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Disaster impacts

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The document discusses disasters and their impacts. It defines a disaster as a sudden event that disrupts normal life and exceeds available resources. Disasters can be natural or man-made. The impacts of disasters include physical damage and injury as well as social and economic disruption. A disaster impact assessment evaluates development projects to identify risks and ways to reduce damages from potential disasters. It considers natural hazards like floods as well as technological hazards caused by infrastructure failures. The assessment aims to incorporate appropriate countermeasures into project design, construction, and management.

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Disaster Preparedness & Planning (PCC-CE-305/OEC-CE502) DISASTERS IMPACTS
What is a Disaster? A disaster is a result of natural or man-made causes that leads to sudden disruption of normal life, causing severe damage to life and property to an extent that available social and economic protection mechanisms are inadequate to cope. It is an undesirable occurrence resulting from forces that are largely outside human control. It strikes quickly with little or no warning and requires major efforts in providing statutory emergency service.
Classification of Disasters Disasters are classified as per origin, into natural and man-made disasters. As per severity, disasters are classified as minor or major (in impact). Natural disasters are sudden ecological disruptions or threats that exceed the adjustment capacity of the affected community and require external assistance. Natural disasters can be broadly classified into categories including geophysical such as earthquakes and volcanic eruptions; hydrological such as floods; meteorological such as hurricanes; climatological such as heat and cold waves and droughts; and biological such as epidemics. Man-made disasters can include hazardous material spills, fires, groundwater contamination, transportation accidents, structure failures, mining accidents, explosions and acts of terrorism.
Causes for Occurrence of Disaster Environmental degradation: Removal of trees and forest cover from a watershed area have caused, soil erosion, expansion of flood plain area in upper and middle course of rivers and groundwater depletion. Developmental process: Exploitation of land use, development of infrastructure, rapid urbanization and technological development have caused increasing pressure over the natural resources. Political issues: War, nuclear power aspirations, fight between countries to become super power and conquering land, sea and skies. These have resulted into wide range of disaster events such as Hiroshima nuclear explosion, Syrian civil war, growing militarisation of oceans and outer space. Industrialization: This has resulted into warming of earth and frequency of extreme weather events has also increased.
Causes for Occurrence of Disaster Environmental degradation: Removal of trees and forest cover from a watershed area have caused, soil erosion, expansion of flood plain area in upper and middle course of rivers and groundwater depletion. Developmental process: Exploitation of land use, development of infrastructure, rapid urbanization and technological development have caused increasing pressure over the natural resources. Political issues: War, nuclear power aspirations, fight between countries to become super power and conquering land, sea and skies. These have resulted into wide range of disaster events such as Hiroshima nuclear explosion, Syrian civil war, growing militarisation of oceans and outer space. Industrialization: This has resulted into warming of earth and frequency of extreme weather events has also increased.
Disaster impacts Disaster impacts individuals physically (through loss of life, injury, health, disability) as well as psychologically. ... Disaster can alter the natural environment, loss of habitat to many plants and animals and cause ecological stress that can result in biodiversity loss.
Disaster impacts
Disaster impacts
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Disaster impacts
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Disaster impacts
Disaster impacts
Disaster impacts
Physical and Socio-economic Impacts of Disasters Physical impact: death and injury of people and damage to built environment. Rapid Assessment: a quick assessment of a disaster site immediately after a disaster, to determine immediate needs of people in impacted area. Social impact disruption to essential goods and services Built environment includes things such as buildings, infrastructure, houses etc in an area.
