Abbot, D. S., & Switzer, E. R. (2011). The Steppenwolf: A proposal for a habitable planet in interstellar space. The Astrophysical Journal Letters, 735(2), L27.
Abramov, O., & Mojzsis, S. J. (2009). Microbial habitability of the Hadean Earth during the late heavy bombardment. Nature, 459(7245), 419–422.
Alcott, L. J., Mills, B. J., & Poulton, S. W. (2019). Stepwise Earth oxygenation is an inherent property of global biogeochemical cycling. Science, 366(6471), 1333–1337.
Alleon, J., & Summons, R. E. (2019). Organic geochemical approaches to understanding early life. Free Radical Biology and Medicine, 140, 103–112.
Ball, P. (2017). Water is an active matrix of life for cell and molecular biology. Proceedings of the National Academy of Sciences, 114(51), 13327–13335.
Baumgartner, R. J., Van Kranendonk, M. J., Wacey, D., Fiorentini, M. L., Saunders, M., Caruso, S., Pages, A., Homann, M., & Guagliardo, P. (2019). Nano-porous pyrite and organic matter in 3.5-billion-year-old stromatolites record primordial life. Geology, 47(11), 1039–1043.
Berezovsky, I. N., & Shakhnovich, E. I. (2005). Physics and evolution of thermophilic adaptation. Proceedings of the National Academy of Sciences, 102(36), 12742–12747.
Bernhardt, H. S. (2012). The RNA world hypothesis: The worst theory of the early evolution of life (except for all the others). Biology Direct, 7(1), 23.
Betts, H. C., Puttick, M. N., Clark, J. W., Williams, T. A., Donoghue, P. C., & Pisani, D. (2018). Integrated genomic and fossil evidence illuminates life’s early evolution and eukaryote origin. Nature Ecology & Evolution, 2(10), 1556–1562.
Bidle, K. D., Lee, S., Marchant, D. R., & Falkowski, P. G. (2007). Fossil genes and microbes in the oldest ice on Earth. Proceedings of the National Academy of Sciences, 104(33), 13455–13460.
Billings, S. E., & Kattenhorn, S. A. (2005). The great thickness debate: Ice shell thickness models for Europa and comparisons with estimates based on flexure at ridges. Icarus, 177(2), 397–412.
Blair, C. C., D’Hondt, S., Spivack, A. J., & Kingsley, R. H. (2007). Radiolytic hydrogen and microbial respiration in subsurface sediments. Astrobiology, 7(6), 951–970.
Bond, D. P., & Grasby, S. E. (2017). On the causes of mass extinctions. Palaeogeography, Palaeoclimatology, Palaeoecology, 478, 3–29.
Bottke, W. F., & Norman, M. D. (2017). The late heavy bombardment. Annual Review of Earth and Planetary Sciences, 45, 619–647.
Bouvier, A., & Wadhwa, M. (2010). The age of the solar system redefined by the oldest Pb–Pb age of a meteoritic inclusion. Nature Geoscience, 3(9), 637–641.
Briot, D. (2012). A possible first use of the word astrobiology? Astrobiology, 12(12), 1154–1156.
Brock, T. D. (1967). Micro-organisms adapted to high temperatures. Nature, 214(5091), 882–885.
Cassan, A., Kubas, D., Beaulieu, J.P., Dominik, M., Horne, K., Greenhill, J., Wambsganss, J., Menzies, J., Williams, A., Jørgensen, U. G., Udalski, A., Bennett, D. P., Albrow, M. D., Batista, V., Brillant, S., Caldwell, J. A. R., Cole, A., Coutures, C., Cook, K. H., . . . Wyrzykowski, Ł. (2012). One or more bound planets per Milky Way star from microlensing observations. Nature, 481(7380), 167–169.
Chapman, C. R., Cohen, B. A., & Grinspoon, D. H. (2007). What are the real constraints on the existence and magnitude of the late heavy bombardment? Icarus, 189(1), 233–245.
