Linked bibliography for the SEP article "Life" by Carlos Mariscal

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If everything goes well, this page should display the bibliography of the aforementioned article as it appears in the Stanford Encyclopedia of Philosophy, but with links added to PhilPapers records and Google Scholar for your convenience. Some bibliographies are not going to be represented correctly or fully up to date. In general, bibliographies of recent works are going to be much better linked than bibliographies of primary literature and older works. Entries with PhilPapers records have links on their titles. A green link indicates that the item is available online at least partially.

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  • Aristotle, De Anima (selections), in M.A. Bedau & C.E. Cleland (eds.), The Nature of Life: Classical and Contemporary Perspectives from Philosophy and Science, New York: Cambridge University Press, 2010, pp. 9–14.
  • Bains, William, 2004, “Many chemistries could be used to build living systems,” Astrobiology, 4(2): 137–167. (Scholar)
  • Basl, John, 2019, The Death of the Ethic of Life, Oxford: Oxford University Press. (Scholar)
  • Bedau, Mark A., and Carol E. Cleland (eds.), 2010, The Nature of Life: Classical and Contemporary Perspectives from Philosophy and Science, New York: Cambridge University Press. (Scholar)
  • Benner, Steven Albert, 2010, “Defining life,” Astrobiology, 10(10): 1021–1030. doi:10.1089/ast.2010.0524 (Scholar)
  • Bergson, Henri, 1907 [1959], L’évolution créatrice, Paris: Presses Universitaires de France.
  • Boden, Margaret Ann, 1999, “Is metabolism necessary?The British Journal for the Philosophy of Science, 50(2): 231–248. doi: 10.1093/bjps/50.2.231 (Scholar)
  • Boyd, Richard, 1991, “Realism, Anti-Foundationalism and the Enthusiasm for Natural Kinds,” Philosophical Studies, 61(1–2): 127–148. (Scholar)
  • –––, 1999, “Homeostasis, species, and higher taxa,” in R. Wilson (ed.), Species: New Interdisciplinary Essays, Cambridge, Mass.: MIT Press, pp. 141–185. (Scholar)
  • –––, 2010, “Homeostasis, Higher Taxa, and Monophyly,” Philosophy of Science, 77(5): 686–701. (Scholar)
  • Brooks, Rodney, 2001, “The relationship between matter and life,” Nature, 409(6818): 409–411 [Brooks 2001 available online]. (Scholar)
  • Brusse, Carl, 2016, “Planets, pluralism, and conceptual lineage,” Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics, 53: 93–106. (Scholar)
  • Byers, Sarah, 2006, “Life as ‘Self-Motion’: Descartes and ‘the Aristotelians’ on the Soul as the Life of the Body,” The Review of Metaphysics, 59(3): 723–755. (Scholar)
  • Carey, Susan E., 1985, Conceptual Change in Childhood, Cambridge, Mass.: MIT Press. (Scholar)
  • –––, 1988, “Conceptual differences between children and adults,” Mind & Language, 3: 167–181. (Scholar)
  • Cleland, Carol E., 2019, The Quest for a Universal Theory of Life: Searching for Life as we Don’t Know It (Vol. 11), Cambridge: Cambridge University Press. (Scholar)
  • Cleland, Carol E. and Christopher F. Chyba, 2002, “Defining ‘life,’” Origins of Life and Evolution of the Biosphere, 32(40): 387–393. (Scholar)
  • Corbella, Mercedes, 2020, “Globally, seven in ten adults favor allowing abortion,” IPSOS, published online 17 August 2020 [Corbella 2020 available online]. (Scholar)
  • Cowie, Fiona, 2009, “Why isn’t Stich an Eliminativist?” in D. Murphy and M. Bishop (eds.), Stich: And his Critics, Chichester: Blackwell Publishing, pp. 74–100. (Scholar)
  • DeGrazia, David, “The Definition of Death,”, The Stanford Encyclopedia of Philosophy (Spring 2017 Edition), Edward N. Zalta (ed.), URL = <https://plato.stanford.edu/archives/spr2017/entries/death-definition/>. (Scholar)
