GEO-HAZARD-1.pdf

Full Transcript

NATURAL HAZARD & DISASTER ANTROGOPGENIC terrorism; technological
hazards−industrial (pollution), nuclear (nuclear
HAZARD A hazard is any phenomena, physical event,
leak), structural (dam collapse).
or human behavior (floods, hurricanes, droughts,
o With the definition of a hazard, we can say that it
epidemics, nuclear spills, etc.) that can result in harm
can be natural or environmental, anthropogenic or
to humans, destruction of property, social
a combination of both, which we refer to as socio-
disruption, or environmental degradation (U.N. ISDR,
natural hazard. The following is how UNDRR
2004).
(2017) described the different types of hazards:
a. Natural hazards – are natural phenomena
(observable events without human intervention)
that result in hazards.
b. Environmental hazards – they can be brought
about by physical or chemical pollution of the air,
water, or soil or by environmental degradation;
but rather than being hazards in and of
themselves, many of the processes and
phenomena that fall into this category—such as
soil degradation, deforestation, biodiversity loss,
salinization, and sea level rise—may be better
DISASTER is the potential consequence of a hazard, described as drivers of risk and hazard.
where a community or population is unable to handle c. Anthropogenic or human-induced hazards –
the effects of the hazard, given the resources at are induced entirely or predominantly by human
their disposal. A natural event or force that causes activities and choices.
damage to property and/or loss of life (National o In today’s world, "technological" and
Geographic, 2023) "anthropogenic" are often used interchangeably.
However, the former is defined as hazard that
stem from technological or industrial conditions,
unsafe procedures, infrastructure failures, or
certain human activities.
o Ex: including Industrial Pollution, Nuclear
Radiation, Toxic Waste, Dam Failure,
Transportation Accidents, Factory Explosion,
Fires, and Chemical spills.
o Additionally, technological hazards can also result
directly from the impacts of natural hazard
“While most hazards may be inevitable, disasters events (UNDRR, 2017).
are not.” U.N.ISDR,2004
Natural Hazards
Classification of a Disaster
Hydrometeorological hazards, the most
common natural hazards, are related to the
climate, oceans, or movement of wet mass such as
floods, droughts, and heat waves.
Geological hazards involve changes due to
tectonic plates or fault shifting (tsunamis result
from shifting of faults) or mass movement of solid
Type of Hazards mass.
o The type of hazard from which they are rooted, Biological hazards are events that involve the
typically defines disasters; therefore, in order to rapid incidence and prevalence of vector-driven
understand the different types of disasters, it is diseases, toxins, or pathogens.
important to establish the hazards that they
originate from.
NATURAL categorized into hydrometeorological,
geological, and biological.
ENVIRONMENTAL events that disrupt the
environment, ecosystem, or natural resources (i.e.,
deforestation, forest fires, change in climate).
Interaction of Natural Hazard & Anthropogenic ✓ Geographical (Spatial) Scales or Areal Extent
Hazard Areas affected by hazards can differ in size:
landslides can cover small areas of a few hundred
Additionally, it is crucial to note that each type of
square meters while ground shaking from
hazard can occur independently or interact and
earthquakes can affect several hundred kilometers
combine with other hazards simultaneously in the
impacting multiple provinces.
same time and area, referred to as a multi-hazard
event.
More recent works on hazard studies refer to these
interactions as "cascading".