Chassefière, E., Leblanc, F., & Langlais, B. (2007). The combined effects of escape and magnetic field histories at Mars. Planetary and Space Science, 55(3), 343–357.
Chyba, C., & Sagan, C. (1992). Endogenous production, exogenous delivery and impact-shock synthesis of organic molecules: An inventory for the origins of life. Nature, 355(6356), 125–132.
Clark, B. C. (2001). Planetary interchange of bioactive material: Probability factors and implications. Origins of Life and Evolution of the Biosphere, 31(1–2), 185–197.
Cleaves, H. J., Chalmers, J. H., Lazcano, A., Miller, S. L., & Bada, J. L. (2008). A reassessment of prebiotic organic synthesis in neutral planetary atmospheres. Origins of Life and Evolution of Biospheres, 38(2), 105–115.
Cleland, C. E., & Chyba, C. F. (2002). Defining “life.” Origins of Life and Evolution of the Biosphere, 32(4), 387–393.
Clifford, S. M., Lasue, J., Heggy, E., Boisson, J., McGovern, P., & Max, M. D. (2010). Depth of the Martian cryosphere: Revised estimates and implications for the existence and detection of subpermafrost groundwater. Journal of Geophysical Research: Planets, 115, E07001.
co*ckell, C. S. (1999). Life on Venus. Planetary and Space Science, 47(12), 1487–1501.
co*ckell, C. S. (2001). “Astrobiology” and the ethics of new science. Interdisciplinary Science Reviews, 26(2), 90–96.
co*ckell, C. S., Brack, A., Wynn-Williams, D. D., Baglioni, P., Brandstätter, F., Demets, R., Edwards, H. G. M., Gronstal, A. L., Kurat, G., Lee, P., Osinski, G. R., Pearce, D. A., Pillinger, J. M., Roten, C.A., & Sancisi-Frey, S. (2007). Interplanetary transfer of photosynthesis: An experimental demonstration of a selective dispersal filter in planetary island biogeography. Astrobiology, 7(1), 1–9.
co*ckell, C. S., Bush, T., Bryce, C., Direito, S., Fox-Powell, M., Harrison, J. P., Lammer, H., Landenmark, H., Martin-Torres, J., Nicholson, N., Noack, L., O’Malley-James, J., Payler, S. J., Rushby, A., Samuels, T., Schwendner, P., Wadsworth, J., & Zorzano, M. P. (2016). Habitability: A review. Astrobiology, 16(1), 89–117.
Coveney, P. V., Swadling, J. B., Wattis, J. A., & Greenwell, H. C. (2012). Theory, modelling and simulation in origins of life studies. Chemical Society Reviews, 41(16), 5430–5446.
Cronin, L. (2017). Reaction: A new genesis for origins research? Chem, 2(5), 601–603.
DasSarma, S., & Schwieterman, E. W. (2018). Early evolution of purple retinal pigments on Earth and implications for exoplanet biosignatures. International Journal of Astrobiology,.
de La Torre, R., Sancho, L. G., Horneck, G., de los Ríos, A., Wierzchos, J., Olsson-Francis, K., co*ckell, C. S., Rettberg, P., Berger, T., de Vera, J. P. P., Ott, S., Frías, J. M., Melendi, P. G., Lucas, M. M., Reina, M., Pintado, A., & Demets, R. (2010). Survival of lichens and bacteria exposed to outer space conditions—Results of the Lithopanspermia experiments. Icarus, 208(2), 735–748.
Des Marais, D. J., Nuth, J. A., III, Allamandola, L. J., Boss, A. P., Farmer, J. D., Hoehler, T. M., Jakosky, B. M., Meadows, V. S., Pohorille, A., Runnegar, B., & Spormann, A. M. (2008). The NASA astrobiology roadmap. Astrobiology, 8(4), 715–730.
Domagal-Goldman, S. D., Meadows, V. S., Claire, M. W., & Kasting, J. F. (2011). Using biogenic sulfur gases as remotely detectable biosignatures on anoxic planets. Astrobiology, 11(5), 419–441.