  • Dellapenna, Joseph W., 1978, “The History of Abortion: Technology, Morality, and Law.” University of Pittsburgh Law Review, 40: 359–428. (Scholar)
  • Descartes, René, 1664 [2010], “Treatise on Man,” in M.A. Bedau and C.E. Cleland (eds.), The Nature of Life: Classical and Contemporary Perspectives from Philosophy and Science, New York, N.Y.: Cambridge University Press, pp. 15–20; original translation by J. Cottingham, R. Stoothoff, and D. Murdoch, The Philosophical Writings of Descartes, Cambridge: Cambridge University Press; original work published in 1664. (Scholar)
  • Dick, Steven J., 1982, Plurality of Worlds: The Origins of the Extraterrestrial Life Debate from Democritus to Kant, Cambridge: Cambridge University Press. (Scholar)
  • Diguez, Antonio, 2013, “Life as a homeostatic property cluster,” Biological Theory, 7(2): 180–186. (Scholar)
  • Doolittle, W. Ford, 1981, “Is Nature Really Motherly?” CoEvolution Quarterly, 29: 58–63. (Scholar)
  • –––, 2019, “Making evolutionary sense of Gaia,” Trends in Ecology & Evolution, 34(10): 889–894. (Scholar)
  • Doolittle, W. Ford and James R. Brown, 1994, “Tempo, Mode, the Progenote, and the Universal Root,” Proceedings of the National Academy of Sciences, 91(15): 6721–6728. (Scholar)
  • Driesch, Hans, 1905 [1914], The History & Theory of Vitalism, C.K. Ogden (trans.), London: Macmillan and Co., Limited. (Scholar)
  • Eigen, Manfred and Peter Schuster, 1977, “A Principle of Natural Self-Organization,” Naturwissenschaften, 63(11): 541–565. (Scholar)
  • Ezell, Edward Clinton and Linda Neuman Ezell, 1984, On Mars: Exploration of the Red Planet, 1958–1978 (NASA History Series: Volume 4212), Washington, DC: National Aeronautics and Space Administration. (Scholar)
  • Formisano, Vittorio, Sushil Atreya, Thérèse Encrenaz, Nikolai Ignatiev, and Marco Giuranna, 2004, “Detection of methane in the atmosphere of Mars,” Science, 306(5702): 1758–1761. (Scholar)
  • Forterre, Patrick, 2006a, “Three RNA cells for ribosomal lineages and three DNA viruses to replicate their genomes: a hypothesis for the origin of cellular domain,” Proceedings of the National Academy of Sciences, 103(10): 3669–3674. (Scholar)
  • –––, 2006b, “The origin of viruses and their possible roles in major evolutionary transitions,” Virus Research, 117(1): 5–16. (Scholar)
  • –––, 2010, “Defining Life: the Virus Viewpoint,” Origins of Life and Evolution of Biospheres, 40(2): 151–160. (Scholar)
  • Frank, Adam and Woody T. Sullivan III, 2016, “A new empirical constraint on the prevalence of technological species in the universe,” Astrobiology, 16(5): 359–362.
  • Goodpaster, Kenneth E., 1978, “On being morally considerable,” The Journal of Philosophy, 75(6): 308–325. (Scholar)
  • Gopnik, Alison, and Andrew N. Meltzoff, 1997, Words, Thoughts, and Theories, Cambridge, Mass.: MIT Press. (Scholar)
  • Greaves, Jane S., Anita M.S. Richards, William Bains, Paul B. Rimmer, Hideo Sagawa, David L. Clements, Sara Seager, Janusz J. Petkowski, Clara Sousa-Silva, Sukrit Ranjan, Emily Drabek-Maunder, Helend J. Fraser, Annabel Cartwright, Ingo Muller-Wodarg, Zhuchang Zhan, Per Frieberg, Iain Coulson, E’lisa Lee, and Jim Hoge, 2020, “Phosphine gas in the cloud decks of Venus,” Nature Astronomy, 5: 655–664. (Scholar)
  • Gromski, Piotr S., Granda, Jaroslaw M. and Cronin, Leroy, 2020, “Universal chemical synthesis and discovery with ‘the chemputer,’” Trends in Chemistry, 2(1): 4–12. (Scholar)
  • Gupta, Anil, “Definitions,”, The Stanford Encyclopedia of Philosophy (Summer 2021 Edition), E.N. Zalta (ed.), URL = <Definitions/">https://plato.stanford.edu/archives/sum2021/entries/Definitions/>. (Scholar)