Physical Impacts of Disasters The physical impacts of a disaster are the deaths and injuries, and the damage to property and the built environment. Infrastructure: Infrastructure includes the basic facilities, services and installations required for the functioning of a community or a society. Examples of critical infrastructure components include: 1. Transport system (land, sea and air) 2. Gas and oil storage and transportation
Physical Impacts of Disasters.Cont. 3. Communication 4. Electricity, Water supply system, and Public health 5. Security 6. Physical Security a. Looting of retail outlets and business houses b. Security of women and children c. Security of aid workers 7. Emotional security
Social Impacts of Disasters 1. Welfare Welfare falls into the socioeconomic and socio-political category. On the socioeconomic front this is represented by significant losses to Gross Domestic Product of the affected country or region. The local and national economy can experience low productivity, price slump, high unemployment and inflation. 2. Economic Impacts Economic costs of disasters vary across space and time. Evidence suggests a strong correlation between a countrys level of development and disaster risk. Example: In Bangladesh, floods during the Monsoon season destroyed crops and disrupted the non-farm economy of the country even after the flood waters receded. Another example is the great Hanshin earthquake in Japan in 1995 that caused $US 100 billion dollars damage which was equivalent to 2.1% of Japans GDP.
How Earthquakes Impact the Environment 1. Collapsing buildings 2. Property damage 3. Mud slides 4. Fires 5. Floods 6. Tsunamis 7. Loss of power
Disaster impacts
Disaster Impact Assessment (DIA) Disaster Impact Assessment (DIA) is a methodology to assess development projects from the viewpoint of disaster risk reduction by identifying improvement points of the projects. Based on the findings, revisions to the projects will be incorporated for reduction of disaster risks and mitigation of potential effects happened to and from the project activities.
Importance of Disaster Impact Assessment (DIA) Disasters can create considerable damages and losses related to development projects. Therefore, measures to be taken from the beginning of any development activities to avoid such impacts. With the aim of minimizing the damages and losses, actions such as analyses the causal factors of the disasters, anticipated damages and appropriate countermeasures are required at each stage of the projects. If the DIA system is incorporated into the processes in development projects, the extent of damages and losses could be avoided or minimized at higher degrees. Therefore, Disaster Impact Assessment (DIA) for evaluating project takes a high importance in its existence.
Classification of the Disasters for DIA According to the DIA considerations for any development sector, the foremost fact to be considered is to define and differentiate the types of disasters more clearly. Related to the development projects, there are three types of disaster situations. The first situation is a disaster caused by development actions to the surrounding area. Second is disasters happened to the development action itself. And the third is a disaster to the surrounding area caused by the development action which had been damaged by disasters. In case of second and third situations, the development actions are influenced by natural phenomena whereas, in the first situation, the cause is technical failure.
Disaster impacts
Classification of the Disasters for DIA.Cont. These two types of disasters can be defined as; Natural disasters and Technological disasters. In brief, natural disasters are originated due to natural happenings while technological disasters are created due to human interferences and/or technological failures. There are key differences of the natural and technological disasters. Natural hazards such as floods, tsunami, and cyclone are impossible to control. Technological hazards are possible to control with technological adjustments and well managed human interference.
Classification of the Disasters for DIA.Cont. As an example; if rainfall is extremely heavy, area near a culvert of a road may get inundated because of the size is not at sufficient capacity to drain off the volume of the upstream water accumulated. This situation was created by the heavy rainfall and it acts as the natural hazard. If the rainfall is at normal level but the area near the culvert gets inundated because of the too small size of the culvert or the disturbed condition of the culvert with mud. In such cases, inundation can be considered as a technological disaster. Technological disasters can be further divided into two types. Type 01 is identified as disasters associated with the design and construction such as setting of design conditions. These design conditions are considered at design stage. Type 02 is referred to as disasters associated with the management and maintenance of the projects.
Assessment Point of DIA Two assessment points are prepared to assess with respect to the above two types of disasters. Key considerations in DIA for the natural disasters is to check whether the countermeasures against foreseeable disasters are reflected in the management plan, usable condition and evacuation plan. Key considerations in DIA for the technological disasters is to check whether the design is satisfied at required levels of design standards. In those considerations, structural countermeasures are considered in the designs.
Assessment Point of 禽鴛粥..遺看稼岳.
