(2019 Archived) - Bibliography and Picture Credits for Venusian Colonization Threads

 

New Bibliography (Old Below)

 

2.        Sparrows, G. (2013). Constellations: A Field Guide to the Night Sky. [Quercus Editions ltd].

3.        Sagan, C. (1994). Pale Blue Dot: A vision of the human future in space. [Ballantine Books; the Random House Publishing Group]. Pages 138-148.

4.        Sagan, C. (1995). Cosmos. [London: Abacus].  Pages 110-118, & Pages 127-131.

5.        Wikipedia (at 2019, February) Retrieved from (https://en.wikipedia.org/wiki/geodesic_domes).

6.        Wikipedia (at 2019, February) Retrieved from [https://en.wikipedia.org/wiki/cloud_nine_(tensegrity_sphere) ].

7.        Baldwin, J. (1997). Buckyworks: Buckminster Fuller’s ideas for today. [John Wiley and Sons]. Page 190.

8.        Walker, R. (2014, January 12). Will we build colonies that float over Venus like Buckminster Fuller’s “Cloud Nine?”  Retrieved from (https://www.science20.com/robert_inventor/will_we_build_colonies_that_float_over_venus_like_ buckminster_fullers_cloud_nine-127573).

9.        Wikipedia (at 2019, February). Retrieved from (https://en.wikipedia.org/wiki/global_catastrophic_risk ).

10.      Williams, M. (2016, January 1). How strong is gravity in other planets? Retrieved from (https://phys.org|news/2016-01-strong-gravity-planets.html).

11.      [Official Paper]:- Wikram, L.A. (2006). Human Performance Considerations for Mars mission [Paper available online and for download at https://www.apu.edu/static/src/sites/research-science/downloads/human performance mars mission.pdf]

12.      Dunbar, B. (2018, June 11). The Human body in space. Retrieved from (https://www.nasa.gov/nrp/body_in_space).

13.      Walker, R. (2017, April 17). Why not simply create a ship with artificial gravity for the journey to Mars? Retrieved from (https://www.quora.com/why-not-create-a-ship-with-artificial-gravity-for-the-journey-to-mars).

14.      [Official Paper]:- Landis, G.A. & Colozza, A. & LaMarre, C.M. (2002, June). Atmospheric flight on Venus.

15.      Wikipedia (at 2019, February). Retrieved from (https://en.m.wikipedia.org/wiki/Mars).

16.      [Official Paper]:- Landis, G.A. (2010, January). Low-altitude Exploration of the Venus atmosphere by Balloon. [Paper available online and for download at https://ntrs.gov/search.jsp?R=20110016033].

17.      Wikipedia (at 2019, February). Retrieved from (https://en.m.wikipedia.org/wiki/Venus).

18.      Wikipedia (at 2019, February). Retrieved from (https://en.m.wikipedia.org/wiki/Hellas_Planitia).

19.      Wikipedia (at 2019, February). Retrieved from (https://en.m.wikipedia.org/wiki/Noachian ).

20.      [Official Paper]:-  Hassler, D.M. & Zeitlin, C. &Wimmer-Schweingruber, R.F. &Ehresmann, B. &Rafkin, S. &Eigenbrode, J.L. &Brinza, D.E. &Weigle, G. &Böttcher, S. &Böhm, E. &Burmeister, S. &Guo, J. &Köhler, J. & Martin, C. & Reitz, G. &Cucinotta, F.A. & Myung-Hee, K. &Grinspoon, D. & Bullock, M.A. & Posner, A. & Gómez-Elvira, J. &Vasavada, A. &Grotzinger, J.P. & MSL Science Team. (2013, November 12). Mars’ Surface Radiation Environment Measured with the Mars Science Laboratory’s Curiosity Rover.

21.      Green, L. (2016). 15 million Degrees: a journey to the centre of the Sun. [Viking; Penguin Random House, UK]. Pp 221-225.

