Disaster risk reduction strategies for informal settlements: A case of Hlophekane in Giyani, Limpopo Province, South Africa

Ramunenyiwa, Vhahangwele Charlene

06 1900

Deparment of Urban and Regional Planning / MURP / The frequency of natural disasters in informal settlements has been on the increase globally, Yet approximately 1 billion people still live in informal settlements world-wide. In South Africa, about 1.2 million people live in informal settlements characterised by inadequate infrastructure, lack of effective land use and spatial planning, high densities and are highly exposed to the risk of disasters. In general, there is a close link between informal settlements as spaces of habitation and exposure to disaster risks. Reflecting on disaster risk reduction strategies for informal settlements is therefore imperative particularly from an urban and regional planning perspective. Therefore, this work uses a case study of Hlophekane an informal settlement located in Greater Giyani Local Municipality under the Limpopo Province's Mopani District in South Africa to illustrate these concerns. The main purpose of this study is to develop disaster risk reduction strategies for Hlophekane Informal Settlement. The study sought to identify and characterize the nature of disasters in Hlophekane Informal Settlement. Data was collected from 90 households that live in Hlophekane Informal Settlement through a questionnaire survey and 3 key informant interviews were conducted. Furthermore, the study mapped disaster risk zones in Hlophekane Informal Settlement using GIS. Collected data was analysed using Statistical Package for Social Sciences (SPSS) making use of a thematic analysis and descriptive statistics. Microsoft computer software packages and Geographical Information System (GIS) were used to map disaster hotspots zones. Data was presented through the use of tables, graphs, and maps. Qualitative data was analysed making use of a range of processes and procedures to generate explanations, understanding or interpretation of the experiences of people and situations in the disaster context. The study findings in disaster risk reduction strategies are expected to provide lessons for reducing disasters in the area from an urban and regional planning perspective. Disaster Risk Reduction strategies suitable for informal settlements such as Hlophekane must be sustainable, cost effective and involve the community. A combination of the multi-sectoral and multi-displinary approaches is one of the disaster risk reduction strategies that can be implemented. This strategy integrates different sectors, government departments, NGO’s and the affected communities. Out of this strategy, several projects were identified such as in situ upgrading, roll over upgrading and complete relocation. From those projects, in situ upgrading is the most suitable, convenient and cost-effective strategy that can be implemented. / NRF

Informal settlements

Disaster Risks

Disaster

Vulnerability

Exposure and Hazards

Prioritizing Residential High-Performance Resilient Building Technologies for Immediate and Future Climate Induced Natural Disaster Risks

Ladipo, Oluwateniola Eniola

14 June 2016

Climate change is exacerbating natural disasters, and extreme weather events increase with intensity and frequency. This requires an in-depth evaluation of locations across the various U.S. climates where natural hazards, vulnerabilities, and potentially damaging impacts will vary. At the local building level within the built environment, private residences are crucial shelter systems to protect against natural disasters, and are a central component in the greater effort of creating comprehensive disaster resilient environments. In light of recent disasters such as Superstorm Sandy, there is an increased awareness that residential buildings and communities need to become more resilient for the changing climates they are located in, or will face devastating consequences. There is a great potential for specific high-performance building technologies to play a vital role in achieving disaster resilience on a local scale. The application of these technologies can not only provide immediate protection and reduced risk for buildings and its occupants, but can additionally alleviate disaster recovery stressors to critical infrastructure and livelihoods by absorbing, adapting, and rapidly recovering from extreme weather events, all while simultaneously promoting sustainable building development. However, few have evaluated the link between residential high-performance building technologies and natural disaster resilience in regards to identifying and prioritizing viable technologies to assist decision-makers with effective implementation. This research developed a framework for a process that prioritizes residential building technologies that encompass both high-performance and resilience qualities that can be implemented for a variety of housing contexts to mitigate risks associated with climate induced natural hazards. Decision-makers can utilize this process to evaluate a residential building for natural disaster risks, and communicate strategies to improve building performance and resilience in response to such risks. / Ph. D.

High-Performance Buildings

Disaster Resilience

Natural Disaster Risks

Hurricanes

Building Enclosure

Residential Buildings

The requirements for the development of a spatial information system for the Tlokwe Local Municipality water catchments area / Sydney Peter Riekert

