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Timestamp: 2019-04-25 10:41:07+00:00

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PLANETARY ENGINEERING BIBLIOGRAPHY (Revised January 2011).
Martyn J. Fogg (Probability Research Group, London, UK).
With previous assistance from: Tom Meyer (University of Colorado), Stephen Gillett (University of Reno, Nevada), Robert Haynes (York University, Ontario) and Richard Cathcart.
Definitions of planetary engineering, geoengineering and terraforming are taken from Terraforming: Engineering Planetary Environments (Fogg, 1995).
Planetary Engineering is the application of technology for the purpose of influencing the global properties of a planet.
Geoengineering is planetary engineering applied specifically to the Earth. It includes only those macroengineering concepts that deal with the alteration of some global parameter, such as the greenhouse effect, atmospheric composition, insolation or impact flux.
Terraforming is a process of planetary engineering, specifically directed at enhancing the capacity of an extra-terrestrial planetary environment to support life. The ultimate in terraforming would be to create an uncontained planetary biosphere emulating all the functions of the biosphere of the Earth, one that would be fully habitable for human beings.
Astrophysical Engineering is taken to represent proposed activities, relating to future habitation, that are envisaged to occur on a scale greater than that of “conventional” planetary engineering.
It is thought that the entries related to terraforming are near-comprehensive and include almost everything substantive written on the subject. However, this does not mean that all entries are essential to a programme of study. Researchers specifically interested in the terraforming of Mars will find a personal recommendation of the most essential literature in Section 2 indicated so ª.
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C. Sagan, “The Planet Venus,” Science, 133, 849-858 (1961).
T.L. Segura, C.P. McKay and O.B. Toon, “An Impact-Triggered Runaway Greenhouse on Mars,” in Abstracts from the Astrobiology Science Conference 2004, International Journal of Astrobiology Supplement, p.78 (2004).
N.N. Semenov, “Changes in the Martian Atmosphere,” in B.P. Konstantinov and V.D. Pekelis (Eds), Inhabited Space, Part I, p. 192, NASA TT-F-819, Feb. (1975).
A.G. Smith, “Transforming Venus by Induced Overturn,” JBIS, 42, 571-576 (1989).
A.G. Smith, “Time, Ice and Terraforming,” JBIS, 46, 305-310 (1993).
G.A. Smith, “Ethics of Terraforming: A Practical System,” in R.M. Zubrin and M. Zubrin (Eds.), Proceedings of the Founding Convention of the Mars Society, Part III, pp. 985-1001, Univelt, San Diego (1999).
R. Sparrow, “The Ethics of Terraforming,” Environmental Ethics, 21(3), 227-245 (1999).
R.L.S. Taylor, “Why Mars? Even Under the Condition of Critical Factor Constraint Engineering, Technology May Permit the Establishment and Maintenance of an Inhabitable Ecosystem on Mars,” Adv. Space Res., 22(3), 421-432 (1998).
R.L.S. Taylor, “Paraterraforming: Construction, Energy, Environment and Hazard Control Strategies for a Quasi-Global Martian Worldhouse,” in P.J. Boston (Ed.), The Case for Mars V, pp. 367-395, Univelt, San Diego (2000).
R.L.S. Taylor, “The Mars Atmosphere Problem: Paraterraforming – The Worldhouse Solution,” JBIS, 54, 236-249 (2001).
D.J. Thomas, “Biological Aspects of the Ecopoiesis and Terraformation of Mars: Current Perspectives and Research,” JBIS, 48, 415-418 (1995).
D.J. Thomas, “The Formation of Martian Ecosystems: Rationale and Directions for Future Research,” in K.R. McMillen (Ed.), The Case for Mars VI, pp. 445-451, Univelt, San Diego (2000).
F. Turner, “Terraforming and the Coming Charm Industries,” Adv. Space Res., 22(3), 433-439 (1998).
R.R. Vondrak, “Creation of an Artificial Lunar Atmosphere,” Nature, 248, 657-659 (1974).
