Mars Society

Last updated

The Mars Society
Formation13 August 1998
(26 years ago)
 (1998-08-13)
Founder Robert Zubrin
31-1585646
Legal status Nonprofit organization, 501(c)(3) eligible
FocusAdvocacy for Mars exploration and colonization
Region
Worldwide, with a focus in the United States
Website www.marssociety.org

The Mars Society is a nonprofit organization that advocates for human exploration and colonization of Mars. It was founded by Robert Zubrin in 1998 and its principles are based on Zubrin's Mars Direct philosophy, which aims to make human missions to Mars as feasible as possible. The Mars Society generates interest in the Mars program by garnering support from the public and through lobbying. Many current and former Mars Society members are influential in the wider spaceflight community, such as Buzz Aldrin and Elon Musk.

Contents

Since its founding, the Mars Society has organized events and research activities. It has hosted its annual International Mars Society Convention and operated research projects such as the Flashline Mars Arctic Research Station and the Mars Desert Research Station, both using Mars analog habitats. Both of the stations are placed in remote locations for research. Crew members perform simulated extravehicular activities, carry out research assignments and reside at the station on strictly rationed supplies. The organization also hosts a college robotics competition in Utah called the University Rover Challenge.

Structure

The Mars Society is a 501(c)(3)-eligible nonprofit organization that is funded by donations [1] and operated by volunteers. [2] Membership to the Mars Society is available to all on payment of a small fee. [3] :xvi The society's aims are garnering public support for human Mars missions, lobbying government and space agencies, and verifying mission proposals via Mars analog habitats. [3] :xv–xvi [4] :352 [TMS 1] These goals were set out in the Founding Declaration of the Mars Society. [4] :352

The Mars Society's founder and current president is Robert Zubrin. Notable current and former members of the organization include Buzz Aldrin, [5] Elon Musk, [6] :99–100 Gregory Benford [5] and James Cameron. [7] [4] :347 The society is a member of the Alliance for Space Development [8] and has chapters in Australia, Canada, Europe, Japan, and many other countries. [3] :xv–xvi Since its foundation in 1998, the society organizes the annual International Mars Society Convention, with presentations primarily about Mars exploration and colonization. [9] :273

In the 2019 filing to the Internal Revenue Service, the Mars Society reported to receive around US$400,000 in donations per year. Some noteworthy expenses include the annual Mars Society convention (US$58,800), the Mars Desert Research Station (US$200,000), and the University Rover Challenge (US$46,500). The Mars Society's Taxpayer Identification Number is 31-1585646. [10]

Philosophy and propositions

Video lecture from Robert Zubrin about Mars Direct and critiques on NASA's human Mars mission proposals, as part of Ames Research Center's 75th-anniversary lecture series

Many of the Mars Society's members believe that a human mission to Mars is achievable within a decade (as laid out in Zubrin's Mars Direct) [11] and such a mission would lay the foundation for the colonization of Mars. [12] :10–11 The Mars Direct philosophy has permeated through the society's lobbying efforts. During testimony to the 2009 Augustine Commission, a panel set up by the Obama administration to outline the future of the U.S. space program, Zubrin advocated initiating a lean human Mars program in a similar manner to Mars Direct. The committee was indifferent to the testimony; in the final report, the commission concluded that a human Mars mission in general would "demand decades of investment and carry considerable safety risk to humans". [13]

In 2005, Robert Markley, a science fiction researcher, pointed out that Zubrin used his president of the Mars Society position to espouse his own views on how human missions to Mars should be carried out. To make the Mars Direct plan appealing to the American public, he compared Mars to the Great American Frontier and the colonization of Mars as a way to resolve social stagnation and "Hobbesian despair" on Earth. Mars would be a way to give birth to an ideal society. In effect, Markley commented, Zubrin has created an "interplanetary vision of manifest destiny". Most members of the Mars Society agreed with the less extreme version of Zubrin's ideal, in that colonizing Mars is critical for preventing a dystopian future for humankind. [4] :350–353

