What is Hazard Mitigation?

The term "Hazard Mitigation" describes actions that can help reduce or eliminate long-term risks caused by hazards, or disaster, such as floods, hurricanes, wildfires, landslides, tornadoes, earthquakes, or dam failures.  As the costs of disasters continue to rise, governments and citizens must find ways to reduce hazard risks to our communities.  Efforts made to reduce hazard risks should be compatible with other community goals; safer communities are more attractive to employers as well as residents.  As communities plan for new development and improvements to existing infrastructure, mitigation can and should be an important component of the planning effort.

While mitigation activities can and should be taken before a disaster occurs, after a disaster, hazard mitigation is essential.  Oftentimes after disasters, repairs and reconstruction are completed in such a way as to simply restore damaged property to pre-disaster conditions. These efforts may “get things back to normal”, but the replication of pre-disaster conditions may result in a repetitive cycle of damage, reconstruction, and repeated damage. Hazard mitigation breaks this repetitive cycle by producing less vulnerable conditions through post-disaster repairs and reconstruction. The implementation of such hazard mitigation actions leads to building stronger, safer and smarter communities that are better able to reduce future injuries and future damage.

Hazard Mitigation Breaks the Cycle

When recurrent disasters take place such as coastal or riverine flooding, repeated damage and reconstruction can occur. This recurrent reconstruction is becomes more expensive as the years go by. Hazard mitigation breaks this expensive cycle of recurrent damage and increasing reconstruction costs by taking a long-term view of rebuilding and recovering following disasters. 

What Are the Benefits?

Effective hazard mitigation planning can provide the following benefits:

  • Reduces the loss of life, property, essential services, critical facilities and economic hardship.
  • Reduces short-term and long-term recovery and reconstruction costs.
  • Increases cooperation and communication within the community through the planning process.
  • Increases potential for state and federal funding for recovery and reconstruction projects.

What Types of Mitigation Techniques Can Be Utilized?

 Hazard mitigation actions are commonly broken into four different categories: 

  • Local Plans and Regulations (LPR) – These actions include government authorities, policies or codes that influence the way land and buildings are being developed and built.
  • Structure and Infrastructure Project (SIP) - These actions involve modifying existing structures and infrastructure to protect them from a hazard or remove them from a hazard area. This could apply to public or private structures as well as critical facilities and infrastructure.  This type of action also involves projects to construct manmade structures to reduce the impact of hazards.
  • Natural Systems Protection (NRP) – These are actions that minimize damage and losses, and also preserve or restore the functions of natural systems.
  • Education and Awareness Programs (EAP) – These are actions to inform and educate citizens, elected officials, and property owners about hazards and potential ways to mitigate them. 

 Common mitigation actions that are taken include:

  • Enforcement of building codes, floodplain management codes and environmental regulations
  • Public safety measures such as continual maintenance of roadways, culverts and dams
  • Acquisition of relocation of structures, such as purchasing buildings located in a floodplain
  • Acquisition of hazard prone lands in their undeveloped state to ensure they remain so
  • Retrofitting of structures & design of new construction such as elevating a home or building
  • Protecting critical facilities and infrastructure from future hazard events
  • Mitigation, disaster recovery and COOP planning
  • Development and distribution of outreach materials related to hazard mitigation
  • Deployment of warning systems
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