22.      Dunbar, B. (2018, June 11). The Human body in space. Retrieved from (https://www.nasa.gov/nrp/body_in_space).

23.      [Official Paper]:- Wikram, L.A. (2006). Human Performance Considerations for Mars mission [Paper available online and for download at https://www.apu.edu/static/src/sites/research-science/downloads/human performance mars mission.pdf].

24.      [Official Paper]:- Dartnell, L.R. & Nordheim, T.A. & Patel, M.R. & Mason, J.P. & Coates, A.J. & Jones, G.H. (2015, September) Constraints on a potential aerial biosphere on Venus.I.Cosmic Rays. [Paper available online and for download at: http://researchgate.net/publication/278333688_constraints_ on_ a_ potential_ aerial_ biosphere_ on_ Venus_I_Cosmic_ Rays].

25.      Wikipedia (at 2019, February). Retrieved from (https://en.m.wikipedia.org/wiki/Global_Catastrophic_Risk ).

26.      Sharp, T. (2017, December 14). How far away is Mars?

Retrieved from (https://www.space.com/16875-how-far-away-is-mars.html).

27.      Redd, N.T. (2012, November 16). How far away is Venus? Retrieved from (https://www.space.com.cdn.ampproject.org).

28.      Wikipedia. (2019, February). Retrieved from ( https://en.wikipedia.org/wiki/hohmann_transfer_orbit)

29.      NASA Science Mission Directorate. (). Basics of Spaceflight: Trajectories. [Retrieved from https://solarsystem.nasa.gov/basics/chapter4-1/].

30.      Williams, M. (2017, April 7). When will Mars be close to Earth? Retrievedfrom (https:// www.universetoday.com/1480/when-will-mars-be-close-to-earth-1).

31.      Cain, F. (2017, March 16). How long does it take to get to Mars? Retrieved from (https://www.universetoday.com/1481/how-long-does-it-take-to-get-to-mars/).

32.      [Official Paper]:- Levine, J.S. (2017). Dust in the atmosphere of Mars and its impact on human exploration: A review of earlier studies. [Paper available online and for download at https://www.hou.ursa.edu/meetings/marsdust2017/pdf/6007.pdf].

33.      David, L. (2013, January 13). Toxic Mars: Astronauts must deal with perchlorate on the Red planet. [Retrieved from https://www.space.com/21554-mars-toxic-perchlorate-chemicals.html].

34.      He, H.&Gao, H.&Chen, G.&Li, H.&Lin, H.&Shu, Z. (2013, May 15). "Effects of perchlorate on growth of four wetland plants and its accumulation in plant tissues". Retrieved from Environmental Science and Pollution Research International, Volume 20, Issue 10, pp 7301–7308. [Retrieved fromhttps://link.springer.com/article/10.1007%2Fs11356-013-1744-4].

35.      The Guardian. (2018, November 27). Mars covered in toxic chemicals that can wipe out living organisms, tests reveal. [Retrieved from https://www.theguardian.com/sciences/2017/jul/06/mars-covered-in-toxic-chemicals-that-can-wipe-out-living-organisms-tests-reveal].

36.      The National Research Council. (2002).Safe on Mars: Precursor measurements necessary to support human operations on the Martian Surface. Chapters 3-4; pages 15-36.

37.      Hecht, J. (2007, March 9). Martian Dust might be hazardous to your health. [New Scientist]. Earth & Planetary Sciences Letters, volume 225, page 41.

38.      [Official Paper]:- Yung, Y.L. & Yang, D. & Lee, C. & Liang, M.C. & Chen, P. (2016, September 2). The Sulfur Cycle on Venus: New insights from Venus Express. [Paper available online and for download at https://www.researchgate.net/publication|252473703704_the_sulfur_cycle_on_venus_new_insights_from_venus_express].

39.      [Official Presentation]:- Arney, D. & Jones, C. (2015). HAVOC: High Altitude Venus Operational Concept – An Exploration Strategy for Venus. SPACE 2015: AIIA Space and Astronautics Forum and Exposition. 31 August- 2 September, 2015. Pasadena, California. [Paper available online and for download at https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20160006329].