✓ Frequency or Probability of Occurrence It
refers to how often the hazard occurs.
Hazards of certain sizes may occur with
certain frequencies, as small events may
occur often and large events seldom.
✓ A number of examples include the
approximately 9 tropical storms that make
Given the above examples and discussion, it can be landfall in the Philippines every year
said that both natural and anthropogenic and the moderate to devastating flooding
hazards can interact and combine simultaneously these can bring every few years, or Metro
(i.e., socio-natural hazards) and can cause negative Manila’s anticipated “Big One”: a large
impacts on the human system in which disasters earthquake that has not happened in the last
happen. 450 years but is now expected to happen any
For example, landslides—or, in a more scientific time.
term, mass wasting— can be natural, as
sediments and rocks tend to move or fall
downward due to gravity.
However, they can also be anthropogenic, as
farming or construction activities can cause such.
On the other hand, flooding can also be natural, as
rainwater tends to increase the water level in the
river and onto the riverbanks. This then affects
✓ Duration answers the question of how long
settlements if we do not plan well and continue to
the hazard event lasts or occurs.
build on floodplains.
An earthquake’s ground shaking lasts only from a
Processes & Characteristics of Hazards few seconds to minutes but an area may be
Hazards have different processes and characteristics inundated by floods for several hours up to several
that can be used for their analysis and assessment of days.
their potential impact on the human system. Some of ✓ Speed of Onset refers to how quickly the
these are the following: peak of the hazard event occurs, with the
starting time at the first point of the process
✓ Magnitude refers to the size of the hazard event, towards it becoming a hazard
or the energy released, while intensity refers to An earthquake may occur suddenly (rapid onset)
the damage and impacts of the hazard. For while drought may take months to take full effect
example, the magnitude of an earthquake (slow onset).
refers to the energy released at the epicenter
while for floods it is the volume and speed of
floodwaters.
✓ Intensity, on the other hand, refers to the number
and extent of damaged or impacted structures for
both hazards.
 ✓ Temporal Spacing Given this definition, we can understand that disaster
refers to the recurrence happens when the risk from the interaction of hazards,
intervals or probabilities exposure, vulnerability, and capacity affects the
of return of the hazard human system negatively.
While some hazards like
VULNERABILITY
tides are highly
▪ is the concept defined by the WHO as a
predictable, others like
“predisposition to suffer damage due to
floods or wildfires can be
external events” (Inter-American Development
influenced by various factors, making them less so.
Bank, 1999).
Climate change can affect temporal spacing.
▪ As defined by the United Nations, vulnerability is
For example, some regions might experience an
the culmination of four factors: social,
increase in floods or droughts due to more
environmental, physical, and economic, each
extreme weather events.
contributing to the vulnerability of a population
alone or by interacting with each other.

Example of Vulnerability
▪ An example of vulnerability can be a population
residing on an island below sea level near a
fault line (physical factor).
▪ Financial strain (economic) brought on by a
corrupt government (social) can increase
the vulnerability to a hazard and therefore
increase the risk of a natural disaster.
▪ Rapid urbanization considerably increases the
vulnerability to hazards (UNDP, 2004). When
the population of a city grows too quickly, building
adequate infrastructure and basic settlements
becomes a challenge.
The mortality and financial cost of a natural disaster is
certainly linked to the severity of the hazard, but also
EXPOSURE
dependent on how vulnerable a population is to
▪ The situation of people, infrastructure, housing,
potential disastrous effects.
production capacities and other tangible human
RISK OF A DISASTER assets located in hazard-prone areas (United
Nations Office for Disaster Risk Reduction, 2024).
▪ RISK is commonly understood as a factor ▪ The degree to which the elements at risk are
associated with danger that may lead to accidents likely to experience hazard events of different
or adverse events. magnitudes (e.g., people, buildings, hospitals,
▪ This aligns with the concept of disaster risk in the farms, etc.in the path of hazard processes and
field of disaster management. Both terms involve impacts) (OPOU and UPRI, 2024).
assessing the likelihood of an event occurring
CAPACITY
and its potential negative consequences, as
▪ The combination of all strengths and resources
outlined in Republic Act No. 10121 (2009).
presents within a community, society, or
▪ According to this legislation, disaster risk is
organization, with the aim of diminishing the level
technically defined as the possible loss of life,
of risk or mitigating the impact of a disaster.
injury, or damage to assets within a system,
▪ This encompasses infrastructure, physical assets,
society, or community during a specific timeframe.
institutional frameworks, societal coping
▪ It is determined probabilistically, that is, based on
mechanisms, and human attributes such as
the chance of these events happening. This
knowledge, skills, and collective qualities like
likelihood of disaster is determined by
social relationships, leadership, and management
considering the possibility of hazards occurring,
capabilities.
how exposed people and places are to
▪ Capacity can also be synonymous with capability.
those hazards, their vulnerability to those hazards,
For instance, examples of capacity might involve
and the capacity of the community to cope.
secure land and house ownership, reliable
sources of income, social capital derived from
family and community support during crises,
local knowledge, effective leadership (UPOU and
UPRI, 2024).
Risk Assessment Matrix EMERGENCY RESPONSE
❖ Is a series of crucial tasks that are concurrently
undertaken during a time of turmoil, instability,
and fear; therefore, this phase is heavily
dependent on proper preparedness and planning.
❖ Main objective for the emergency response
component of the disaster cycle is to locate the
necessary resources to maintain and preserve life
in the coming days or weeks.
❖ Responses will vary depending on the type and
severity of the disaster itself; however, governing
RISK REDUCTION bodies work closely with medical staff to utilize
▪ Exposure, vulnerability, and insufficient the skills and detailed plans established in the
capacity all play an essential role in assessing and preparedness phase of the cycle.
determining the potential impacts of a certain ❖ Immediately following a natural event that has
hazard on the human system in a particular area. disaster potential, preliminary aid in the form of
▪ In connection with this, it becomes imperative to food, water, sanitation, and shelter is the main
reduce the exposure and vulnerability of objective in this phase, but equally important
communities to natural hazards while enhancing could also be aid in the form of minor structural
their capacity to cope at the same time. repairs.