  • Haldane, John Burdon Sanderson, 1929, “The Origin of Life,” Rationalist Annual, 148: 3–10. (Scholar)
  • Hampton, James A., 1979, “Polymorphous concepts in semantic memory,” Journal of Verbal Learning and Verbal Behavior, 18: 441–461. (Scholar)
  • –––, 2006, “Concepts as prototypes,” in B.H. Ross (ed.), The Psychology of Learning and Motivation: Advances in Research and Theory (Volume 46), New York: Academic Press, pp. 79–113. (Scholar)
  • He, Christine, Isaac Gállego, Brandon Laughlin, Martha A. Grover, and Nicholas V. Hud, 2017, “A Viscous Solvent Enables Information Transfer from Gene-Length Nucleic Acids in a Model Prebiotic Replication Cycle,” Nature Chemistry, 9(4): 318–324. (Scholar)
  • Hölldobler, Bert and Wilson, Edward O., 2009, The Superorganism: the Beauty, Elegance, and Strangeness of Insect Societies, New York: W.W. Norton & Company. (Scholar)
  • Hutchison, Clyde A., Ray-Yuan Chuang, Vladimir N. Noskov, Nacyra Assad-Garcia, Thomas J. Deerinck, Mark H. Ellisman, John Gill, Krishna Kannan, Bogumil J. Karas, Li Ma, James F. Pelletier, Zhi-Qing Qi, R. Alexander Richter, Elizabeth A. Strychalski, Lijie Sun, Yo Suzuki, Billyana Tsvetanova, Kim S. Wise, Hamilton O. Smith, John I. Glass, Chuck Merryman, Daniel G. Gibson, J. Craig Venter, 2016, “Design and synthesis of a minimal bacterial genome,” Science, 351(6280). doi:10.1126/science.aad6253 (Scholar)
  • Jabr, Ferris, 2013, “Why Life Does Not Really Exist,” Scientific American, published 02 December 2013 [Jabr 2013 available online]. (Scholar)
  • Joyce, Gerard F., 1994, forward, in D. W. Deamer, G. R. Fleischaker (eds.), Origins of Life: the Central Concepts, Boston: Jones & Bartlett, pp. xi–xii.
  • Komatsu, Lloyd K., 1992, “Recent Views of Conceptual Structure,” Psychological Bulletin, 112: 500–526. (Scholar)
  • Koonin, Eugene V., 2000, “How Many Genes can Make a Cell: the Minimal-Gene-Set Concept,” Annual Review of Genomics and Human Genetics, 1(1): 99–116. (Scholar)
  • –––, 2009, “On the Origin of Cells and Viruses: Primordial Virus World Scenario,” Annals of the New York Academy of Sciences, 1178(1): 47–64. (Scholar)
  • –––, 2011, The Logic of Chance: the Nature and Origin of Biological Evolution, New Jersey: FT press. (Scholar)
  • Koonin, Eugene V., Tatiana G. Senkevich, and Valerian V. Dolja, 2006, “The Ancient Virus World and Evolution of cells,” Biology Direct, 1(1): 1–27. (Scholar)
  • Langton, Christopher G., 1989, “Artificial life,” in C.G. Langton (ed.), Artificial life (Santa Fe Institute Studies in the Sciences of Complexity: Proceedings Volume IV), Redwood City, Calif.: Addison-Wesley, pp. 1–47. (Scholar)
  • –––, 1995, Artificial Life: An Overview, Cambridge, Mass.: MIT Press. (Scholar)
  • Lenton, Timothy M., Stuart J. Daines, James G. Dyke, Arwen E. Nicholson, David M. Wilkinson, and Hywel T.P. Williams, 2018, “Selection for Gaia Across Multiple Scales,” Trends in Ecology & Evolution, 33(8): 633–645. (Scholar)
  • Leopold, Aldo, 1949, A Sand County Almanac, New York: Oxford University Press. (Scholar)
  • Levin, Gilbert V. and Patricia Ann Straat, 1976, “Viking labeled release biology experiment: interim results,” Science, 194(4271): 1322–1329. (Scholar)
  • Li, Jiali, Shawn Browning, Sukhvir P. Mahal, Anja M. Oelschlegel, and Charles Weissmann, 2010, “Darwinian evolution of prions in cell culture,” Science, 327(5967): 869–872. (Scholar)
  • Lincoln, Tracey A. and Joyce, Gerald F., 2009, “Self-sustained replication of an RNA enzyme,” Science, 323(5918): 1229–1232. (Scholar)
  • Lineweaver, Charley H., 2020, “What Do the DPANN Archaea and the CPR Bacteria Tell Us about the Last Universal Common Ancestors?” in J. Seckbach and H. Stan-Lotter (eds.), Extremophiles as Astrobiological Models, London: Wiley, pp.359–367. (Scholar)
