To what extent are natural dangers natural? Explain in relation to disaster preparedness taking into account its onset, intensity, capacity for control, and character of the studied region.
The case of urban flooding is gradually becoming a major concern in cities, not only due to floodwater from over flowing rivers but also due to sudden and haphazard urbanization that ignores the possibility of a natural drainage system and the equanimity in that ecological system. Many urban areas aRead more
The case of urban flooding is gradually becoming a major concern in cities, not only due to floodwater from over flowing rivers but also due to sudden and haphazard urbanization that ignores the possibility of a natural drainage system and the equanimity in that ecological system. Many urban areas are undergoing intense flooding because of:
1. Natural Drainage System Degradation: When people move to urban centers they stretch their dwelling places towards rivers, lakes, wetlands and other forms of natural what one may term as drainage channels. But while absorption by soil, construction, roads, and other surfaces with no permeable surface takes over, they lead to more runoff.
2. Insufficient Drainage Infrastructure: Every town has established their drainage systems aiming at a different population and receiving less rainfall, meaning they cannot transport the current volumes of water and even more so with the addition of depth from climate change.
3. Uncontrolled Building: Floodplain structures, bad land management, and ill-designed structures hinder water flow, thereby, increasing the impact of rainfall.
4. Problems with Waste Management: Disposal of wastes in the wrong manner leads to blocking common utilities like drains hence minimizing capabilities of efficient storm water systems leading to floods which are much worse.
From the National Disaster Management Authority guidelines for urban flooding
India’s National Disaster Management Authority has also evolved various handiness to assist the cities to better realize and control urban flooding. Some of the major guidelines developed by the body include the following:
1. Urban Flood Zoning and Mapping: NDMA recommends that cities assess flood prone areas to determine the degree of risk and regulate those areas accordingly. It can therefore be prescribed in those regions in order to check reckless development while urban development can be directed towards reduction of effects of flooding.
The case of urban flooding is gradually becoming a major concern in cities, not only due to floodwater from over flowing rivers but also due to sudden and haphazard urbanization that ignores the possibility of a natural drainage system and the equanimity in that ecological system. Many urban areas are undergoing intense flooding because of:
1. Natural Drainage System Degradation: When people move to urban centers they stretch their dwelling places towards rivers, lakes, wetlands and other forms of natural what one may term as drainage channels. But while absorption by soil, construction, roads, and other surfaces with no permeable surface takes over, they lead to more runoff.
2. Insufficient Drainage Infrastructure: Every town has established their drainage systems aiming at a different population and receiving less rainfall, meaning they cannot transport the current volumes of water and even more so with the addition of depth from climate change.
3. Uncontrolled Building: Floodplain structures, bad land management, and ill-designed structures hinder water flow, thereby, increasing the impact of rainfall.
4. Problems with Waste Management: Disposal of wastes in the wrong manner leads to blocking common utilities like drains hence minimizing capabilities of efficient storm water systems leading to floods which are much worse.
From the National Disaster Management Authority guidelines for urban flooding
India’s National Disaster Management Authority has also evolved various handiness to assist the cities to better realize and control urban flooding. Some of the major guidelines developed by the body include the following:
1. Urban Flood Zoning and Mapping: NDMA recommends that cities assess flood prone areas to determine the degree of risk and regulate those areas accordingly. It can therefore be prescribed in those regions in order to check reckless development while urban development can be directed towards reduction of effects of flooding.
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Natural hazards, while inherently linked to natural processes, are influenced by various factors that can amplify or mitigate their impacts. To understand how natural these hazards are, it’s crucial to analyze their onset, severity, controlling capacity, and the nature of the study area, especiallyRead more
Natural hazards, while inherently linked to natural processes, are influenced by various factors that can amplify or mitigate their impacts. To understand how natural these hazards are, it’s crucial to analyze their onset, severity, controlling capacity, and the nature of the study area, especially in the context of disaster preparedness.
Onset:
– Sudden Onset: Earthquakes, tsunamis, and flash floods occur with little to no warning. These hazards are purely natural in their occurrence, though human activities such as mining or reservoir-induced seismicity can sometimes trigger them.
– Slow Onset: Droughts and sea-level rise develop over extended periods, often exacerbated by human activities like deforestation, groundwater depletion, and climate change. These slow-onset hazards provide more opportunities for preparedness and mitigation.
Severity:
– Natural Factors: The severity of natural hazards is influenced by natural variables such as topography, climate, and geological conditions. For instance, the severity of an earthquake is determined by the fault lines and geological characteristics of the region.
– Human Factors: Human activities can increase the severity of natural hazards. Urbanization in floodplains, poor land-use practices, and inadequate infrastructure can amplify the impacts of floods and landslides. Climate change, driven by greenhouse gas emissions, intensifies weather-related hazards.
Controlling Capacity:
– Human Intervention: Advances in technology and infrastructure development can control and mitigate the impacts of natural hazards. Early warning systems, flood defenses, and earthquake-resistant buildings are examples of how human intervention can reduce vulnerability and enhance preparedness.
– Natural Control: Ecosystems like wetlands, mangroves, and forests naturally mitigate the impacts of hazards by absorbing floodwaters, stabilizing shorelines, and reducing erosion. Preserving these natural barriers is crucial for disaster risk reduction.
Nature of the Study Area:
– Geographical Characteristics: The susceptibility to natural hazards is significantly influenced by the geographical characteristics of the area. Coastal areas are more prone to hurricanes and tsunamis, while mountainous regions are vulnerable to landslides and avalanches.
– Socioeconomic Factors: The capacity of a community to prepare for and respond to natural hazards is shaped by socioeconomic factors. Wealthier regions with better infrastructure, education, and governance are typically more resilient. In contrast, poorer areas often suffer more due to inadequate resources and preparedness measures.
Connection with Disaster Preparedness:
– Holistic Approach: Effective disaster preparedness requires a holistic understanding of both natural and human-induced factors that contribute to hazards. This includes scientific research to predict natural events, land-use planning to avoid high-risk areas, and community engagement to build resilience.
– Integrating Science and Policy: Combining scientific insights with policy measures can significantly enhance disaster preparedness. This involves not only monitoring natural processes but also addressing human behaviors that exacerbate risks. For instance, implementing strict building codes in earthquake-prone areas or managing water resources sustainably in drought-prone regions.
Conclusion:
See lessNatural hazards are influenced by a complex interplay of natural processes and human activities. Their onset, severity, and impacts can be significantly controlled through proactive measures, informed by a comprehensive understanding of the study area’s characteristics. Effective disaster preparedness hinges on integrating scientific knowledge, technological advances, and robust policy frameworks to mitigate risks and build resilient communities.