DISASTER MANAGEMENT
RECOVERY
❖ There is no gold standard method for managing ❖ The recovery phase brings order to the shocked
a natural disaster. system swirling in entropy.
❖ Total prevention of all disasters is not possible; ❖ The initial needs of water, shelter, sanitation, and
however, the goal of management strategists food addressed in the response phase are further
following a disaster is to help as many established through activities, programs, and
people as possible using the resources available. initiatives to provide stability and foundation for
❖ Learning from past experiences, as well as those uprooted.
learning from other communities is imperative ❖ Beyond on the physical aid, recovery plans contain
in reducing the impact of future disasters. efforts to cope with the economic and social strife
❖ Many countries have developed emergency resulting from the disaster.
management strategies to cope with broad-range ❖ Loss of life can create devastating consequences
unforeseeable events, including natural disasters for broken families long after the events of the
as each country or jurisdiction may have different disaster; therefore, programs must be in place to
management strategies for each type of provide social support for those affected.
emergency.

Disaster Cycle

PREVENTION/MITIGATION
❖ Full prevention of a disaster is highly unlikely,
but steps can be taken to prevent small hazards
from becoming disasters (prevention) or reduce
 the impact and devastation resulting from a
disaster (mitigation).
❖ WHO suggests proper hazard and vulnerability
assessments be done during this phase to identify
key areas that could potentially create a disastrous
situation (Wisner and Adam, 2002).
❖ An example of prevention measures would be
building levees to prevent high-flowing rivers from
flooding while mitigation could be an effective
warning system.

Disaster Cycle Example

PREPAREDNESS
❖ The objective of disaster preparedness is to ensure
that a community has the capability of bringing a DISASTER RESILIENCE & APPLICATION OF
system in turmoil from recovery to sustained DISASTER MANAGEMENT
development (World Health Organization, 1995).
❖ Is important that this phase integrates the DISASTER RESILIENCE
assessment strategies from the prevention and What is resilience?
mitigation phase to ensure readiness for a Over the years, several definitions of resilience in
plethora of possible hazards. relation to disaster risk have been developed by
❖ Governmental policies are examples of activities many organizations and institutions and accepted
that propel a community into disaster by many. Here are the following examples:
preparedness (Wisner and Adam, 2002).
❖ Legislation at the local and national level with
well-established goals can substantially improve
the response of a disaster.
❖ Examples of such policy include initiating public
education programs focusing on informing the
community about evacuation procedures, first
aid, family emergency plans, as well as available
resources.
According to the definitions given above, resilience
is the community's ability to reduce their
vulnerability and exposure to hazards, strengthen
defenses against hazards, and completely
prevent the occurrence of a disaster.
If a calamity cannot be prevented, its effects will be
limited in terms of cost and destruction.

Aspects of Resilience
Resilience is broad and multidimensional. The
literature identified the following facets of
human systems where we need to build resilience
(Sharifi, 2016; Cutter, 2016):
✓ Physical - whether structures can withstand It is crucial to remember that each of the
hazards or be rebuilt with little to no resilience's previously mentioned components
additional cost. influences and depends on the others.
✓ Social - the ability of individuals, people For instance, the economic and livelihood
groups, or entities to tolerate, absorb, cope activities of farmers, their families, and produce
with, and adjust to environmental and social vendors will be impacted if a particular disaster
threats of various kinds. like a drought, affects the ecological
o Cultural - refers to how communities environment.
prepare, act, and respond to disasters, Another example is how social resilience is
reduce their exposure, and implement impacted when physical infrastructure, such as
the necessary changes to adapt to risks, communications and transportation systems, is
including the impacts of climate change. destroyed by earthquakes. This is because people
cannot visit and communicate with friends and
family, which is essential for fostering and
sustaining social resilience.