Oliver Morton commented in 2003 that the Mars Society is a fundamentally "utopian and escapist organization". He observed that many Mars Society convention participants were unhappy with government space programs. As a consequence, they favored funding alternatives that are often impractical, such as sponsorship deals, private philanthropy, and Martian bonds (on the basis of future resources and profits). [9] :267–272,309–311 Markley commented in 2005 that the Mars Society is somewhat similar to the Royal Society at its founding in the 16th century: "as much of a social club of enthusiasts as a professional scientific organization", [4] :353–354 with influences from science fiction. [4] :23 In a way, he continued, the Mars Direct plan provided a grand vision for future Martian endeavors to follow and the Mars Society is a platform for exploring the implications of Mars colonization. [4] :353–354

Background and founding

The forerunner of the Mars Society was a small network of space enthusiasts colloquially known as the Mars Underground, which emerged around 1978. The members of this network were frustrated by the U.S. administration's lack of attention to Mars exploration. [14] :25 Most members belonging to the group were researchers and graduate students, which included Chris McKay, Penelope Boston, Tom Meyer, Carol Stoker, and Carter Emmart. This is part of the reason some Mars Society members held environmentalism and counterculture ideals. [4] :351 In April 1981, the Mars Underground organized the first Case for Mars convention about Mars exploration at the University of Colorado. The Case for Mars conventions were held every three years [14] :25–27 until the sixth and final one in 1996. [15]

At the now-defunct aerospace company Martin Marietta, Robert Zubrin – who had attended the third Case for Mars convention in 1987 – and engineer David Baker developed the human Mars mission plan, titled Mars Direct. [9] :260 They published their plan for NASA and the public to review in early 1990. [16] The core tenet of the Mars Direct plan is to use existing technologies and eliminate the need for dangerous space rendezvous or an expensive space station. A modified Mars Direct plan (called NASA Design Reference Mission 3.0) was budgeted by NASA at US$20 billion; [14] :117 less than one-twentieth the cost [14] :117 of the Mars mission plan in NASA's Space Exploration Initiative (US$250–500 billion). [15]

In 1996, Zubrin published The Case For Mars, the same year as the last Case for Mars convention took place. [17] The book criticized prior Mars exploration mission proposals for being too costly and complicated, proposed an alternative mission plan based on the Mars Direct plan, gave philosophical arguments for it and rebutted criticisms of the plan. [18]

The Mars Society was founded by Zubrin on 13 August 1998 [TMS 2] during the Mars Society's first convention in Boulder, Colorado, [17] the same place where the first Case for Mars convention took place 17 years earlier. [9] :259–260 With a duration of four days, the convention was attended by 750 persons [17] and can be seen as a successor to the prior Case for Mars conventions. [14] :27 Some of those invited were from the Mars Underground or had written to Zubrin about The Case For Mars. [17] The Mars Society's founding convention in August 1998 emphasized its focus on the Mars Direct plan and efforts of lobbying the government, [17] holding that there was no technical reason that would prevent a human mission to Mars within a decade. [19] The first convention saw the signing of the Founding Declaration of the Mars Society which outlined primary goals for the society, amidst rifts between Mars Society members' Martian ideals. [4] :352

On the second day of the convention, there was an intense debate about the ethics of Mars terraforming, which science writer Oliver Morton described as 'rancorous'. The moderator of the debate was Chris McKay. On one side of the debate were Zubrin and a few other people, who championed that terraforming is the end goal of Mars colonization. On the other side of the debate, the audience reminded them that for life on Mars, the act of terraforming will be similar to that of Native American genocide. [9] :309–311 The terms ' Lebensraum ' and 'manifest destiny' used by the Zubrin side were prohibited in later conventions. [9] :311 The next few conventions organized additional debates between proponents of nuclear power/terraforming and environmentalists. [4] :352

Past activities

Musk giving details about Falcon 9 and Dragon spacecraft at the 2006 Mars Society convention Elon Musk at MSC 2006.jpg
Musk giving details about Falcon 9 and Dragon spacecraft at the 2006 Mars Society convention

