Search

Funding appears to come from the university, along with the Ministry of Education, Culture, Sports, Science and Technology.

The shift in thought from prevention to response is well supported as a necessary move. This can obviously be seen by the occurrence of these accidents despite adequate regulation. Nuclear energy is a promising, but dangerous thing, and can quickly become disastrous despite efforts to maintain control. This was seen in the accident at Fukushima, following the earthquake and resulting tsunami in the region. Despite preparation for such an event and the existence of backup generators and batteries, responders were rendered useless in the efforts as they could not access the area. This is where the need for a prepared system of nuclear response is needed. Historically, such emergency response groups have been poorly resourced and short-lived, such as the Soviet Spetsatom developed after the Chernobyl disaster in 1986. This group, which focused on preserving lessons learned and developing response systems, was absorbed by a larger ministry with the goal of integrated disaster response.

Additionally, the author cites a number of factors that played a role in creating the Fukushima-Daiichi disaster, such as “environmental, social, and technical systems” that, due to their complexity and separate protocol, resulted in lack or preparedness for the disaster. Following the disaster, the response efforts were delayed by this lack of preparation, and the media called out TEPCO and the Japanese government for this. STS analysis is important in this aftermath as much as in the creation of the initial plan. By utilizing an interdisciplinary approach, the media (and the people) can be heard and used to reform existing policies, or create new ones. This establishes a continuously evolving system of response that can adapt and take into account many different view of disaster relief.