40.      [Official Paper]:- Landis, G.A. (2010, January). Low-altitude Exploration of the Venus atmosphere by Balloon. [Paper available online and for download at https://ntrs.gov/search.jsp?R=20110016033].

41.      [Official Paper]:- Wikram, L.A. (2006). Human Performance Considerations for Mars mission [Paper available online and for download at https://www.apu.edu/static/src/sites/research-science/downloads/human performance mars mission.pdf].

42.      Wikipedia (at 2019, February). Retrieved from (https://en.wikipedia.org/wiki/planetary_protection).

43.      Walker, R. (2014, January 12). If there is life on Venus Cloud Tops-Do we need to protect Earth- or Venus- Could returned XNA mean goodbye DNA for instance? Retrieved from (https://www.science20.com/robert_inventor/blog/if_there_life_in_venus_cloud_tops_do_we_need_to_protect_earth_or_venus_could_returned_xna_mean_goodbye__).

44.      Wikipedia (at 2019, February). Retrieved from (https://en.wikipedia.org/wiki/Life_on_venus).

45.      Mars One. (Retrieved at 2019 February). Dr.ir. Wieger Wamelink (NL). Retrieved from (https://www.mars-one.com/about-mars-one/advisers/dr.-ir.-wieger-wamelink-nl).

46.      Wageningen University. (2016, September 2). Dinner of Mars and Moon vegetables well received. [Retrieved from https://www.wur.nl/en/newsarticle/dinner-of-mars-and-moon-vegitables-well-recieved].

47.      Wageningen University. (2016, July 26). The Martian becomes reality: at least four crops grown on simulated Mars soil are edible. [Retrieved from https://www.wur.nl/en/news article/the-Martian-becomes-reality-at-least-four-crops-grown-on-simulated-Mars-soil-are-edible.htm].

48.      Wageningen University. (2017, November 27). Earthworms can reproduce in Mars soil stimulant. [Retrieved from https://www.wur.nl/en/newsarticle/Earthworms-can-reproduce-in-Mars-soil-simulant.htm].

49.      Wikipedia (at 2019, February).Retrieved from (https://en.m.wikipedia.org/wiki/oxygen_toxicity).

50.      Wikipedia (at 2019, February).Retrieved from (https://en.wikipedia.org/wiki/claus_process ).

51.      Kurzgesagt-in a nutshell. ().  Retrieved from (https://www.youtube.com/watch?v=NtQkz0aRDe8&t=243s ).

52.      Encyclopaedia Britannica. (). Venus. Retrieved from (https://www.britannica.com/place/venus_planet).

53.      [Official Paper]:- Landis, G.A. & Colozza, A. & LaMarre, C.M. (2002, June). Atmospheric flight on Venus.

54.      [Official Paper]:- Landis, G.A. & Kenneth, C. (2007). Venus Surface Power and Cooling Systems. [Paper available online at http://www.sciencedirect.com].

55.      Engheim, E. (2018, June 27). Geology and metal extraction from Venus planetary surface. Retrieved from (https://medium.com/@jernfrost/geology-and-metal-extraction-from-Venus-planetary-surface-5dc363f903f6).

56.      Wikipedia (at 2019, February). Retrieved from (https://en.wikipedia.org/wiki/cryolite ).

57.      Zubrin, R. (1996, May/June). The Promise of Mars. (From ad astra). Retrieved from (https:/space.nss.org/the-promise-of-mars-by-robert-zubrin/). 

58.      Mehyar, M. & Madanat, M. (2015). Basalt. Retrieved from (https://www.memr.gov.jo).

59.      ‘Data Research Analyst’. (). Industrial applications of Sulfuric acids. Retrieved from (https://www.worldofchemicals.com/430/Chemistry_articles/industrial-applications-of-sulfuric-acid.html).

60.      Menon, R. (2017, November 22). What’s the role of H2SO4 in etherification? Retrieved from (https://www.quora.com/what-is-the-role-of-H2SO4-in-etherification).

