center for Severe Weather Research. Archived from the original on 2007-02-05. Retrieved 2009-12-13.
- ^ "Hallam Nebraska Tornado". National Weather Service. National Oceanic and Atmospheric Administration. 2005-10-02. Archived from the original on 2014-08-20. Retrieved 2009-11-15.
- ^ Roger Edwards (2006-04-04). "The Online Tornado FAQ". National Weather Service. National Oceanic and Atmospheric Administration. Archived from the original on 2006-09-29. Retrieved 2006-09-08.
- ^ "Natural Hazards – Snow & Hail Storms". n-d-a.org. Archived from the original on 2017-02-03. Retrieved 2017-02-26.
- ^ Kappes, Melanie S.; Keiler, Margreth; von Elverfeldt, Kirsten; Glade, Thomas (2012). "Challenges of analyzing multi-hazard risk: a review" (PDF). Natural Hazards. 64 (2): 1925–1958. Bibcode:2012NatHa..64.1925K. doi:10.1007/s11069-012-0294-2. S2CID 108636952.
- ^ a b c Gill, Joel C.; Malamud, Bruce D. (December 2014). "Reviewing and visualizing the interactions of natural hazards". Reviews of Geophysics. 52 (4): 680–722. Bibcode:2014RvGeo..52..680G. doi:10.1002/2013RG000445.
- ^ "Reviewing and visualising relationships between anthropic processes and natural hazards within a multi-hazard framework" (PDF). Copernicus Office. Retrieved 10 September 2023.
- ^ "Land Subsidence". USGS Water Science School. Retrieved 11 May 2017.
- ^ Douglas, J. (2007-04-05). "Physical vulnerability modelling in natural hazard risk assessment" (PDF). Nat. Hazards Earth Syst. Sci. 7 (2): 283–288. Bibcode:2007NHESS...7..283D. doi:10.5194/nhess-7-283-2007. ISSN 1684-9981.
- ^ "Disaster risk reduction progress score". Our World in Data. Retrieved 2024-04-04.
- ^ a b UNGA (2016). Report of the open-ended intergovernmental expert working group on indicators and terminology for disaster risk reduction. United Nations General Assembly (UNGA).
- ^ McBean, Gordon; Rodgers, Caroline (2010). "Climate hazards and disasters: the need for capacity building". WIREs Climate Change. 1 (6): 871–884. Bibcode:2010WIRCC...1..871M. doi:10.1002/wcc.77. ISSN 1757-7780.
- ^ Neumayer, Eric; Plümper, Thomas (2007). "The Gendered Nature of Natural Disasters: The Impact of Catastrophic Events on the Gender Gap in Life Expectancy, 1981–2002". Annals of the Association of American Geographers. 97 (3): 551–566. doi:10.1111/j.1467-8306.2007.00563.x. ISSN 0004-5608.
- ^ Le Masson, Virginie; Langston, Lara (March 2014). "How Should the new international disaster risk framework address gender equality?" (PDF). Overseas Development Institute.
- ^ UNDRR (2023). The Report of the Midterm Review of the Implementation of the Sendai Framework for Disaster Risk Reduction 2015–2030. UNDRR: Geneva, Switzerland.
- ^ a b c UNDRR (2023). The Report of the Midterm Review of the Implementation of the Sendai Framework for Disaster Risk Reduction 2015–2030. UNDRR: Geneva, Switzerland.
- ^ UNGA (2016). Report of the open-ended intergovernmental expert working group on indicators and terminology relating to disaster risk reduction. United Nations General Assembly (UNGA).
- ^ Akcay, Cemil; Şolt, Ayşen; Korkmaz, Nail Mahir; Sayin, Baris (2020-11-01). "A proposal for the reconstruction of a historical masonry building constructed in Ottoman Era (Istanbul)". Journal of Building Engineering. 32: 101493. doi:10.1016/j.jobe.2020.101493. ISSN 2352-7102. S2CID 219501770.
- ^ "Federal Emergency Management Agency". FEMA.gov. Retrieved 2013-08-11.
- ^ Galhena, Dilrukshi Hashini; Freed, Russell; Maredia, Karim M. (2013-05-31). "Home gardens: a promising approach to enhance household food security and wellbeing". Agriculture & Food Security. 2 (1): 8. Bibcode:2013AgFS....2....8G. doi:10.1186/2048-7010-2-8. ISSN 2048-7010.
- ^ "Animals in Disasters". Training.fema.gov. Archived from the original on 2015-07-14. Retrieved 2015-03-06.
- ^ Baird, Malcolm E. (2010). "The "Phases" of Emergency Management" (PDF). Vanderbilt Center for Transportation Research. Retrieved 2015-03-08.
- ^ "The 1951 Refugee Convention". unhcr.org. UNHCR US. Retrieved 23 December 2024.
- ^ "Law and policy for protection and climate action". unhcr.org. UNHCR US. Retrieved 23 December 2024.
- ^ Terminski, Bogumil (2012). Towards recognition and protection of forced environmental migrants in the public international law: Refugee or IDPs umbrella? (Report). Archived from the original on 2022-04-18. Retrieved 2020-12-29.
- ^ "2009 Kampala Convention on IDPs" (PDF). United Nations High Commissioner for Refugees. May 2019. Archived (PDF) from the original on 11 December 2021. Retrieved 3 September 2021.
External links
- "World Bank's Hazard Risk Management". World Bank. Archived from the original on 2010-04-09. Retrieved 2007-06-30.
- "Billion-dollar Weather and Climate Disasters". NCDC.
- "Global Disaster Alert and Coordination System". European Commission and United Nations website initiative.
- "Natural Disaster and Extreme Weather. Searchable Information Center". Ebrary.