  • Loeb, Abraham and Dan Maoz, 2013, “Detecting Biomarkers in Habitable-Zone Earths Transiting White Dwarfs,” Monthly Notices of the Royal Astronomical Society: Letters, 432(1): L11–L15. (Scholar)
  • Lovelock, James E., 2000, Gaia: A New Look at Life on Earth, Oxford: Oxford University Press. (Scholar)
  • Machery, Edouard, 2009, Doing without Concepts, Oxford: Oxford University Press. (Scholar)
  • –––, 2011, “Why I Stopped Worrying About the Definition of Life… and Why you Should as Well,” Synthese, 185(1): 145–164. doi: 10.1007/s11229-011-9880-1 (Scholar)
  • Maienschein, Jane, 2014, Embryos Under the Microscope, Cambridge, Mass.: Harvard University Press. (Scholar)
  • Malaterre, Christophe and Jean-François Chartier, 2019, “Beyond Categorical Definitions of Life: a Data-Driven Approach to Assessing Lifeness,” Synthese, 198: 4543–4572. (Scholar)
  • Mariscal, Carlos, Ana Barahona, Nathanael Aubert-Kato, Arsev Umur Aydinoglu, Stuart Bartlett, María Luz Cárdenas, Kuhan Chandru, Carol E. Cleland, Benjamin T. Cocanougher, Nathaniel Comfort, and Athel Cornish-Bowden, 2019, “Hidden concepts in the history and philosophy of origins-of-life studies: A workshop report,” Origins of Life and Evolution of Biospheres, 49(3): 111–145. (Scholar)
  • Mariscal, Carlos and W. Ford Doolittle, 2015, “Eukaryotes first: how could that be?Philosophical Transactions of the Royal Society B (Biological Sciences), 370(1678): 20140322. (Scholar)
  • –––, 2020, “Life and Life Only: a Radical Alternative to Life Definitionism,” Synthese, 197(7): 2975–2989. (Scholar)
  • Mathis, Cole, Tanmoy Bhattacharya, and Sara Imari Walker, 2017, “The Emergence of Life as a First-Order Phase Transition,” Astrobiology, 17(3): 266–276. (Scholar)
  • McKay, David S., Everett K. Gibson, Kathie L. Thomas-Keprta, Hojatollah Vali, Christopher S. Romanek, Simon J. Clemett, Xavier D.F. Chillier, Claude R. Maechling, and Richard N. Zare, 1996, “Search for past life on Mars: possible relic biogenic activity in Martian meteorite ALH84001,” Science, 273(5277): 924–930. (Scholar)
  • Medin, Douglas L. and Marguerite M. Schaffer, 1978, “Context Theory of Classification Learning,” Psychological Review, 85(3): 207–238. (Scholar)
  • Miller, Stanley L., 1953, “A Production of Amino Acids Under Possible Primitive Earth Conditions,” Science, 117(3046): 528–529. (Scholar)
  • Mix, Lucas John, 2018, Life Concepts from Aristotle to Darwin: On Vegetable Souls, New York: Springer. (Scholar)
  • –––, 2020, “Three Lives and Astrobiology,” in K.C. Smith and C. Mariscal (eds.) Social and Conceptual Issues in Astrobiology, Oxford: Oxford University Press, pp. 57–78. (Scholar)
  • More, Max and Natasha Vita-More, (eds.), 2013, The Transhumanist Reader: Classical and Contemporary Essays on the Science, Technology, and Philosophy of the Human Future, London: John Wiley & Sons. (Scholar)
  • Moreira, David and Purificación López-García, 2009, “Ten reasons to exclude viruses from the tree of life,” Nature Reviews Microbiology, 7(4): 306–311. (Scholar)
  • Murphy, Gregory L., and Douglas L. Medin, 1985, “The Role of Theories in Conceptual Coherence,” Psychological Review, 92(3): 289–316. (Scholar)
  • Nicholson, Daniel J. and Dupré, John, 2018, Everything Flows: Towards a Processual Philosophy of Biology, Oxford: Oxford University Press. (Scholar)
  • Noonan John T. Jr., 1967, “Abortion and the Catholic Church: A Summary History,” National Law Forum, 12: 85–131. (Scholar)
  • Nosofsky, Robert M., 1986, “Attention, similarity, and the identification categorization relationship,” Journal of Experimental Psychology: Learning, Memory, and Cognition, 115(1): 39–57. (Scholar)
  • Oparin, Aleksandr Ivanovich, 1961, Life: Its Nature, Origin and Development, New York: Academic Press. (Scholar)