61.      Hydrogen Sulphide and Carbonyl Sulphide. (). Retrieved from (https://www.atsdr.cdc.gov>tp114-c5).

62.      Royal Society of Chemistry. (2019). Periodic Table: Carbon. Retrieved from (http://www.rsc.org/periodic-table/element/6/carbon).

63.      Joel Pearman.(2016, November 10). What is Sulfur? What are some uses? Retrieved from (https://www.quora.com/What-is-sulfur-What-are-some-uses).

64.      Ulrich, T. (2017, January). Can building materials be extracted from Venus’s atmosphere? Retrieved from (https://www.quora.com/can-building-materials-be-extracted-from-venuss-atmosphere).

65.      Moskalenko, G. (1981). Airship for Venus. “Science and Life”, no.9, pp.85-87. (Originally in Russian). Retrieved from (https://epizodyspace.ru/bibl/n_i_j/1981/9/9-dir.html).

66.      [Official Paper]:- Landis, G.A. & Colozza, A.J. (2006, November). Evaluation of Long Duration flight on Venus.

67.      Orwig, J. (2014, December 18). NASA’s incredible futuristic and totally real plan to establish a human colony on Venus. Retrieved from (https://www.businessinsider.com/colony-on-venus-2014-12?pundits_only=0&comments_page=1#comment549449b082e985f24082ff87).

68.      [Official Paper]:- Lugo, R.A. &Ozoroski, T.A. &VanNorman, J.W. & Arney, D.C. & Dec, J.A. & Jones, C.A. &Zumwalt, C.H. (2015). High Altitude Venus Operations Concept Trajectory Design, Modelling, and Simulation. [Paper available online and for download at https://ntrs.nasa.gov/archive/nasa/nasa/casi.ntrs.nasa.gov/20150006858.pdf].

69.      Retrieved from (https://www.spacex.com/mars ).

70.      Retrieved from (https://www.mars-one.com/).

71.      Retrieved from (https://www.marssociety.org/ ).



New Picture Credits

 

·          Page 24 (Fig.1). Retrieved from (https://upload.wikimedia.org/wikipedia/en/2/2f/Project_for_Floating_Cloud_Structures_%28Cloud_Nine%29.jpg).

·          Page 26 (Fig. 2). Retrieved from (https://worldbuilding.stackexchange.com/questions/36667/can-cloud-nine-be-built).

·          Page 37. Retrieved from: -Landis, G.A. & Colozza, A. & LaMarre, C.M. (2002, June). Atmospheric flight on Venus).

·          Page 43. Retrieved from: - Landis, G.A. (2010, January). Low-altitude Exploration of the Venus atmosphere by Balloon. [Paper available online and for download at https://ntrs.gov/search.jsp?R=20110016033].

·          Pages 69, 69. Retrieved from (https://solarsystem.nasa.gov/basics/chapter4-1/).

·          Page 89. Retrieved from: - Landis, G.A. (2010, January). Low-altitude Exploration of the Venus atmosphere by Balloon. [Paper available online and for download at https://ntrs.gov/search.jsp?R=20110016033].

·          Pages 174, 175 (Fig. 3), 179. Retrieved from Arney, D. & Jones, C. (2015). HAVOC: High Altitude Venus Operational Concept – An Exploration Strategy for Venus. SPACE 2015: AIIA Space and Astronautics Forum and Exposition. 31 August- 2 September, 2015. Pasadena, California. [Paper available online and for download at https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20160006329].

 


Old Bibliography

 

 

1.        [Recommended] Walker, R. (2014, January 12). Will we build colonies that float over Venus like Buckminster Fuller’s “Cloud Nine?”  Retrieved from (https://www.science20.com/robert_inventor/will_we_build_colonies_that_float_over_venus_like_ buckminster_fullers_cloud_nine-127573)

 

2.        Sharp, T. (2017, December 14). How far away is Mars?

Retrieved from (https://www.space.com/16875-how-far-away-is-mars.html)

 

3.        Redd, N.T. (2012, November 16). How far away is Venus?

Retrieved from (https://www.space.com.cdn.ampproject.org)

