Examining Global Biosecurity Engagement Programs
Global biosecurity engagement programs are designed to prevent the harmful use of biological agents and pathogens. It is difficult to measure the effectiveness of these programs in improving biosecurity given that there have been relatively few attempts to misuse the life sciences. Metrics that focus on outputs (what was done) as opposed to outcomes (the impact of what was done) have not been helpful in determining how these efforts might be improved in the future. As a result, the goals of the programs have traditionally been more quantitative in nature – for example, increasing the number of agents secured and number of scientists engaged. Broadening the scope of biosecurity engagement metrics can help align program goals with a more qualitative approach that prioritizes the international partners’ global health security.
To understand how biosecurity engagement is conducted and evaluated, Michelle Rozo, Ph.D. candidate at Johns Hopkins University, interviewed more than 35 individuals in the United States and abroad (including government officials and their non-governmental partners) regarding current and future programs that can be used to create a cohesive, global health system approach to biosecurity. The results from the interviews are complied in an issue brief which also provides a strategy for policymakers to focus more on qualitative public health outcomes instead of quantitative security outputs. With this strategy, programs will cost less and be more effective in reducing global threats.
While advanced Chinese language proficiency and cultural familiarity remain irreplaceable skills, they are neither necessary nor sufficient for successful open-source analysis on China’s nuclear forces.
Satellite imagery has long served as a tool for observing on-the-ground activity worldwide, and offers especially valuable insights into the operation, development, and physical features related to nuclear technology.
This report outlines a framework relying on “Cooperative Technical Means” for effective arms control verification based on remote sensing, avoiding on-site inspections but maintaining a level of transparency that allows for immediate detection of changes in nuclear posture or a significant build-up above agreed limits.
The grant comes from the Carnegie Corporation of New York (CCNY) to investigate, alongside The British American Security Information Council (BASIC), the associated impact on nuclear stability.