  • –––, 1936 [2010], “The Nature of Life,” in M.A. Bedau and C.E. Cleland, The Nature of Life: Classical and Contemporary Perspectives from Philosophy and Science, New York: Cambridge University Press; this translation by Ann Synge was first published in A. I. Oparin, Life: Its nature, origin, and development, New York: Academic Press, 1964, pp. 1–37. (Scholar)
  • Pace, Norman R., 2001, “The Universal Nature of Biochemistry,” Proceedings of the National Academy of Sciences, 98(3): 805–808. (Scholar)
  • Pályi, Gyula, Claudia Zucchi, and Luciano Caglioti, (eds.), 2002, Fundamentals of Life, Paris: Elsevier. (Scholar)
  • Parke, Emily C., 2020, “Dimensions of Life Definitions,” in K.C. Smith & C. Mariscal (eds.), Social and Conceptual Issues in Astrobiology, Oxford: Oxford University Press, pp. 79–90. (Scholar)
  • Pearce, Ben K.D., Andrew S. Tupper, Ralph E. Pudritz, and Paul G. Higgs, 2018, “Constraining the time interval for the origin of life on Earth,” Astrobiology, 18(3): 343–364. (Scholar)
  • Peplow, Mark, 2005, “Formaldehyde claim inflames Martian debate,” Nature, published online 25 February 2005. doi:10.1038/news050221-15 (Scholar)
  • Peretó, Juli, Jeffrey L. Bada, and Antonio Lazcano, 2009, “Charles Darwin and the origin of life,” Origins of Life and Evolution of Biospheres, 39(5): 395–406. (Scholar)
  • Plato, Phaedrus, in Plato: Complete Works, J. Cooper and D. Hutchinson (eds.), Indianapolis: Hackett, 1997.
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  • –––, Timeaus, in Plato: Complete Works, J. Cooper and D. Hutchinson (eds.), Indianapolis: Hackett, 1997.
  • Popa, Radu, 2004, Between Necessity and Probability: Searching for the Definition and Origin of Life, New York: Springer. (Scholar)
  • Postgate, John, 2000, “The Twilight Zones of Microbiology,” Microbiology Today, 27: 162–163. (Scholar)
  • Ramsey, William, “Eliminative Materialism,” The Stanford Encyclopedia of Philosophy (Summer 2020 Edition), Edward N. Zalta (ed.), URL = <https://plato.stanford.edu/archives/sum2020/entries/materialism-eliminative/>. (Scholar)
  • Ray, Thomas S., 1993, “An evolutionary approach to synthetic biology: Zen and the art of creating life,” Artificial Life, 1(1/2): 179–209. (Scholar)
  • Rolston III, H., 2017, “Is there an Ecological Ethic?” in M. Wachs (ed.), Ethics in Planning, London: Routledge, pp. 299–317. (Scholar)
  • Rosch, Eleanor, and Mervis, C. B., 1975, “Family resemblance: Studies in the internal structure of categories,” Cognitive Psychology, 7: 573–605. (Scholar)
  • Rosch, Eleanor, 1978, “Principles of Categorization,” in E. Rosch and B.B. Lloyd (eds.), Cognition and Categorization, Hillsdale, NJ: Erlbaum, pp. 27–48. (Scholar)
  • Riskin, Jessica, 2016, The Restless Clock: A History of the Centuries-Long Argument Over what Makes Living Things Tick, Chicago: University of Chicago Press. (Scholar)
  • Sagan, Carl, 1970, “Life,” Encyclopedia Britannica, Chicago: Encyclopædia Britannica Incorporated, pp. 1083–1083A. (Scholar)
  • Scharf, Caleb, Nathaniel Virgo, H. James Cleaves III, Masashi Aono, Nathanael Aubert-Kato, Arsev Aydinoglu, Ana Barahona, Laura M. Barge, Steven A. Benner, Martin Biehl, Ramon Brasser, Christopher J. Butch, Kuhan Chandru, Leroy Cronin, Sabastian Danielache, Jakob Fischer, John Hernlund, Piet Hut, Takashi Ikegami, Jun Kimura, Kensei Kobayashi, Carlos Mariscal, Shawn McGlynn, Brice Menard, Norman Packard, Robert Pascal, Juli Pereto, Sudha Rajamani, Lana Sinapayen, Eric Smith, Christopher Switzer, Ken Takai, Feng Tian, Yuichiro Ueno, Mary Voytek, Olaf Witkowski, and Hikaru Yabuta, 2015, “A Strategy for Origins of Life Research,” Astrobiology, 15(12): 1031–1042.