 

4.        Retrieved from ( https://en.wikipedia.org/wiki/hohmann_transfer_orbit)

5.        Williams, M. (2017, April 7). When will Mars be close to Earth? Retrieved from (https:// www.universetoday.com/1480/when-will-mars-be-close-to-earth-1)

 

6.        Cain, F. (2017, March 16). How long does it take to get to Mars? Retrieved from (https://www.universetoday.com/1481/how-long-does-it-take-to-get-to-mars/)

 

7.        Dunbar, B. (2018, June 11). The Human body in space. Retrieved from (https://www.nasa.gov/nrp/body_in_space)

 

8.        See reference [13]

9.        Mistakenly added. No mention of ‘[9]’ in the entire book!

 

10.     [Official Paper] Hassler, D.M. & Zeitlin, C. & Wimmer-Schweingruber, R.F. & Ehresmann, B. & Rafkin, S. & Eigenbrode, J.L. & Brinza, D.E. & Weigle, G. & Böttcher, S. & Böhm, E. & Burmeister, S. & Guo, J. & Köhler, J. & Martin, C. & Reitz, G. & Cucinotta, F.A. & Myung-Hee, K. & Grinspoon, D. & Bullock, M.A. & Posner, A. & Gómez-Elvira, J. & Vasavada, A. & Grotzinger, J.P. & MSL Science Team. (2013, November 12). Mars’ Surface Radiation Environment Measured with the Mars Science Laboratory’s Curiosity Rover.

 

11.     [Official Paper] Dartnell, L.R. & Nordheim, T.A. & Patel, M.R. & Mason, J.P. & Coates, A.J. & Jones, G.H. (2015, September) Constraints on a potential aerial biosphere on Venus.I.Cosmic Rays. [Paper available online and for download at: http://researchgate.net/publication/278333688_constraints_ on_ a_ potential_ aerial_ biosphere_ on_ Venus_I_Cosmic_ Rays].

 

12.     Williams, M. (2016, January 1). How strong is gravity in other planets? Retrieved from (https://phys.org|news/2016-01-strong-gravity-planets.html)

 

13.     Retrieved from (https://en.m.wikipedia.org/wiki/Venus)

 

14.      Retrieved from (https://en.m.wikipedia.org/wiki/Mars)

 

15.     ‘Tidlewave’ (2016, February 3) How to produce oxygen out of Venusian atmosphere’s carbon dioxide? Retrieved from (https://stockexchange.com/questions/13865/how-to-produce-oxygen-out-of-venusian-atmospheres-carbon-dioxide)

 

16.     Retrieved from (https://en.m.wikipedia.org/wiki/formaldehyde)

17.     Retrieved from (https://en.m.wikipedia.org/wiki/oxygen_toxicity)

 

18.     [Official Paper] Landis, G.A. (2010, January). Low-altitude Exploration of the Venus atmosphere by Balloon. [Paper available online and for download at https://ntrs.gov/search.jsp?R=20110016033]

 

19.     [Official Paper] Wikram, L.A. (2006). Human Performance Considerations for Mars mission [Paper available online and for download at https://www.apu.edu/static/src/sites/research-science/downloads/human performance mars mission.pdf]

 

20.     [Official Paper] Levine, J.S. (2017). Dust in the atmosphere of Mars and its impact on human exploration: A review of earlier studies. [Paper available online and for download at https://www.hou.ursa.edu/meetings/marsdust2017/pdf/6007.pdf]

 

21.     Retrieved from (https://en.wikipedia.org/wiki/planetary_protection)

 

22.     [Official Paper] Yung, Y.L. & Yang, D. & Lee, C. & Liang, M.C. & Chen, P. (2016, September 2). The Sulphur Cycle on Venus: New insights from Venus Express. [Paper available online and for download at https://www.researchgate.net/publication|252473703704_the_sulphur_cycle_on_venus_new_insights_from_venus_express]

 

23.     [Recommended] Walker, R. (2014, January 12). If there is life on Venus Cloud Tops-Do we need to protect Earth- or Venus- Could returned XNA mean goodbye DNA for instance? Retrieved from (https://www.science20.com/robert_inventor/blog/if_there_life_in_venus_cloud_tops_do_we_need_to_protect_earth_or_venus_could_returned_xna_mean_goodbye__)

 

24.     Retrieved from (https://en.wikipedia.org/wiki/Life_on_venus)

 

25.      [Official Paper] Landis, G.A. & Colozza, A. & LaMarre, C.M. (2002, June). Atmospheric flight on Venus.

