Multi-layer defense Defense in depth is a useful framework for categorizing risk mitigation measures into three layers of defense: •
Prevention: Reducing the probability of a catastrophe occurring in the first place. Example: Measures to prevent outbreaks of new highly infectious diseases. •
Response: Preventing the scaling of a catastrophe to the global level. Example: Measures to prevent escalation of a small-scale nuclear exchange into an all-out nuclear war. •
Resilience: Increasing humanity's resilience (against extinction) when faced with global catastrophes. Example: Measures to increase food security during a nuclear winter. Human extinction is most likely when all three defenses are weak, that is, "by risks we are unlikely to prevent, unlikely to successfully respond to, and unlikely to be resilient against". As of 2020, the
Biological Weapons Convention organization had an annual budget of US$1.4 million.
Survival planning Some scholars propose the establishment on Earth of one or more self-sufficient, remote, permanently occupied settlements specifically created for the purpose of surviving a global disaster.
Food storage has been proposed globally, but the monetary cost would be high. Furthermore, it would likely contribute to the current millions of deaths per year due to
malnutrition. In 2022, a team led by David Denkenberger modeled the cost-effectiveness of resilient foods to
artificial general intelligence (AGI) safety and found "~98-99% confidence" for a higher marginal impact of work on resilient foods. Some
survivalists stock
survival retreats with multiple-year food supplies. The
Svalbard Global Seed Vault is buried inside a mountain on an island in the
Arctic. It is designed to hold 2.5 billion seeds from more than 100 countries as a precaution to preserve the world's crops. The surrounding rock is (as of 2015) but the vault is kept at by refrigerators powered by locally sourced coal. More speculatively, if society continues to function and if the
biosphere remains habitable, calorie needs for the present human population might in theory be met during an extended absence of sunlight, given sufficient advance planning. Conjectured solutions include growing mushrooms on the dead plant biomass left in the wake of the catastrophe, converting cellulose to sugar, or feeding natural gas to methane-digesting bacteria.
Global catastrophic risks and global governance Insufficient
global governance creates risks in the social and political domain, but the governance mechanisms develop more slowly than technological and social change. There are concerns from governments, the private sector, and the general public about the lack of governance mechanisms to efficiently deal with risks, negotiate and adjudicate between diverse and conflicting interests. This is further underlined by an understanding of the interconnectedness of global systemic risks. In absence or anticipation of global governance, national governments can act individually to better understand, mitigate and prepare for global catastrophes.
Climate emergency plans In 2018, the
Club of Rome called for greater climate change action and published its Climate Emergency Plan, which proposes ten action points to limit global average temperature increase to 1.5 degrees Celsius. Further, in 2019, the Club published the more comprehensive Planetary Emergency Plan. There is evidence to suggest that collectively engaging with the emotional experiences that emerge during contemplating the vulnerability of the human species within the context of climate change allows for these experiences to be adaptive. When collective engaging with and processing emotional experiences is supportive, this can lead to growth in resilience, psychological flexibility, tolerance of emotional experiences, and community engagement.
Space colonization Space colonization is a proposed alternative to improve the odds of surviving an extinction scenario. Solutions of this scope may require
megascale engineering. Astrophysicist
Stephen Hawking advocated colonizing other planets within the Solar System once technology progresses sufficiently, in order to improve the
chance of human survival from planet-wide events such as global thermonuclear war. ==Organizations==