Other Terms Related to Resilience
✓ Capacity: combined strengths and resources
that enable communities to prepare for, respond
to, and recover from disasters. This includes both
tangible (supplies) and intangible (skills)
resources.
o Coping capacity: the ability to face and
✓ Economic - whether a government, business, manage disasters.
or community can absorb financial losses due o Capacity to respond: a system's ability to
to disaster. handle disruptions or challenges. Three
✓ Ecological - the capacity of an ecosystem to factors determine this effectiveness:
absorb shocks and disturbances while exposure (intensity of the shock or
retaining its structure, function, and stress), sensitivity (susceptibility to the
adaptability. It encompasses nature’s ability impact), and adaptive capacity (ability
to recover from disruptions, resist to adjust and learn afterwards).
degradation, and adapt to changing
conditions.
✓ Institutional - the capability of government
units, agencies and organizations to continue
to function or to return immediately to their
normal processes and activities after hazard
events interrupt them.
o Health - the ability of a health system to
mitigate, adapt to, and recover from
✓ Reaction: The way a system responds to a
shocks and stresses.
disruption, characterized by varying degrees of
resilience (Datta & Mahjabeen, 2016).
o Reactions can be positive, with the system
emerging stronger ("bounce back
better") or returning to its pre-disruption
state ("bounce back").
o Alternatively, reactions can be negative,
with the system recovering partially
("recover, but worse than before") or
collapsing entirely.
✓ Adaptation: process or action that changes a
living thing so that it is better able to survive
in a new environment.
✓ Transformation: if the coping strategies are not
adequate to deal with disaster risk, there is a need
to transform or shift pathways or have the capacity
to shift into new pathways and cross
thresholds.
Note: It is important to note that building resilience APPLICATION OF DISASTER MANAGEMENT
requires implementing strategies that account for all
types of resilience so as not to enhance one component Global Sustainable Development Goals
at the expense of another (UNDRR, 2017). The Sustainable Development Goals (SDGs), also
known as the Global Goals, were adopted by the
Ways to Build Resilience United Nations in 2015 as a universal call to action
✓ One of the ways to build resilience is to reduce to end poverty, protect the planet, and ensure
the disaster risk faced by communities through that by 2030 all people enjoy peace and prosperity.
systematic efforts to analyze and manage the The 17 SDGs are integrated—they recognize that
causal factors of disasters, including action in one area will affect outcomes in
through reduced exposures to hazards, lessened others, and that development must balance social,
vulnerability of people and property, wise economic and environmental sustainability.
management of land and the environment, Disaster risk reduction cuts across different
and improved preparedness for adverse aspects and sectors of development. There
events (RA 10121). are 25 targets related to disaster risk reduction in
✓ This can be done by employing different risk 10 of the 17 sustainable development goals,
reduction and management strategies, such as the firmly establishing the role of disaster risk
following: reduction as a core development strategy.
1. Risk characterization (studying what hazard
and types of hazards are affecting the
community, and its characteristics and
processes)
2. Scope potential impacts of risks to human
system (assessing exposure, vulnerability, and
capacity)
3. Determination and identification of
intervention to manage disaster risk with a
focus on the following four pillars of DRRM
(NDRRMC, 2020):

✓ Goal 1. End poverty in all its forms
everywhere 1.5 By 2030, build the resilience
of the poor and those in vulnerable situations
and reduce their exposure and vulnerability to
climate-related extreme events and other
economic, social and environmental shocks
and disasters
✓ Goal 9. Build resilient infrastructure,
promote inclusive and sustainable
industrialization and foster innovation
Risk-informed Development for Resilience 9.1 Develop quality, reliable, sustainable and
Building resilient infrastructure, including regional and
✓ Planning is the quintessential tool for building transborder infrastructure, to support
resilience. Planning systems inherently involve economic development and human well-being,
making decisions that balance and integrate with a focus on affordable and equitable access
considerations for people, culture, the for all.
economy, and both the natural and built Target 9.a: Facilitate sustainable and resilient
environments (New South Wales Department of infrastructure development in developing
Planning, Industry and Environment, 2021). countries through enhanced financial,
✓ According to Dr. Lagmay (2017) disasters are technological and technical support to African
manifestations of unresolved problems of countries, least developed countries,
development, and if development plans are not landlocked developing countries and small
adequately formulated, the impacts of natural island development states.
and man-made hazards have the potential to
hinder the progress of the nation. Sendai Framework
The Sendai Framework for Disaster Risk
Reduction 2015-2030 (Sendai Framework)
was the first major agreement of the post-2015
 development agenda and provides Member
States with concrete actions to protect
development gains from the risk of disaster.
It is the outcome of stakeholder consultations
initiated in March 2012 and inter- governmental
negotiations held from July 2014 to March
2015, which were supported by the UNDRR upon
the request of the UN General Assembly. UNDRR is
tasked to support the implementation, follow-
up and review of the Sendai Framework.
It recognizes that the State has the primary role to
reduce disaster risk, but that responsibility should
be shared with other stakeholders including local
government, the private sector and other
stakeholders.