In mid-2001, the Mars Society received a US$5,000 check from Elon Musk at a fundraiser event. [6] :99–100 After briefly researching Mars concepts and missions, Musk joined the Mars Society's board of directors and gave it US$100,000. [6] :112 In August 2001, Musk left the Mars Society after a meeting with its members and established a temporary foundation for his publicity projects, [20] despite pleas for collaboration from Zubrin. [21] In a public presentation at the 4th Mars Society convention, Musk stated that the Mars Society might have a purpose in his efforts. [21] By April 2002, Musk had abandoned the temporary foundation entirely; instead, he founded SpaceX to build a low-cost rocket and invited aerospace engineers whom he had met at Mars Society-sponsored trips. [6] :112 In the following years, Musk kept in contact with the Mars Society, as is evident in his presentation of the Falcon 1 rocket in 2008, [22] his acceptance of the Mars Pioneer Award from the society in 2012 [TMS 3] and his presentation at the society's 2020 convention. [23]

After the first convention, the Mars Society decided to construct a Mars analog facility named Flashline Mars Arctic Research Station (FMARS) on Devon Island, Nunavut, Canada. The FMARS is the second Mars analog facility in the world; the first one is the Haughton–Mars Project. Some of FMARS's construction cost was paid by the Mars Society and the Haughton–Mars Project team. [24] :74–75 Other funding came from commercial sponsorship, such as with the Discovery Channel. [25] FMARS was first occupied during a test run in July and August 2000. [26] :98–99 It began the first simulated mission around 2001. [25] The money donated by Elon Musk was spent on the next Mars analog habitat, called the Mars Desert Research Station (MDRS). [27] In December 2001, [24] :74–75 the habitat's construction near Hanksville, Utah, [28] :4 was completed. [24] :74–75

From 2001 to 2005, Mars mission simulations in FMARS were around 2–8 weeks long and consisted of ten rotated crews. The first four-month-long mock mission took place in 2007, which revealed cultural conflicts and inadequate coping strategies. Shorter missions were carried out in 2009 and 2013, before another long-duration mission called Mars 160 was conducted in 2017, in collaboration with the MDRS. The crew stayed in MDRS for eighty days before being transferred to FMARS, rotating the crew every month. [26] :99,101 As of April 2020, the MDRS had hosted nineteen field seasons (one per year) totaling 236 crews, with each crew consisting of six or seven members. [26] :101

The society also formulated plans to launch space-based experiments, which never materialized. In 2001, after a discussion between Zubrin, Musk and the board members, the Mars Society announced the Translife Mission, later renamed to the Mars Gravity Biosatellite. [6] :99–100 The mission aimed to study the effect of Martian-level gravity on mice, with satellite construction supported by students from the Massachusetts Institute of Technology (MIT) and Georgia Tech. [TMS 4] In August 2008, the Mars Society announced the project TEMPO3 after a preliminary selection of proposals. TEMPO3 was conceived as a system of two CubeSats attached to a tether and spun with carbon dioxide-powered thrusters, aimed to demonstrate rotational artificial gravity system in space. [TMS 5] Neither of these proposals were built: the Mars Gravity Biosatellite was canceled in June 2009 due to a lack of funding [TMS 4] and no further development of TEMPO3 has been reported since the initial proposal.

At the Mars Society's 2015 convention, a debate was organized between two representatives of Mars One (CEO Bas Lansdorp and Barry Finger) and two researchers from MIT (Sydney Do and Andrew Owens). [29] Mars One, a now-defunct non-profit organization founded in 2011, aimed to establish a human settlement on Mars through a one-way mission called Mars to Stay. The MIT researchers criticized the plan as infeasible and suicidal. [30] According to Dwayne A. Day from The Space Review , the MIT team won the debate by making specific and realistic arguments. He also noted that the popularity of Mars One had dwarfed that of the Mars Society, stating that the perceived absurdness of Mars One may potentially be detrimental to the Mars Society's reputation. [29]

In 2021, around a week before the first crewed New Shepard mission, Blue Origin donated US$1 million to the Mars Society and 18 other space-related organizations. The donation money came from a seat auction in that New Shepard flight. The donation vastly exceeded the Mars Society annual revenue, which was reported to be less than $400,000 in a filing with the Internal Revenue Service. [31]

Current projects

Mars Desert Research Station, with a central habitat, rover hangar, dome, greenhouse and an observatory Mars Desert Research Station (10.3897-BDJ.8.e55063) Figure 1 a.jpeg
Mars Desert Research Station, with a central habitat, rover hangar, dome, greenhouse and an observatory