 

26.     [Recommended] Moskalenko, G. (1981). Airship for Venus. “Science and Life”, no.9, pp.85-87. (Originally in Russian) Retrieved from (https://epizodyspace.ru/bibl/n_i_j/1981/9/9-dir.html).

 

27.     [Official Paper]  Landis, G.A. & Colozza, A.J. (2006, November). Evaluation of Long Duration flight on Venus.

 

28.     Orwig, J. (2014, December 18). NASA’s incredible futuristic, and totally real plan to establish a human colony on Venus. Retrieved from (https://www.businessinsider.com/colony-on-venus-2014-12?pundits_only=0&comments_page=1#comment549449b082e985f24082ff87)

 

29.     [Official Presentation] Arney, D. & Jones, C. (2015). HAVOC: High Altitude Venus Operational Concept – An Exploration Strategy for Venus. SPACE 2015: AIIA Space and Astronautics Forum and Exposition. 31 August- 2 September, 2015. Pasadena, California. [Paper available online and for download at https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20160006329].

 

30.     [Official Paper]  Lugo, R.A. & Ozoroski, T.A. & VanNorman, J.W. & Arney, D.C. & Dec, J.A. & Jones, C.A. & Zumwalt, C.H. (2015). High Altitude Venus Operations Concept Trajectory Design, Modelling, and Simulation. [Paper available online and for download at https://ntrs.nasa.gov/archive/nasa/nasa/casi.ntrs.nasa.gov/20150006858.pdf]

 

31.     Sagan, C. (1994). Pale Blue Dot: A vision of the human future in space. [Ballantine Books; The Random House Publishing Group]. Pages 138-148.

 

32.     Retrieved from [https://en.wikipedia.org/wiki/venus_(mythology) ].

33.     Sagan, C. (1995). Cosmos. [London: Abacus].  Pages 110-118, & Pages 127-131.

 

34.      Retrieved from (https://en.wikipedia.org/wiki/claus_process )

35.     Retrieved from (https://www.britannica.com/place/venus_planet)

 

36.     Engheim, E. (2018, June 27). Geology and metal extraction from Venus planetary surface. Retrieved from (https://medium.com/@jernfrost/geology-and-metal-extraction-from-Venus-planetary-surface-5dc363f903f6)

 

37.     Ulrich, T. (2017, January). Can building materials be extracted from Venus’s atmosphere? Retrieved from (https://www.quora.com/can-building-materials-be-extracted-from-venuss-atmosphere)

 

38.     Retrieved from (https://en.wikipedia.org/wiki/geodesic_domes )

39.     Retrieved from [https://en.wikipedia.org/wiki/cloud_nine_(tensegrity_sphere) ]

40.     Baldwin, J. (1997). Buckyworks: Buckminster Fuller’s ideas for today.[John Wiley and Sons]. Page 190.

 

41.     Retrieved from (https://en.wikipedia.org/wiki/cryolite  )

42.     Retrieved from (https://en.wikipedia.org/wiki/aluminium  )

43.     Retrieved from (https://en.wikipedia.org/wiki/iron  )

44.     Retrieved from (https://en.wikipedia.org/wiki/silicon  )

 

45.     [Official Paper]  Landis, G.A. & Kenneth, C. (2007). Venus Surface Power and Cooling Systems. [Paper available online at http://www.sciencedirect.com].

