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  • Written by Cheyenne Black, Graduate Research Assistant in the Institute for Public Policy Research and Analysis, University of Oklahoma
US participation in space has benefits at home and abroad − reaping them all will require collaboration

When people think about what we get from the U.S. space program, it may be along the lines of NASA technology spin-offs such as freeze-dried food and emergency space blankets[1].

But space activities do much more that benefits life on Earth. Research in space helps scientists study our environment, develop new technologies, create jobs, grow the economy and foster international collaboration.

Of course, with reports of Russia developing an anti-satellite nuclear weapon[2], members of Congress and the media have focused their attention on space defense and military readiness.

This is critical, but there are still many other benefits to reap from space. Getting the most out of U.S. space involvement will require collaborating across various social, environmental, commercial, governmental, international and technological backgrounds.

As a space policy scholar focused on private-public partnerships, networks and coalitions, I’ve seen that policymakers can get the most out of U.S. space endeavors if they invite a wide array of experts into policy discussions.

Benefits on Earth

NASA satellites play a crucial role in documenting changes[3] in global temperatures, sea-level rise, arctic ice extent and air quality[4]. Satellites have also been collecting data for almost 50 years to monitor water use, crop health and crop production[5]. These long-term observations help researchers track environmental changes across the globe.

Space research provides a wide array of technologies in addition to rockets and Moon landers. Cellphone cameras, CAT scanners, the computer mouse, laptops, wireless headsets and water purification systems are just a few[6] public goods NASA has generated.

These spin-off technologies come from NASA’s partnerships with private firms[7], which subsequently make scientific discoveries widely available and accessible.

Growing the space economy

Experts predict that the space sector will continue driving the development of[8] nonspace industries. Agriculture, energy, mining, transportation and pharmaceuticals are just some of the sectors that benefit through spin-off technologies and space-based research.

For example, scientists can conduct experiments on the International Space Station using the microgravity of space[9] to study the chemistry of drugs, improve medications and test cancer treatments.

A woman smiles while working on an experiment aboard the International Space Station.
NASA astronaut Serena Auñón-Chancellor works on the Angiex cancer therapy study that aims to test a more effective and safer treatment targeting tumor cells and blood vessels. NASA

More organizations and individuals than ever share a vested interest in the space sector’s success. Experts anticipate the global space economy[10] – the resources used in space for activities – and research and development will continue to grow to a market of US$1.4 trillion by 2030[11].

Commercialization policies[12] opened U.S. space activities to the private sector. This has led to partnerships with companies, such as SpaceX, Blue Origin and others, that are growing the space economy.

These companies have increasingly launched rockets and deployed satellites[13] in recent years. This has increased the need for workers, both in manufacturing positions and specialized STEM roles. Additionally, private companies and universities are partnering to develop[14] various technologies, such as landing systems for a U.S. return to the Moon.

A cylindrical rocket emitting a plume of flame launches upwards in a haze of smoke. SpaceX’s Starship rocket launched in March 2024. More commercial companies, like SpaceX, have partnered with NASA in recent years. AP Photo/Eric Gay[15]

Communities that host space industry centers have seen economic and educational benefits. For example, Huntsville, Alabama, home of the Marshall Space Flight Center and the U.S. Space and Rocket Center, has attracted an educated workforce with one of the highest rates[16] of engineers per capita. Almost half of residents[17] over the age of 25 in Huntsville have a bachelor’s degree or higher.

An aerial view of three buildings. The Marshall Space Flight Center in Huntsville, Ala. NASA[18]

This rate starkly contrasts with the national average, where 37% have at least a bachelor’s degree[19], and the state’s 27% average[20]. Additionally, Huntsville’s annual median household income is $8,000 higher[21] than the Alabama average[22].

Since 1982, Huntsville has also hosted over 750,000 students[23] at the U.S. Space and Rocket Center space camp. This camp educates students about science, technology, engineering and leadership to prepare them for a potential future STEM career.

International collaboration

Space also provides an opportunity for the U.S. to collaborate with other countries.

For example, the U.S. works jointly with Italy to observe the impacts of air quality[24] on human health. The James Webb Space Telescope, a result of partnerships between NASA, the European Space Agency and the Canadian Space Agency, allows scientists to peer into previously unobserved parts of the cosmos[25]. International collaboration has also established the Artemis Accords[26], a set of principles agreed to by 40 countries for peaceful, sustainable and transparent cooperation in space.

Getting the most out of space

Right now, U.S. space policymaking occurs at the federal and international level[27]. And while people outside of the government can act as witnesses during congressional hearings or through advocacy groups[28], that involvement may not be enough to represent the wide spectrum of viewpoints and interests in space policy.

There are a few ways policymakers can receive input from different stakeholders. These might include inviting more experts from various policy areas to provide recommendations in congressional hearings, collaborating with advocacy coalitions to create sustainable policies, strengthening and expanding private-public partnerships, and setting a space agenda that emphasizes research and development.

References

  1. ^ emergency space blankets (en.wikipedia.org)
  2. ^ reports of Russia developing an anti-satellite nuclear weapon (www.whitehouse.gov)
  3. ^ documenting changes (theconversation.com)
  4. ^ air quality (climate.nasa.gov)
  5. ^ water use, crop health and crop production (svs.gsfc.nasa.gov)
  6. ^ just a few (www.jpl.nasa.gov)
  7. ^ partnerships with private firms (www.nasa.gov)
  8. ^ driving the development of (www.mckinsey.com)
  9. ^ microgravity of space (www.nasa.gov)
  10. ^ space economy (space-economy.esa.int)
  11. ^ US$1.4 trillion by 2030 (www.nasdaq.com)
  12. ^ Commercialization policies (www.spacefoundation.org)
  13. ^ launched rockets and deployed satellites (www.spacefoundation.org)
  14. ^ develop (www.nasa.gov)
  15. ^ AP Photo/Eric Gay (newsroom.ap.org)
  16. ^ highest rates (science.msfc.nasa.gov)
  17. ^ Almost half of residents (www.census.gov)
  18. ^ NASA (en.wikipedia.org)
  19. ^ 37% have at least a bachelor’s degree (www.census.gov)
  20. ^ state’s 27% average (www.census.gov)
  21. ^ $8,000 higher (www.census.gov)
  22. ^ Alabama average (www.census.gov)
  23. ^ 750,000 students (www.rocketcenter.com)
  24. ^ observe the impacts of air quality (maia.jpl.nasa.gov)
  25. ^ previously unobserved parts of the cosmos (www.nasa.gov)
  26. ^ Artemis Accords (www.state.gov)
  27. ^ federal and international level (csps.aerospace.org)
  28. ^ advocacy groups (astronautical.org)

Authors: Cheyenne Black, Graduate Research Assistant in the Institute for Public Policy Research and Analysis, University of Oklahoma

Read more https://theconversation.com/us-participation-in-space-has-benefits-at-home-and-abroad-reaping-them-all-will-require-collaboration-226278

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