  • Schopf, J. William, 1993, “Microfossils of the Early Archean Apex chert: new evidence of the antiquity of life,” Science, 260(5108): 640–646. (Scholar)
  • Schopf, J. William, Kouki Kitajima, Michael J. Spicuzza, Anatoliy B. Kudryavtsev, and John W. Valley, 2018, “SIMS analyses of the oldest known assemblage of microfossils document their taxon-correlated carbon isotope compositions,” Proceedings of the National Academy of Sciences, 115(1): 53–58.
  • Schulze-Makuch, Dirk, Huade Guan, Louis N. Irwin, E Vega, 2002, “Redefining life: An ecological, thermodynamic, and bioinformatic approach,” in G. Pályi, C. Zucchi, L. Caglioti (eds.), Fundamentals of Life, New York: Elsevier, pp. 169–179. (Scholar)
  • Slater, Matthew H., 2015, “Natural Kindness,” The British Journal for the Philosophy of Science, 66(2): 375–411. (Scholar)
  • Smith, J. David, 2002, “Exemplar Theory’s Predicted Typicality Gradient can be Tested and Disconfirmed,” Psychological Science, 13(5): 437–442. (Scholar)
  • Smith, Kelly C., 2020, “METI or REGRETTI,” in K.C. Smith and C. Mariscal (eds.), Social and Conceptual Issues in Astrobiology, Oxford: Oxford University Press, pp. 209–235.
  • Sober, Elliott, 1991, “Learning from Functionalism: prospects for strong artificial life,” in C.G. Langton, C. Taylor, J.D. Farmer, and S. Rasmussen (eds.), Artificial life II (Santa Fe Institute Studies in the Sciences of Complexity: Proceedings Volume X), Redwood City, CA: Addison-Wesley, pp. 749–765. (Scholar)
  • Stewart, Potter, 1964, “Jacobellis vs. Ohio,” 378 U.S. 184, 197. (Scholar)
  • Szostak, Jack W., 2012, “Attempts to Define Life Do Not Help to Understand the Origin of Life.” Journal of Biomolecular Structure & Dynamics, 29(4): 599–600. doi: 10.1080/073911012010524998 (Scholar)
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  • Tsokolov, Serhiy A., 2009, “Why Is the Definition of Life So Elusive? Epistemological Considerations,” Astrobiology, 9(4): 401–412. doi:10.1089/ast.2007.0201 (Scholar)
  • Wächtershäuser, Günter, 1988, “Before Enzymes and templates: Theory of Surface Metabolism,” Microbiological Reviews, 52(4): 452–484. (Scholar)
  • Weber, Bruce H., 2007, “Emergence of life,” Zygon, 42: 837–856. (Scholar)
  • –––, 2010, “What is Life? Defining Life in the Context of Emergent Complexity,” Origins of Life and Evolution of Biospheres, 40: 221–229. (Scholar)
  • Webster, Christopher R., Paul R. Mahaffy, Sushil K. Atreya, John E. Moores, Gregory J. Flesch, Charles Malespin, Christopher P. McKay, German Martinez, G., Christina L. Smith, Javier Martin-Torres, Javier Gomez-Elvira, Maria-Paz Zorzano, Michael H. Wong, Melissa G. Trainer, Andrew Steele, Doug Archer Jr., Brad Sutter, Patrice J. Coll, Caroline Freissinet, Pierre-Yves Meslin, Raina V. Gough, Christopher H. House, Alexander Pavlov, Jennifer L. Eigenbrode, Daniel P. Glavin, John C. Pearson, Didier Keymeulen, Lance E. Christensen, Susanne P. Schwenzer, Rafael Navarro-Gonzalez, Jorge Pla-García, Scot C.R. Rafkin, Álvaro Vicente-Retortillo, Henrik Kahanpää, Daniel Viudez-Moreiras, Michael D. Smith, Ari-Matti Harri, Maria Genzer, Donald M. Hassler, Mark Lemmon, Joy Crisp, Stanley P. Sander, Richard W. Zurek, Ashwin R. Vasavada, 2018, “Background Levels of Methane in Mars’ Atmosphere Show Strong Seasonal Variations,” Science, 360(6393): 1093–1096.
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  • Woese, Carl R. and George E. Fox, 1977, “The Concept of Cellular Evolution,” Journal of Molecular Evolution, 10(1): 1–6. (Scholar)
  • Woese, Carl R., 1998, “The Universal Ancestor,” Proceedings of the National Academy of Sciences, 95(12): 6854–6859. (Scholar)

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