The Mars Society's premier project is the Mars Analog Research Station Program. The program aims to further the understanding of Mars missions' technical and human factors via its two Mars analog habitats: the Flashline Mars Arctic Research Station (FMARS) and the Mars Desert Research Station (MDRS). [32] The FMARS is located on Devon Island in Canada and near the Haughton impact crater, [26] :98,101 above the 75th parallel north where the island is uninhabited and barren. The MDRS is located near Hanksville, Utah, where the habitat is isolated from civilization. Both stations' locations are chosen for the landscape similarities with Mars. [28] :4 Because these stations are meant for research, both FMARS and MDRS are closed to public visits. [19] These stations are staffed by volunteers with degrees in planetary science, geology, and engineering. [4] :353

The Mars Society has plans to build additional analog stations. The Euro-MARS, operated by the Mars Society's European chapter, was intended to have three decks and more extensive facilities. However, during transport from the United Kingdom to the deploying location at Krafla, Iceland, the Euro-MARS sustained irreparable damage. It was reported in 2017 that Euro-MARS was back at the planning phase, but no further updates about the station are available. [33] :5–6 The Mars Society is also planning to build another Mars analog station in Arkaroola, Australia, as of October 2022. [TMS 6] The station would replicate a spacecraft launching directly from the Earth's surface, featuring a mock propulsion module, heat shield and landing engines. [33] :5–6

A challenge in the University Rover Challenge where rovers have to pour fuel into a generator Mars Society University Rover Challenge Equipment Task.jpg
A challenge in the University Rover Challenge where rovers have to pour fuel into a generator

As well as research, the Mars Society organizes the Rover Challenge Series, a group of annual university competitions for making mock Martian rovers. Around May and June each year, the three-day University Rover Challenge takes place in Utah's desert near the MDRS where teams compete in exploration tasks. The rover's operators must only use sensor data for navigation, similar to actual Martian rovers. Similar regional competitions that belong to the Rover Challenge Series include the European Rover Challenge, the Canadian International Rover Challenge and the Indian Rover Challenge. [34] :63–72

MarsVR Project is a virtual reality program that simulates MDRS and terrain one square mile around the base. The program was made in collaboration with a local virtual reality company. [35] MarsVR is used to train MDRS's crews by simulating the use of spacesuits, airlocks, rovers and activities such as cooking. The software can also simulate playing sports on Mars such as soccer and mountaineering. [35] The exploration portion of MarsVR is free to download on Steam, however, the training part has an attached cost for the public. [36]

In 2023, the Mars Society established the non-profit Mars Technology Institute and the corresponding C corporation Mars Technology Lab to research solutions for labor, agriculture, and energy problems in the colonization of Mars. The Institute plans to outsource research to universities before building its own campus. [37]

See also

Related Research Articles

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References

Primary sources

  1. "About the Mars Society". Mars Society. Archived from the original on 1 May 2022. Retrieved 19 July 2022.
  2. The Mars Society members (1999). Zubrin, Robert M.; Zubrin, Maggie (eds.). Proceedings of the Founding Convention of the Mars Society: held August 13–16, 1998, Boulder, Colorado. Univelt. Citation at the title. ISBN   9780912183121. OCLC   47665501.
  3. Musk, Elon (10 August 2012). "Mars Pioneer Award" Acceptance Speech – 15th Annual International Mars Society Convention (Videotape). The Mars Society. Archived from the original on 9 December 2023. Retrieved 9 December 2023.
  4. 1 2 Cowing, Keith (24 June 2009). "The Mars Gravity Biosatellite Program Is Closing Down". SpaceRef. Archived from the original on 1 April 2024. Retrieved 22 August 2015.
  5. Hill, Tom; Kirk, Alex (25 August 2008). "The Space Review: TEMPO^3: the Mars Society's newest project". The Space Review . Archived from the original on 20 November 2023. Retrieved 8 December 2023.
  6. Stoltz, Michael (29 October 2022). "Building a Mars Analog "Down Under"". The Mars Society. Archived from the original on 31 December 2022. Retrieved 31 December 2022.