Riekert

January 2014

The problem facing the Tlokwe Local Municipality is that it is Constitutional and legislatively obliged to avoid and/or mitigate the impact of potential disasters within its boundaries, through the effective management of potential disaster risks and disasters. The lack of effective risk management tools is especially concerning in the context of the water catchment management of the Mooi River, which is the main water supply of the Tlokwe local Municipality. The Mooi River is exposed to many potential catchment related hazards that could affect the municipality of which the origins are both anthropogenic and natural. Although, many of the impacts on the catchment arise beyond the boundaries and the control of the municipality, this does not relieve the municipality from the responsibility to develop tools to manage the risks. The aim of the study is to assist in addressing the above stated problem through establishing the requirements for a conceptual model for an effective spatial information system that will assist the municipality in effectively managing the potential disaster risks and disasters that may arise in the Mooi River Catchment area that could impact on the Tlokwe Local Municiaplity. The aim gives rise to three-research questions that are formulated as research objectives that are used to identify the conceptual model requirements. The first is to identify and conceptualise the constitutional and legislative obligations in respect of disaster risk management in general and specifically those governing the disaster disk management in the water catchment area for the Mooi River. The study of this objective not only highlight the constitutional and legal obligations that the local municipality is subject to, but provides legislatives remedies that the local municipality can utilise to assist with disaster risks reduction. The second is to identify and conceptualise the generic hazards that are related to water catchment areas (including the related groundwater compartments) and those specific in the Mooi River catchment area. In this section, potential anthropogenic and natural hazards are listed, a methodology for risk and vulnerability analyses is provided, and a concise study of quaternary catchment C23D is provided. The third is to identify and conceptualize the requirements for an effective conceptual model of GIS for Disaster Risk Management in the Tlokwe Local Municipality. An overview of a GIS is provided. The essential components of a generic information system namely, people, software, hardware, procedures and processes, data and telecommunications or networks are discussed. The information and system requirements cumulating from the analyses of the three research questions, serve as the drivers of the goal, outcomes and transformation process of the system as well as the requirements for the conceptual model. In this section: a comparison of the Systems Development Life Cycle (SDLC), Framework for Applied Systems Thinking (FAST), problem solving and the phases addressed in this study; the identification of the conceptual model requirements; and a concise systems conceptualisation of an effective GIS is provided. As the, mini-dissertation focuses on the needs for a conceptual model, the additional activities required before the system can be implemented are identified and formulated as recommendation that provide the opportunity for future research. / M Development and Management, North-West University, Potchefstroom Campus, 2014

Anthropogenic Hazards

Disaster Management

Disaster Management Related Legislation

Disaster Risk Management

Disaster Risks

Dolomite Compartment

GIS and Disaster Management

Mining Hazards

Mooi River Catchment

Natural Hazards

Vulnerabilities

Water Catchment Area

Water Resource Related Legislation

Waterborne Hazards

The requirements for the development of a spatial information system for the Tlokwe Local Municipality water catchments area / Sydney Peter Riekert

Riekert

January 2014

The problem facing the Tlokwe Local Municipality is that it is Constitutional and legislatively obliged to avoid and/or mitigate the impact of potential disasters within its boundaries, through the effective management of potential disaster risks and disasters. The lack of effective risk management tools is especially concerning in the context of the water catchment management of the Mooi River, which is the main water supply of the Tlokwe local Municipality. The Mooi River is exposed to many potential catchment related hazards that could affect the municipality of which the origins are both anthropogenic and natural. Although, many of the impacts on the catchment arise beyond the boundaries and the control of the municipality, this does not relieve the municipality from the responsibility to develop tools to manage the risks. The aim of the study is to assist in addressing the above stated problem through establishing the requirements for a conceptual model for an effective spatial information system that will assist the municipality in effectively managing the potential disaster risks and disasters that may arise in the Mooi River Catchment area that could impact on the Tlokwe Local Municiaplity. The aim gives rise to three-research questions that are formulated as research objectives that are used to identify the conceptual model requirements. The first is to identify and conceptualise the constitutional and legislative obligations in respect of disaster risk management in general and specifically those governing the disaster disk management in the water catchment area for the Mooi River. The study of this objective not only highlight the constitutional and legal obligations that the local municipality is subject to, but provides legislatives remedies that the local municipality can utilise to assist with disaster risks reduction. The second is to identify and conceptualise the generic hazards that are related to water catchment areas (including the related groundwater compartments) and those specific in the Mooi River catchment area. In this section, potential anthropogenic and natural hazards are listed, a methodology for risk and vulnerability analyses is provided, and a concise study of quaternary catchment C23D is provided. The third is to identify and conceptualize the requirements for an effective conceptual model of GIS for Disaster Risk Management in the Tlokwe Local Municipality. An overview of a GIS is provided. The essential components of a generic information system namely, people, software, hardware, procedures and processes, data and telecommunications or networks are discussed. The information and system requirements cumulating from the analyses of the three research questions, serve as the drivers of the goal, outcomes and transformation process of the system as well as the requirements for the conceptual model. In this section: a comparison of the Systems Development Life Cycle (SDLC), Framework for Applied Systems Thinking (FAST), problem solving and the phases addressed in this study; the identification of the conceptual model requirements; and a concise systems conceptualisation of an effective GIS is provided. As the, mini-dissertation focuses on the needs for a conceptual model, the additional activities required before the system can be implemented are identified and formulated as recommendation that provide the opportunity for future research. / M Development and Management, North-West University, Potchefstroom Campus, 2014

Anthropogenic Hazards

Disaster Management

Disaster Management Related Legislation

Disaster Risk Management

Disaster Risks

Dolomite Compartment

GIS and Disaster Management

Mining Hazards

Mooi River Catchment

Natural Hazards

Vulnerabilities

Water Catchment Area

Water Resource Related Legislation

Waterborne Hazards