Download presentation
Presentation is loading. Please wait.
Published byAustin Dominic Bridges Modified over 8 years ago
1
Risk assessment and Natural Hazards
2
Concept of vulnerability (e.g. fatalities in two contrasting societies) Deaths 1 ………………………………………… 10 1000 100 10 1 Earthquake magnitude e.g. Peru, Iran? e.g. California?
3
RISK is the chance of something happening that will have an impact on objectives. A risk is often specified in terms of an event or circumstance and the consequences that may flow from it. Risk is measured in terms of a combination of the consequences of an event and their likelihood.’
4
‘Likelihood’ describes how often a hazard is likely to occur, and is commonly referred to as the probability or frequency of an event. ‘Consequence’ describes the effect or impact of a hazard on a community. Both likelihood and consequence may be expressed using either descriptive words (i.e. qualitative measures) or numerical values (i.e. quantitative measures) to communicate the magnitude of the potential impact (AS/NZS 4360:2004).
5
Risk in disaster management has been described by Crichton (1999) as the probability of a loss, which depends on three factors: hazard, exposure and vulnerability. A ‘hazard’ refers to a single event or series of events which is characterised by a certain magnitude and likelihood of occurrence. ‘Exposure’ refers to the elements that are subject to the impact of a specific hazard, such as houses on a floodplain. ‘Vulnerability’ is the degree to which the exposed elements will suffer a loss from the impact of a hazard.
6
The area inside the triangle represents risk and the sides of the triangle represent the three independent factors that contribute to risk: hazard, exposure and vulnerability in equal proportions. Changing any one of the three components changes the amount of risk. Crichton’s Risk Triangle
7
The concept of risk RISK = HAZARD X VULNERABILITY Hazard = natural processes capable of causing death and/or destruction; Vulnerability = social or economic sensitivity to the effects of hazards
8
Calculating risk Example 1: same hazard; contrasting vulnerabilities Magnitude 6.5 earthquake in south-central California, on Dec. 22, 2003: 7 dead, ~50 injured because the event occurred in a thinly inhabited area (low risk event) Magnitude 6.5 earthquake in city of Bam (Iran) on Dec. 26, 2003: ~40,000 dead, ~30,000 injured; much of the city destroyed (very high risk event)
9
Assessment: types of risk “physical” = living in a hazardous area “personal” = your age/gender/education influences your risk “economic” = poverty reduces your options “structural” = poor quality buildings and lifelines “political” = limited access to information and/or resources “institutional” - your local, state or national government does not enforce regulations all of these may apply!
10
The role of data Knowledge of the elements likely to be exposed to the impact of the hazard phenomena is vital in determining the potential impact or consequence of any hazard on a community or society. This includes information on the people, buildings and infrastructure potentially exposed to a hazard impact. Such data are fundamental to any analysis of risk, regardless of the hazard.
12
Biophysical Vulnerability Biophysical vulnerability models aim to determine the impact of a hazard on the elements at risk, such as people, buildings, infrastructure and the economy.
13
Social Vulnerability Social vulnerability considers a person and/or society’s inherent characteristics, such as social, economic and political background. Social vulnerability can be viewed independently of a hazard, as it refers to the characteristics of individuals which are shaped by the processes around them. For example, the loss of a house in a bushfire would not affect all individuals in the same way. This is because their situations are different, and their access to support networks such as family, friends and the community are different. The ability of individuals to recover financially from disaster also varies greatly.
14
Current modelling The factors proposed by the Institute for International Development (2007) include: frequency: how often a hazard is likely to occur seriousness: the relative impact in physical, social or economic terms manageability: the relative ability to reduce the risk through managing the hazard, the community or both, for example, through warnings and emergency management plans awareness: the level of awareness of the risks posed within the community and emergency management spheres before the hazard impact urgency: the measure of how critical it is to address the risk, such as how critical it is to implement a mitigation measure to address the problem
15
growth: the potential or rate at which the risk will increase. This may be through an increase in elements exposed to the hazard via development and population growth, and/or an increase in the probability of an extreme event occurring, for example via the influence of climate outrage: the political dimension of risk. This becomes particularly evident after a disaster, as a community expresses its outrage at what it believes to have been an inadequate response or lack of preparedness on behalf of the authorities. As a result, time is spent addressing community outrage rather than community safety.
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.