R.R. Vondrak, “Creation of an Artificial Atmosphere on the Moon,” in Advances in Engineering Science, Vol 3, NASA CP-2001, 1215-1224 (1976).
P.F. York, “The Ethics of Terraforming” Philosophy Now, 38, 6-9 (2002).
Y.L. Yung and W.B. DeMore, “Terraforming Mars,” in Photochemistry of Planetary Atmopsheres, Section 7.5, pp. 279-280, Oxford University Press (1999).
B. Adelman and S.J. Adelman, “The Case for Planetary Engineering,” Space World, Vol. S-6-222, pp. 20 ff., June/July (1982).
S.J. Adelman, “Terraforming Venus,” Spaceflight, 24, 50-53, (1982).
Anon, “Interview with NASA’s Chris McKay: Terraforming Mars in The Second Age of Exploration,” 21st Century Science and Technology, 5(2), 35-40 (1992).
G. Benford, “The Future of the Jovian System,” Issac Asimov’s Science Fiction Magazine, 11(8), 62-81 (1987).
A. Berry, “Venus, The Hell-World,” and “Making it Rain in Hell,” Chapters 6 & 7 in The Next Ten Thousand Years, New American Library (1984).
P. Cohen, “Terraforming Mars. Philip Cohen Reports from a NASA Meeting on making the Red planet Habitable,” New Scientist, 168(2261), 22 (2000).
B. Darrach, S. Petranek and A. Hollister, “Mars: Bringing a Dead World to Life,” LIFE, 14(5), 24-38 (1991).
F.J. Dyson, Disturbing the Universe, Chapter 18, Harper and Row Ltd, London (1979).
M. Freeman, “Terraforming Mars to Create a New Earth,” 21st Century Science and Technology, 13(4), 52-57 (2000-2001).
M.J. Fogg, “Stellifying Jupiter,” Analog, CIX(10), 73-83 (1989).
M.J. Fogg, “The Problem of Terraforming,” Spaceflight, 33(7), 244-247 (1991).
M.J. Fogg, “Once and Future Mars,” Analog, CXI(1&2), 109-122 (1991).
S.L. Gillett, “Second Planet, Second Earth,” Analog, CIV(12), 64-78 (1984).
S.L. Gillett, “The Postdiluvian World,” Analog, CV(11), 40-58 (1985).
S.L. Gillett, “Inward Ho!” Analog, CIX(13), 62-72 (1989).
S.L. Gillett, “Refuelling a Rundown Planet,” Analog, CXI(10), 81-77 (1991).
S.L. Gillett, “Titan as the Abode of Life,” Analog, CXII(13), 40-55 (1992).
S.L. Gillett, “Red Planet, Green Planet,” Amazing, pp. 66-68, Jun (1992).
S.L. Gillett, “The (Re)Wetting of Venus,” Amazing, pp. 64-67, Jul (1992).
S.L. Gillett, “The Ethics of Terraforming,” Amazing, pp. 72-74, Aug (1992).
J.A. Hiscox and M.J. Fogg, “Terraforming Mars: Scientists Discuss the Feasibility of Making Mars Habitable,” Spaceflight, 43(4), 153-155 (2001).
J.F. Kross, “Heaven from Hell,” Ad Astra, 4(3), 22-24 (1992).
J.E. Lovelock, “The Second Home,” Chapter 8 in The Ages of Gaia, Oxford University Press (1988).
A. Marshall, “Another Green World?” Quest, 1(3), 38-50 (1997).
C.P. McKay, “Terraforming: Making an Earth of Mars,” The Planetary Report, VII(6), 26-27 (1987).
C.P. McKay, “Let’s Put Martian Life First,” The Planetary Report, XXI(4), 4-5 (2001).
O. Morton, “Life on Mars: The Terraformer’s Dream,” The Economist, 337(7946), 117-120 (1995-96).
J.E. Oberg, “Colony on the Planet Epaphos,” Star and Sky, p. 16, March (1980).
“Pioneers and Settlers,” Chapter 2 in Starbound, Voyage Through the Universe Series, Time-Life Books, Alexandria, Virginia (1992).