Outcome of Disaster Impact Assessment (DIA) Consideration of conditions at design and construction stages is helpful to prepare appropriate countermeasures for disasters in advance. As examples, inclusion of structural countermeasures in the design can be highlighted. It helps to set design conditions at higher levels. Nonstructural countermeasures such as evacuation plans, early warning mechanisms can also be proposed accordingly. By those countermeasures, disaster damages on development projects can be mitigated.

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Disaster impacts

  • 2. What is a Disaster? A disaster is a result of natural or man-made causes that leads to sudden disruption of normal life, causing severe damage to life and property to an extent that available social and economic protection mechanisms are inadequate to cope. It is an undesirable occurrence resulting from forces that are largely outside human control. It strikes quickly with little or no warning and requires major efforts in providing statutory emergency service.
  • 3. Classification of Disasters Disasters are classified as per origin, into natural and man-made disasters. As per severity, disasters are classified as minor or major (in impact). Natural disasters are sudden ecological disruptions or threats that exceed the adjustment capacity of the affected community and require external assistance. Natural disasters can be broadly classified into categories including geophysical such as earthquakes and volcanic eruptions; hydrological such as floods; meteorological such as hurricanes; climatological such as heat and cold waves and droughts; and biological such as epidemics. Man-made disasters can include hazardous material spills, fires, groundwater contamination, transportation accidents, structure failures, mining accidents, explosions and acts of terrorism.
  • 4. Causes for Occurrence of Disaster Environmental degradation: Removal of trees and forest cover from a watershed area have caused, soil erosion, expansion of flood plain area in upper and middle course of rivers and groundwater depletion. Developmental process: Exploitation of land use, development of infrastructure, rapid urbanization and technological development have caused increasing pressure over the natural resources. Political issues: War, nuclear power aspirations, fight between countries to become super power and conquering land, sea and skies. These have resulted into wide range of disaster events such as Hiroshima nuclear explosion, Syrian civil war, growing militarisation of oceans and outer space. Industrialization: This has resulted into warming of earth and frequency of extreme weather events has also increased.
  • 5. Causes for Occurrence of Disaster Environmental degradation: Removal of trees and forest cover from a watershed area have caused, soil erosion, expansion of flood plain area in upper and middle course of rivers and groundwater depletion. Developmental process: Exploitation of land use, development of infrastructure, rapid urbanization and technological development have caused increasing pressure over the natural resources. Political issues: War, nuclear power aspirations, fight between countries to become super power and conquering land, sea and skies. These have resulted into wide range of disaster events such as Hiroshima nuclear explosion, Syrian civil war, growing militarisation of oceans and outer space. Industrialization: This has resulted into warming of earth and frequency of extreme weather events has also increased.
  • 6. Disaster impacts Disaster impacts individuals physically (through loss of life, injury, health, disability) as well as psychologically. ... Disaster can alter the natural environment, loss of habitat to many plants and animals and cause ecological stress that can result in biodiversity loss.
  • 17. Physical and Socio-economic Impacts of Disasters Physical impact: death and injury of people and damage to built environment. Rapid Assessment: a quick assessment of a disaster site immediately after a disaster, to determine immediate needs of people in impacted area. Social impact disruption to essential goods and services Built environment includes things such as buildings, infrastructure, houses etc in an area.
  • 18. Physical Impacts of Disasters The physical impacts of a disaster are the deaths and injuries, and the damage to property and the built environment. Infrastructure: Infrastructure includes the basic facilities, services and installations required for the functioning of a community or a society. Examples of critical infrastructure components include: 1. Transport system (land, sea and air) 2. Gas and oil storage and transportation
  • 19. Physical Impacts of Disasters.Cont. 3. Communication 4. Electricity, Water supply system, and Public health 5. Security 6. Physical Security a. Looting of retail outlets and business houses b. Security of women and children c. Security of aid workers 7. Emotional security
  • 20. Social Impacts of Disasters 1. Welfare Welfare falls into the socioeconomic and socio-political category. On the socioeconomic front this is represented by significant losses to Gross Domestic Product of the affected country or region. The local and national economy can experience low productivity, price slump, high unemployment and inflation. 2. Economic Impacts Economic costs of disasters vary across space and time. Evidence suggests a strong correlation between a countrys level of development and disaster risk. Example: In Bangladesh, floods during the Monsoon season destroyed crops and disrupted the non-farm economy of the country even after the flood waters receded. Another example is the great Hanshin earthquake in Japan in 1995 that caused $US 100 billion dollars damage which was equivalent to 2.1% of Japans GDP.