Other sources

  1. Bichell, Rae Ellen (6 July 2017). "To Prepare For Mars Settlement, Simulated Missions Explore Utah's Desert". NPR . Archived from the original on 31 December 2022. Retrieved 31 December 2022.
  2. McGrath, Dianne (9 April 2020). "What a simulated Mars mission taught me about food waste". The Conversation . Archived from the original on 1 January 2023. Retrieved 1 January 2023.
  3. 1 2 3 Pletser, Vladimir (2018). On To Mars!: Chronicles of Martian Simulations. Springer Nature. Bibcode:2018otm..book.....P. doi:10.1007/978-981-10-7030-3. ISBN   978-981-10-7030-3. Archived from the original on 31 December 2022. Retrieved 31 December 2022.
  4. 1 2 3 4 5 6 7 8 9 10 11 Markley, Robert (2005). Dying Planet: Mars in Science and the Imagination. Duke University Press. ISBN   978-0-8223-3600-6.
  5. 1 2 Goodyear, Dana (19 October 2009). "Man of Extremes". The New Yorker . Archived from the original on 11 July 2022. Retrieved 20 July 2022.
  6. 1 2 3 4 5 Vance, Ashlee (2015). Elon Musk: Tesla, SpaceX, and the Quest for a Fantastic Future. HarperCollins. ISBN   978-0-06-230123-9. OCLC   881436803.
  7. Michaud, Jon (8 March 2012). "James Cameron Goes Deep". The New Yorker . Archived from the original on 16 December 2017. Retrieved 7 April 2024.
  8. Foust, Jeff (26 February 2015). "New Alliance to Promote Space Development and Settlement". SpaceNews . Archived from the original on 19 July 2022. Retrieved 19 July 2022.
  9. 1 2 3 4 5 6 Morton, Oliver (2003). Mapping Mars: Science, Imagination, and the Birth of a World. Picador. ISBN   978-0312422615.
  10. Roberts, Brandon; Suozzo, Andres; Glassford, Alec; Ngu, Ash (27 August 2019). "Mars Society Inc, Full Filing – Nonprofit Explorer". ProPublica . p. 1-2. Retrieved 7 April 2024.
  11. Blakeslee, Sandra (18 August 1998). "Society Organizes to Make a Case for Humans on Mars". The New York Times . ISSN   0362-4331. Archived from the original on 17 July 2022. Retrieved 17 July 2022.
  12. Rapp, Donald (2016). Human Missions to Mars: Enabling Technologies for Exploring the Red Planet (2nd ed.). Springer Science+Business Media. ISBN   978-3-319-22249-3. OCLC   927404673.
  13. Benson, Eric; Nobel, Justin (9 January 2010). "Mars or Bust". Guernica . Archived from the original on 2 January 2023. Retrieved 2 January 2023.
  14. 1 2 3 4 5 Hogan, Thor (May 2007). "Mars Wars – The Rise and Fall of the Space Exploration Initiative" (PDF). NASA (PDF). Archived from the original (PDF) on 25 June 2009. Retrieved 17 July 2022.
  15. 1 2 S. F. Portree, David (March 2000). "The Road to Mars..." Air & Space/Smithsonian . Archived from the original on 20 January 2022. Retrieved 18 July 2022.
  16. Portree, David S. F. (15 April 2013). "Mars Direct: Humans to Mars in 1999! (1990)". Wired . Archived from the original on 11 February 2021. Retrieved 17 July 2022.
  17. 1 2 3 4 5 Blakeslee, Sandra (18 August 1998). "Society Organizes to Make a Case for Humans on Mars". The New York Times . ISSN   0362-4331. Archived from the original on 17 July 2022. Retrieved 17 July 2022.
  18. Spitzmiller, Ted (1 November 2007). "Book Review: The Case for Mars". National Space Society . Archived from the original on 1 January 2023. Retrieved 1 January 2023.
  19. 1 2 Conroy, J. Oliver (17 February 2022). "Life on 'Mars': the strangers pretending to colonize the planet – in Utah". The Guardian . Archived from the original on 17 July 2022. Retrieved 17 July 2022.
  20. McKnight, John Carter (25 September 2001). "MarsNow 1.9 Profile: Elon Musk, Life to Mars Foundation". SpaceRef. Retrieved 1 January 2023.