M. Savage, “Elysium,” Chapter 5 in The Millenial Project, Empyrean Publishing, Denver (1993).
R.P. Terra, “Islands in the Sky: Human Exploration and Settlement of the Oort Cloud,” Analog, CXI, 69-85 (1991).
F. Turner, “Life on Mars. Cultivating a Planet – and Ourselves,” Harper’s Magazine, 279(1671), 33-40 (1990); also in Tempest, Flute and Oz: Essays on the Future, Persea Books, New York (1991).
R.M. Zubrin, “The Outer Solar System and the Human Future,” Ad Astra, 5(2), 18-23 (1993).
R.M. Zubrin and C.P. McKay, “A World for the Winning: The Exploration and Terraforming of Mars,” The Planetary Report, XII(5), 16-19 (1992).
R.M. Zubrin and C.P. McKay, “Pioneering Mars,” Ad Astra, 4(6), 34-41 (1992).
R.M. Zubrin and C.P. McKay, “Terraforming Mars,” Analog, CXIV(5), 70-87 (1994).
G. Benford, The Jupiter Project, TOR Books, New York (1975).
G. Benford, Against Infinity, New English Library, Sevenoaks (1984).
A.C. Clarke, The Sands of Mars, Sidgewick and Jackson Ltd. (1951).
G. Dozois (Ed.), Worldmakers: SF Adventures in Terraforming, St Martin’s Griffin, New York (2001).
R. Heinlein, Farmer in the Sky, First published 1950; Modern Edition, Victor Gollancz Ltd, London (1990).
J.E. Lovelock and M. Allaby, The Greening of Mars, Warner Books, New York (1984).
K.S. Robinson, Red Mars, Bantam Spectra Books, New York (1993).
K.S. Robinson, Green Mars, Harper Collins Publishers, London (1993).
K.S. Robinson, Blue Mars, Harper Collins Publishers, London (1996).
P. Sargent, Venus of Dreams, Bantam Spectra Books, New York (1986).
P. Sargent, Venus of Shadows, Bantam Spectra Books, New York (1990).
P. Sargent, Child of Venus, in press, Eos/Harper Collins (2001).
O. Stapledon, Last and First Men, First Published 1930; Modern Edition, Pelican Books London (1987).
F. Turner, Genesis, Saybrook Publishing Company, Dallas (1988).
3. ASTROPHYSICAL ENGINEERING / OTHER.
M. Beech, Rejuvenating the Sun and Avoiding Other Global Catastrophes, Springer, New York (2008).
V. Badescu, “On the radius of the Dyson’s Sphere”, Acta Astronautica, 36, 135-138 (1995).
V. Badescu and R.B. Cathcart, “Stellar Engines for Kardashev’s Type II Civilisations,” JBIS, 53, 297-306 (2000).
V. Badescu and R.B. Cathcart, “Use of Class A and Class C Stellar Engines to Control Sun Movement in the Galaxy,” Acta Astronautica, 58, 119-129 (2006).
V. Badescu and R.B. Cathcart, “Stellar Engines and the Controlled Movement of the Sun,” in V. Badescu, R.Cathcart and R.Schuiling (Eds.), Macro-Engineering: A Challenge for the Future, Water Science and Technology Library, Volume 54, 251-279, Springer (2006).
M. Beech, “Blue Stragglers as Indicators of Extraterrestrial Civilizations,” Earth, Moon and Planets, 49, 177-186 (1990).
M. Beech, “Aspects of an Asteroengineering Option,” JBIS, 46, 317-322 (1993).
M. Beech, “Oscillation and Settling Times for Black-Holes Placed within Planetary and Stellar Interiors, JBIS, 60, 257-262 (2007).
M. Beech, “A Dark Sun Rising: It’s a Solar Wrap,” JBIS, 63, 104-107 (2010).
P. Birch, “Supramundane Planets,” JBIS, 44, 169-182 (1991).
P. Birch,, “How to Move a Planet,” JBIS, 46, 314-316 (1993).
R.B. Cathcart, “A Megastructural End to Geological Time,” JBIS, 36, 291-297 (1983).