46.     Retrieved from (https://en.wikipedia.org/wiki/global_catastrophic_risk ).

47.     Retrieved from (https://www.spacex.com/mars ).

48.     Retrieved from (https://www.mars-one.com/).

49.     Retrieved from (https://www.marssociety.org/ ).

[a] Kurzgesagt-in a nutshell (Retrieved from https://www.youtube.com/watch?v=NtQkz0aRDe8&t=243s ) 


Old Picture Credits

 

·         Page 14 (Fig. 1). © Babak Tafreshi. Retrieved from https://qph.fs.quoracdn.net/main-qimg-2df48165d8b36c265837797fa3592651

·         Page 15 (Fig. 2). Photograph was taken by David Chabot. Retrieved from (http://en.es-static.us/upl/2018/07/mars-7-21-2018-Dennis-Chabot-e1532244737900.jpghttp://img.gawkerassets.com/img/18rmo40lthw2hjpg/ku-xlarge.jpg).

·         Page 17 (Fig.3). Mariner 10. Retrieved from (https://upload.wikimedia.org/wikipedia/commons/e/e5/Venus-real_color.jpg).

·         Page 19 (Fig.4). Venera 13. Retrieved from (https://i.redd.it/iqpadr2wvykz.jpg).

·         Page 20 (Fig.5). Retrieved from (https://ichef.bbci.co.uk/news/660/cpsprodpb/656B/production/_83736952_ volcano.jpg).

·         Page 25 (Fig.6). Retrieved from (https://solarsystem.nasa.gov/basics/chapter4-1/).

·         Page 32 (Fig.10). Retrieved from reference [18].

·         Page 43 (Fig.14). Retrieved from reference [18].

·         Page 54 (Fig.15). Retrieved from (https://en.wikipedia.org/wiki/Martian_soil#/media/File:PIA17944-MarsCuriosityRover-AfterCrossingDingoGapSanddune-20140209.jpg).

·         Page 55 (Fig.16). Retrieved from (https://static01.nyt.com/images/2018/07/27/science/27MARS3/merlin_141745833_3b157fac-922e-4bae-b726-2a1dfbffcbcb-jumbo.jpg?quality=90&auto=webp).

·         Page 56 (Fig.17). Retrieved from (https://www.howitworksdaily.com/surviving-winter-on-mars/).

·         Page 68 (Fig.18).  Pioneer Venus Orbiter. Retrieved from (https://en.wikipedia.org/wiki/File:Venuspioneeruv.jpg).

·         Page 80 (Fig.20).  S. Zhitomorsky (1971) Flying City on Venus. [Technika Molodezhi]. Retrieved from (http://scienseillustrations.mypage.ru/2288658.html).

·         Page 82 (Fig.21). Retrieved from reference [27].

·         Page 84 (Fig.22). Retrieved from reference [25].

·         Pages 86 (Fig.23), 87(Fig.24), 88, 89, 92(Fig.25), 100(Fig.27), 102(Fig.28), 107, 108(Fig.29), 112. Retrieved from reference [29].

·         Pages 93, 94, 96, 98 (Fig. 26), 99, 101, 103, 104, 104, 105. Langley Research Centre. Retrieved from (https://www.youtube.com/watch?v=0az7DEwG68A).

·         Page 123 (Fig.30). Retrieved from reference [18].

·         Page 125 (Fig.31).  Retrieved from (https://i.redd.it/wm7fc7vebbb01.jpg).

·         Page 126 (Fig.32).  Retrieved from (https://supernovacondensate.net/2013/06/10/i-%E2%99%A5-venus/maat-mons-better/).

·         Page 133 (Fig.33). Retrieved from (https://www.youtube.com/watch?v=BI-old7YI4I&t=852s); Isaac Arthur.

·         Page 134 (Fig.34). Retrieved from reference [45].

·         Page 136 (Fig.35).  Retrieved from (https://upload.wikimedia.org/wikipedia/en/2/2f/Project_for_Floating_Cloud_Structures_%28Cloud_Nine%29.jpg).

·         Page 139 (Fig.36). Retrieved from (https://worldbuilding.stackexchange.com/questions/36667/can-cloud-nine-be-built).


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