As states and nations took hold, they built increasingly dense and complex infrastructure as new technologies and materials became available. The Industrial Revolution added a new array of technological hazards to which cities had to react and adapt. In a very real sense, emergencies and crisis managers have been marching alongside civilization from the very beginning.

Modern emergency management began to truly emerge in the United States in the civil-defense efforts of the 1950s and 1960s. The threat of a catastrophic nuclear war between world superpowers necessitated an extensive organization to assure effective response and continuity of government. The military has continued as a key contributor to both the form and function of emergency management, with its hierarchal specialization and established chain of command providing a model for human-caused hazards in particular. Natural disasters, such as flooding and wildfires, soon drove the development of more effective crisis-management processes on multiple continents. (An extensive discussion of this period may be found in Chapter 2, Development and History of Emergency Management.)

Emergency managers have learned valuable lessons from related fields. Wildland firefighting can be defined as fire incidents that occur outside of significant human settlement, which have vegetation as their primary fuel source. The methods developed to battle such conflagrations also deserve extensive credit for developing the systems and mechanisms that form the core of modern emergency management. The forest fires endemic to the Western United States are complex and geographically large-scale incidents requiring extensive planning and coordination. The evolution of the National Incident Management System (NIMS) in the United States, and of other incident command systems the world-over, owe much to hard-fought lessons of these fire crews. (Such systems are reviewed in Chapter 6, Incident Command Systems and NIMS.) While wildfires are historically rural events, they have nonetheless informed the management of emergency incidents in the most urban of settings.

The evolution of emergency management can thus be seen as a long and ongoing process, including the adoption and adaptation of the best practices from multiple fields.

Such areas may not encompass merely the traditional city boundaries, but also the suburbs in close proximity—including the slums or favelas that now surround city centers on multiple continents. In other words, as cities become denser, so will the terrain in immediate proximity.

By this definition, more than half the world’s population already resides in urban areas. The World Health Organization (WHO) is among those tracking a rapidly urbanizing world. By 2014, WHO calculated that a full 54% of the Earth’s human population lived in cities, and this population is expected to grow at nearly 2% annually through 2025. The presence of large numbers of people, and the systems necessary to support them, presents emergency managers with both unique opportunities and unique challenges.

As urban development pushes deeper into previously rural or wildland terrain across multiple continents, the lines defining what makes up urban, suburban, and rural landscapes continue to blur. A changing climate will only exacerbate such changes, bringing hazards across boundaries which were previously clear delineations.

To summarize, the key traits that may serve to differentiate urban emergency management from the more generalized field are:

Ultimately, an urban emergency manager is going to be dealing with a higher number of potential cascading impacts, and a shorter timeframe before such impacts degrade critical infrastructure or threaten the lives of civilians. Large-scale emergencies in public areas will quickly attract the attention of opinion-shaping stakeholders, including politicians and the media. Extensive attention will be given to these factors later in the text.

Hazard may be defined as a source or cause of potential harm or injury. Threat is an identified source of potential harm or injury, often implied to be manmade or intentional. Risk is the probability of harm or injury occurring. A vulnerability is an oversight or weakness which can be the method or avenue via which a hazard or threat causes actual damage or injury.

These concepts are certainly interrelated, and an example may help clarify the subtle differences. If a storm threatens a coastal town, wind and water are clear hazards. The failure of existing locks and levees may be additional threats. Vulnerabilities may include the susceptibility of infrastructure to damage, or a lack of redundant systems. Risk is the resulting probability of actual harm, injury, or death occurring when all factors are taken into consideration.

None of these factors exist in a vacuum, or independently of one another. In a traditional scientific sense, the concepts of hazard, threat, and vulnerability are all potential energy—possibilities waiting to happen. Risk is kinetic energy, the presumption of a given action or series of events being in motion.

While formulas vary somewhat, risk is often represented as the sum total of an asset’s value combined with its threats and vulnerabilities. In other words, without any threats or vulnerabilities, there can be no risk. Chapter 5, Assessing Risk in Urban Areas, provides extensive information on this process.

The two major classifications commonly used to discuss and categorize disasters are natural and human-caused (sometimes referred to as manmade). As with any such broad categorization, they should be viewed as useful but limited generalizations.

A natural disaster is a crisis that is primarily caused by hazards that exist in, or are a result of, the natural environment. More specific types would include floods, earthquakes, wildfires, tornadoes, hurricanes, and tsunamis. The earthquake and resulting tsunami that struck the Indian Ocean on December 26, 2004 would be a powerful example of a natural disaster.

Human-caused or manmade disasters are increasingly commonplace. As the name implies, such crises are primarily the result of human intervention or error. Types would include technological and infrastructu...