M.M. Cirkovic, “Macro-Engineering in the galactic Context: A New Agenda for Astrobiology,” in V. Badescu, R.Cathcart and R.Schuiling (Eds.), Macro-Engineering: A Challenge for the Future, Water Science and Technology Library, Volume 54, 281-300, Springer (2006).
D.R. Criswell, “Solar System Industrialization: Implications for Interstellar Migrations,” in R. Finney and E.M. Jones (Eds), Interstellar Migration and the Human Experience, pp. 50-87, University of California Press, Berkeley (1985).
F.J. Dyson, “Gravitational Machines,” in A.G.W. Cameron (Ed.), Interstellar Communication, pp. 115-120, W.A. Benjamin Inc., New York (1963).
F.J. Dyson, “The Search for Extraterrestrial Technology,” in R.E. Marshak (Ed.), Perspectives in Modern Physics, pp. 641-655, Interscience Publishers, New York, (1966).
F.J. Dyson, “The World the Flesh and the Devil,” Section IV, “Big Trees,” in C. Sagan (Ed.), Communication With Extraterrestrial Intelligence – CETI, pp. 380-383, M.I.T. Press, Cambridge, MA (1973).
K.A. Ehricke, “A Long-Range Perspective on Some Fundamental Aspects of Interstellar Evolution,” JBIS, 28, 722 (1975).
M.J. Fogg, “Stellifying Jupiter: A First Step to Terraforming the Galilean Satellites,” JBIS, 42, 587-592 (1989).
M.J. Fogg, “Solar Exchange as a Means of Ensuring the Long Term Habitability of the Earth,” Specul. Sci. Tech., 12, 153-157 (1989).
D. Froman, “The Earth as a Man-Controlled Space Ship,” Physics Today, 15, 19-22 (1962).
M. Hempsell, “Some Speculations on the Construction of Artificial Planets,” JBIS, 58, 392-397 (2005).
D.G. Korycansky, “Astroengineering, or How to save the Earth in Only One Billion Years,” Rev. Mex. A.A. (Serie de Conferencias), 22, 117-120 (2004).
M. Mautner, “Directed Panspermia: A Technical Evaluation of Seeding Nearby Solar Systems,” JBIS, 32, 419-422 (1979).
M. Mautner, “Directed Panspermia 2. Technological Advances Toward Seeding Other Solar Systems and the Foundation of Panbiotic Ethics,” JBIS, 48, 435-440 (1995).
M. Mautner, “Directed Panspermia 3. Strategies and Motivation for Seeding Star-Forming Clouds,” JBIS, 50, 105-108 (1997).
M. Mautner, “Directed Panspermia, Astroethics and our Cosmological Future, in Abstracts from the Astrobiology Science Conference 2004, International Journal of Astrobiology Supplement, p.116 (2004).
C.R. McInnes, “Astronomical Engineering Revisited: Planetary Orbit Modification Using Solar Radiation Pressure,” Astrophysics and Space Science, 282, 765-772 (2002).
D.R. Popoviciu, “Terraforming Mars via the Bosch Reaction: Turning Gas Giants Into Stars,” Journal of Cosmology, 12, 3980-3991 (2010).
L.M. Shkadov, “Possibility of Controlling Solar System Motion in the Galaxy,” IAA–87–613 (1987).
M. Taube, “Future of the Terrestrial Civilization Over a Period of Billions of Years (Red Giant and Earth Shift,” JBIS, 35, 219-225 (1982).
M. Taube and W. Seifritz, “The Search for a strategy for Mankind to Survive the Solar Red Giant Catastrophe,” http://arxiv.org/abs/0811.4052 (2008).
M.J. Fogg, “Astrophysical Engineering and the Fate of the Earth,” Analog, CX(6), 53-63 (1990).
L. Niven, “Bigger Than Worlds,” in A Hole In Space, pp. 111-126, Futura Publications, London (1974).

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