Space and survival is the idea that the long-term survival of the human species and technological civilization requires the building of a spacefaring civilization that utilizes the resources of outer space,[1] and that not doing this might lead to human extinction. A related observation is that the window of opportunity for doing this may be limited due to the decreasing amount of surplus resources that will be available over time as a result of an ever-growing population.[2]
The earliest appearance of a connection between space exploration and human survival appears in Louis J. Halle, Jr.'s 1980 article in Foreign Affairs, in which he stated colonization of space will keep humanity safe should global nuclear warfare occur.[3] This idea has received more attention in recent years as advancing technology in the form of reusable launch vehicles and combination launch systems make affordable space travel more feasible.[4]
Risk to humanity
editExistential risk are risks of human extinction or similarly severe and irreversible outcome.[5] According to the Future of Humanity Institute, "humanity's long track record of surviving natural hazards suggests that, measured on a timescale of a few centuries, the existential risk posed by such hazards is rather small. The great bulk of existential risk in the foreseeable future is anthropogenic; that is, arising from human activity."[6] Toby Ord argues in The Precipice that some such risks include unaligned artificial general intelligence, pandemics (notably from bioterrorism), catastrophic climate change, and global nuclear warfare.[7][8] He views these as more likely than natural existential risks, such as from supervolcano eruptions or meteor impacts.[9]
Some such catastrophes would ruin Earth's biosphere as well. Although many have speculated about life and intelligence existing in other parts of space, Earth is the only place in the universe known to harbor life. Eventually the Earth will become uninhabitable, at the latest when the Sun becomes a red giant in about 5 billion years. Humankind, or its intelligent descendants, if they still exist at that point, must leave the Solar System long before that to ensure survival of the human species.
Space settlement
editHuman extinction can be prevented by strengthening the physical barrier, or increasing the mean distance, between people and the potential extinction event.[citation needed] For example, pandemics are controlled by placing exposed people in quarantine and evacuating healthy people away. The human lineage of genus Homo has reduced from several species co-existing on Earth to just one — all others became extinct before the end of the last Ice age. This illustrates that Homo sapiens is not immune to planetary disaster and that human survival may be better assured through the colonization of space.
Although space colonies do not yet exist, humans have had a continuous space presence since 2000 in the form of the International Space Station. Life support systems that enable people to live in space may also allow them to survive hazardous events.
Multiple locations
editExpanding the living area of the human species increases the mean distance between humans and any known hazardous event. People closest to the event are most likely to be killed or injured; people farthest from the event are most likely to survive. Increasing the number of places where humans live also helps to prevent extinction. For example, if a massive impact event occurred on Earth without warning, the human species could possibly become extinct; its art, culture and technology would be lost. However, if humans had previously colonized locations outside Earth, the opportunities for the survival and recovery of the species would be greater.
Objections
editMany challenges arise when travelling in outer space. One of the biggest issues that may affect the human body is interstellar radiation. While the Earth's magnetic field and atmosphere protects all living forms on the planet, this cannot be said for outer space. According to researchers from the University of Rochester Medical Center, a radiation equivalent to a mission to Mars can cause serious brain damage such as cognition problems and Alzheimer's disease.[10]
Space science
editThe observation and study of space protects Earth, as space hazards can be seen in advance and, if discovered early enough, acted against.
Near-Earth objects
editNear-Earth objects (NEOs) are asteroids, comets and large meteoroids that come close to or collide with Earth. Spaceguard is the collective name for some of the efforts to discover and study NEOs, though these efforts are not sufficiently funded.
Critique
editSome more contemporary reasons for space as a solution to survival have been identified as imperialist reasoning for space exploration, only relocating collective shortcomings and not solving them.[11]
See also
edit- Global catastrophic risks – Hypothetical global-scale disaster risk
- Human outpost – Human habitats located in environments inhospitable for humans
- List of microorganisms tested in outer space
- Planetary habitability – Known extent to which a planet is suitable for life
- Space colonization – Concept of permanent human habitation outside of Earth
- Space habitat – Type of space station, intended as a permanent settlement
- Terraforming – Hypothetical planetary engineering process
References
edit- ^ Curreri, Peter A.; Detweiler, Michael K. (December 2011). "A Contemporary Analysis of the O'Neill-Glaser Model for Space-based Solar Power and Habitat Construction". NSS Space Settlement Journal: 1–27.
- ^ Rees, Martin (2003). Our Final Hour. Basic Books. ISBN 0-465-06862-6. (UK title: Our Final Century)
- ^ Halle, Louis J. (1980-07-01). "A Hopeful Future for Mankind". Foreign Affairs. 58 (5): 1129–1136. doi:10.2307/20040585. JSTOR 20040585.
- ^ spacexcmsadmin (2012-11-28). "Capabilities & Services". SpaceX. Retrieved 2015-11-19.
- ^ "Existential Risks: Analyzing Human Extinction Scenarios". www.nickbostrom.com. Retrieved 2015-11-19.
- ^ "existential risks: threats to humanity's survival". www.existential-risk.org. Retrieved 2015-11-19.
- ^ Walsh, Bryan (March 25, 2020). "What existential risk can teach us about the coronavirus pandemic". Axios.
- ^ "The Precipice Revisited". Toby Ord. 2024-07-12. Retrieved 2024-10-14.
- ^ Anthony, Andrew (2020-04-26). "What if Covid-19 isn't our biggest threat?". The Observer. ISSN 0029-7712. Retrieved 2024-10-14.
- ^ "Houston, We Have Another Problem - Newsroom - University of Rochester Medical Center". www.urmc.rochester.edu. Retrieved 2015-11-19.
- ^ Joon Yun (January 2, 2020). "The Problem With Today's Ideas About Space Exploration". Worth.com. Retrieved 2020-06-28.
Further reading
edit- Pale Blue Dot: A Vision of the Human Future in Space, Carl Sagan, 1994, ISBN 0-679-43841-6
- Realspace: The Fate of Physical Presence in the Digital Age, On and Off Planet, Paul Levinson, 2003, ISBN 0-415-27743-4
- The Survival Imperative: Using Space to Protect Earth, William E. Burrows, 22 August 2006, ISBN 0-7653-1114-3
- Space (also called Hyperspace), BBC documentary narrated by Sam Neill, 2001 (BBC web site)
- The Case for Space: How the Revolution in Spaceflight Opens Up a Future of Limitless Possibility by Robert Zubrin, Prometheus Books (2019) ISBN 9781633885356
External links
edit- Spaceflight or Extinction Academics and other leaders explain that we should colonize space to improve our chance of survival. Authors include Stephen Hawking and Carl Sagan.
- Alliance to Rescue Civilization Non-government organization founded by William E. Burrows, Robert Shapiro and others
- Back up civilization Robert Shapiro's response to Edge's hypothetical request from the American President: "What are the pressing scientific issues for the nation and the world, and what is your advice on how I can begin to deal with them?"
- Colonies in space may be only hope, says Stephen Hawking
- Sagan's rationale for human spaceflight Article about Carl Sagan and human spaceflight