The Paris Agreement
The Paris Agreement is a legally binding
international treaty on climate change. It was
adopted by 196 Parties at the UN Climate Change
Conference (COP21) in Paris, France, on 12
December 2015. It entered into force on 4
November 2016.
Its overarching goal is to hold “the increase in the
global average temperature to well below 2°C
above pre-industrial levels” and pursue efforts
“to limit the temperature increase to 1.5°C above
pre-industrial levels.”
Its overarching goal is to hold “the increase in the
global average temperature to well below 2°C
above pre-industrial levels” and pursue efforts
“to limit the temperature increase to 1.5°C above
pre-industrial levels.” Philippines Republic Act No. 10121
AN ACT STRENGTHENING THE PHILIPPINE
Overview/Common Ground
DISASTER RISK REDUCTION AND
MANAGEMENT SYSTEM, PROVIDING FOR THE
NATIONAL DISASTER RISK REDUCTION AND
MANAGEMENT FRAMEWORK AND
INSTITUTIONALIZING THE NATIONAL DISASTER
RISK REDUCTION AND MANAGEMENT PLAN,
APPROPRIATING FUNDS THEREFOR AND FOR
OTHER PURPOSES.
This Act shall be known as the “Philippine Disaster
Risk Reduction and Management Act of 2010”.
Adopt a disaster risk reduction and Prohibited Act Under RA 10121
management approach that is holistic, (a) Dereliction of duties which leads to destruction,
comprehensive, integrated, and proactive in loss of lives, critical damage of facilities and misuse
lessening the socioeconomic and environmental of fund
impacts of disasters including climate change, (b) Preventing the entry and distribution of relief
and promote the involvement and participation goods in disaster-stricken areas, including
of all sectors and all stakeholders concerned, at appropriate technology, tools, equipment,
all levels, especially the local community accessories, disaster teams/experts;
The Act shifted the policy environment and the (c) Buying, for consumption or resale, from disaster
way the country deals with disasters from mere relief agencies any relief goods, equipment or
response to preparedness (Grantham Research other and commodities which are intended for
Institute, 2024). distribution to disaster affected communities;
RA 10121 provides a comprehensive, all-hazard, (d) Buying, for consumption or resale, from the
multi-sectoral, inter-agency, and community- recipient disaster affected persons any relief
based approach to disaster risk management goods, equipment or other aid commodities
through the formulation of the National Disaster received by them;
Risk Management Framework. (e) Selling of relief goods, equipment or other aid
Moreover, the Act mandates the establishment of a commodities which are intended for distribution
Disaster Risk Reduction and Management to disaster victims;
Office (DRRMO) in every province, city and (f) Forcibly seizing relief goods, equipment or other
municipality, and a Barangay Disaster Risk aid commodities intended for or consigned to a
Reduction and Management Committee specific group of victims or relief agency;
(BDRRMC) in every barangay. (g) Diverting or misdelivery of relief goods,
Finally, RA 10121 provides for the calamity fund equipment or other aid commodities to persons
to be used in support of disaster risk reduction or other than the rightful recipient or consignee;
mitigation, prevention, and preparedness (h) Accepting, possessing, using or disposing relief
activities for the potential occurrence of disasters goods, equipment or other aid commodities not
and not just for response, relief, and rehabilitation intended for nor consigned to him/her;
efforts. (i) Misrepresenting the source of relief goods,
equipment or other aid commodities by:
1. Either covering, replacing or defacing the
labels of the containers to make it appear
that the goods, equipment or other aid
commodities came from another agency or
persons;
2. Repacking the goods, equipment or other aid
commodities into containers with different
markings to make it appear that the goods
came from another agency or persons or was
released upon the instance of a particular
agency or persons,
3. Making false verbal claim that the goods,
equipment or other and commodity mits
untampered original containers actually
came from another agency or persons upon
the instance of a particular agency or
persons;
(j) Substituting or replacing relief goods, equipment
or other aid commodities with the same items or
inferior/cheaper quality,
(k) Illegal solicitations by persons or organizations
representing others as defined in the standards
and guidelines set by the NDRRMC;
(l) Deliberate use of false at inflated data in support
of the request for funding, relief goods, equipment
or other aid commodities for emergency
assistance or livelihood projects; and
(m) Tampering with or stealing hazard monitoring
and disaster preparedness equipment and
paraphernalia.