  21. 1 2 Cowing, Keith (30 August 2001). "Millionaires and billionaires: the secret to sending humans to Mars?". SpaceRef. Retrieved 7 April 2024.
  22. Foust, Jeff (8 September 2008). "Looking (far) ahead". The Space Review . Archived from the original on 3 January 2023. Retrieved 3 January 2023.
  23. Mack, Eric (16 October 2020). "Elon Musk will share his latest moon and Mars plans with all Earthlings today". CNET . Archived from the original on 1 April 2024. Retrieved 1 January 2023.
  24. 1 2 3 Bishop, Sheryl L. (2011). "From Earth Analogs to Space: Getting There from Here". In Vakoch, Douglas A. (ed.). Psychology of Space Exploration (PDF). NASA. pp. 47–77. ISBN   978-0-16-088358-3. Archived (PDF) from the original on 7 August 2021. Retrieved 19 July 2022.
  25. 1 2 Hall, James (8 March 2002). "Finding Mars on Earth". Science . Archived from the original on 19 July 2022. Retrieved 19 July 2022.
  26. 1 2 3 4 Häuplik-Meusburger, Sandra; Bishop, Sheryl; O’Leary, Beth (2021). Vakoch, Douglas A. (ed.). Space Habitats and Habitability: Designing for Isolated and Confined Environments on Earth and in Space (1st ed.). Springer Science+Business Media. ISBN   978-3030697396.
  27. Messeri, Lisa (9 September 2016). Placing Outer Space: An Earthly Ethnography of Other Worlds. Duke University Press. p. 200, note 19. ISBN   978-0-8223-6187-9. OCLC   926821450.
  28. 1 2 Cusack, Stacy L. (1 January 2010). Observations of Crew Dynamics during Mars Analog Simulations (PDF). NASA Project Management Challenge 2010. Archived (PDF) from the original on 18 July 2022. Retrieved 18 July 2022 via NASA Technical Reports Server.
  29. 1 2 Day, Dwayne (17 August 2015). "Red planet rumble". The Space Review . Archived from the original on 12 June 2019. Retrieved 2 January 2023.
  30. Grush, Loren (18 August 2015). "Mars One debates MIT: CEO Bas Lansdorp still doesn't have a plan to reach the planet". The Verge . Archived from the original on 2 January 2023. Retrieved 2 January 2023.
  31. Foust, Jeff (15 July 2021). "Blue Origin donates New Shepard auction proceeds to space nonprofit groups". SpaceNews . Retrieved 7 April 2024.
  32. Weinersmith, Kelly; Weinersmith, Zach (27 December 2023). "The Beautiful Desolation of Life on Mars — On Earth". The New York Times . Archived from the original on 27 December 2023. Retrieved 27 December 2023.
  33. 1 2 Vargas-Cuentas, Natalia I.; Roman-Gonzalez, Avid (June 2017). The 'Salar de Uyuni' as a simulated Mars base habitat in South America. Global Space Exploration Conference. Archived from the original on 22 July 2020. Retrieved 20 July 2022 via HAL (open archive).
  34. Wieczorek, Luiza; Piech, Wiktor; Cybulski, Bartłomiej; Kujawiński, Mateusz; Węgierska, Agnieszka (30 December 2018). "Participation in international robotics competitions as a new form of student travel". Turyzm (Tourism). 28 (2): 63–72. doi: 10.2478/tour-2018-0016 . hdl: 11089/27873 . ISSN   2080-6922. Archived from the original on 3 January 2023. Retrieved 3 January 2023.
  35. 1 2 Murphy, Jen (1 July 2022). "Why Sports in Space Could Be the Next Big Thing". The Wall Street Journal . ISSN   0099-9660. Archived from the original on 18 July 2022. Retrieved 19 July 2022.
  36. Rayome, Alison DeNisco (3 March 2020). "The future of Mars colonization begins with VR and video games". CNET . Archived from the original on 24 June 2022. Retrieved 20 July 2022.
  37. Boyle, Alan (7 September 2023). "Mars Society unveils its plan to establish technology institute, perhaps in Seattle". GeekWire . Archived from the original on 19 November 2023. Retrieved 8 December 2023.