  • 21. How Earthquakes Impact the Environment 1. Collapsing buildings 2. Property damage 3. Mud slides 4. Fires 5. Floods 6. Tsunamis 7. Loss of power
  • 23. Disaster Impact Assessment (DIA) Disaster Impact Assessment (DIA) is a methodology to assess development projects from the viewpoint of disaster risk reduction by identifying improvement points of the projects. Based on the findings, revisions to the projects will be incorporated for reduction of disaster risks and mitigation of potential effects happened to and from the project activities.
  • 24. Importance of Disaster Impact Assessment (DIA) Disasters can create considerable damages and losses related to development projects. Therefore, measures to be taken from the beginning of any development activities to avoid such impacts. With the aim of minimizing the damages and losses, actions such as analyses the causal factors of the disasters, anticipated damages and appropriate countermeasures are required at each stage of the projects. If the DIA system is incorporated into the processes in development projects, the extent of damages and losses could be avoided or minimized at higher degrees. Therefore, Disaster Impact Assessment (DIA) for evaluating project takes a high importance in its existence.
  • 25. Classification of the Disasters for DIA According to the DIA considerations for any development sector, the foremost fact to be considered is to define and differentiate the types of disasters more clearly. Related to the development projects, there are three types of disaster situations. The first situation is a disaster caused by development actions to the surrounding area. Second is disasters happened to the development action itself. And the third is a disaster to the surrounding area caused by the development action which had been damaged by disasters. In case of second and third situations, the development actions are influenced by natural phenomena whereas, in the first situation, the cause is technical failure.
  • 27. Classification of the Disasters for DIA.Cont. These two types of disasters can be defined as; Natural disasters and Technological disasters. In brief, natural disasters are originated due to natural happenings while technological disasters are created due to human interferences and/or technological failures. There are key differences of the natural and technological disasters. Natural hazards such as floods, tsunami, and cyclone are impossible to control. Technological hazards are possible to control with technological adjustments and well managed human interference.
  • 28. Classification of the Disasters for DIA.Cont. As an example; if rainfall is extremely heavy, area near a culvert of a road may get inundated because of the size is not at sufficient capacity to drain off the volume of the upstream water accumulated. This situation was created by the heavy rainfall and it acts as the natural hazard. If the rainfall is at normal level but the area near the culvert gets inundated because of the too small size of the culvert or the disturbed condition of the culvert with mud. In such cases, inundation can be considered as a technological disaster. Technological disasters can be further divided into two types. Type 01 is identified as disasters associated with the design and construction such as setting of design conditions. These design conditions are considered at design stage. Type 02 is referred to as disasters associated with the management and maintenance of the projects.
  • 29. Assessment Point of DIA Two assessment points are prepared to assess with respect to the above two types of disasters. Key considerations in DIA for the natural disasters is to check whether the countermeasures against foreseeable disasters are reflected in the management plan, usable condition and evacuation plan. Key considerations in DIA for the technological disasters is to check whether the design is satisfied at required levels of design standards. In those considerations, structural countermeasures are considered in the designs.
  • 30. Assessment Point of 禽鴛粥..遺看稼岳.
  • 31. Outcome of Disaster Impact Assessment (DIA) Consideration of conditions at design and construction stages is helpful to prepare appropriate countermeasures for disasters in advance. As examples, inclusion of structural countermeasures in the design can be highlighted. It helps to set design conditions at higher levels. Nonstructural countermeasures such as evacuation plans, early warning mechanisms can also be proposed accordingly. By those countermeasures, disaster damages on development projects can be mitigated.