Dougherty, M. K., Khurana, K. K., Neubauer, F. M., Russell, C. T., Saur, J., Leisner, J. S., & Burton, M. E. (2006). Identification of a dynamic atmosphere at Enceladus with the Cassini magnetometer. Science, 311(5766), 1406–1409.
Dyson, F. J. (1960). Search for artificial stellar sources of infrared radiation. Science, 131(3414), 1667–1668.
Dzieciol, A. J., & Mann, S. (2012). Designs for life: Protocell models in the laboratory. Chemical Society Reviews, 41(1), 79–85.
Edson, A. R., Kasting, J. F., Pollard, D., Lee, S., & Bannon, P. R. (2012). The carbonate-silicate cycle and CO2/climate feedbacks on tidally locked terrestrial planets. Astrobiology, 12(6), 562–571.
Erastova, V., Degiacomi, M. T., Fraser, D. G., & Greenwell, H. C. (2017). Mineral surface chemistry control for origin of prebiotic peptides. Nature Communications, 8(1), 1–9.
Farley, K. A., Malespin, C., Mahaffy, P., Grotzinger, J. P., Vasconcelos, P. M., Milliken, R. E., Malin, M., Edgett, K. S., Pavlov, A. A., Hurowitz, J. A., Grant, J. A., Miller, H. B., Arvidson, R., Beegle, L., Calef, F., Conrad, P. G., Dietrich, W. E., Eigenbrode, J., Gellert, R., . . . the MSL Science Team. (2014). In situ radiometric and exposure age dating of the Martian surface. Science, 343(6169), 1247166.
Foley, B. J. (2015). The role of plate tectonic–climate coupling and exposed land area in the development of habitable climates on rocky planets. The Astrophysical Journal, 812(1), 36.
Formisano, V., Atreya, S., Encrenaz, T., Ignatiev, N., & Giuranna, M. (2004). Detection of methane in the atmosphere of Mars. Science, 306(5702), 1758–1761.
Foucher, F., Westall, F., Brandstätter, F., Demets, R., Parnell, J., co*ckell, C. S., Edwards, H. G. M., Bény, J.M., & Brack, A. (2010). Testing the survival of microfossils in artificial Martian sedimentary meteorites during entry into Earth’s atmosphere: The STONE 6 experiment. Icarus, 207(2), 616–630.
Fox-Powell, M. G., Hallsworth, J. E., Cousins, C. R., & co*ckell, C. S. (2016). Ionic strength is a barrier to the habitability of Mars. Astrobiology, 16(6), 427–442.
See AlsoAs ‘NCIS’ Celebrates 1,000 Episodes, Cast Members Talk Longevity: ‘None of It Has Ever Felt Boring to Me’Can Russ Yeast handle the ‘star role’ in the Rams defense?Sean D. Murray on LinkedIn: 23 years ago I created my first opportunity as an SDR; the General Counsel…Fact File: The Magician's Apprentice / The Witch's FamiliarFreissinet, C., Glavin, D. P., Mahaffy, P. R., Miller, K. E., Eigenbrode, J. L., Summons, R. E., Brunner, A. E., Buch, A., Szopa, C., Archer, P. D., Jr., Franz, H. B., Atreya, S. K., Brinckerhoff, W. B., Cabane, M., Coll, P., Conrad, P. G., Des Marais, D. J., Dworkin, J. P., Fairén, A. G., . . . the MSL Science Team. (2015). Organic molecules in the Sheepbed Mudstone, Gale crater, Mars. Journal of Geophysical Research: Planets, 120(3), 495–514.
Furukawa, Y., Chikaraishi, Y., Ohkouchi, N., Ogawa, N. O., Glavin, D. P., Dworkin, J. P., Abe, C., & Nakamura, T. (2019). Extraterrestrial ribose and other sugars in primitive meteorites. Proceedings of the National Academy of Sciences, 116(49), 24440–24445.
García Ruiz, J. M., Carnerup, A., Christy, A. G., Welham, N. J., & Hyde, S. T. (2002). Morphology: An ambiguous indicator of biogenicity. Astrobiology, 2(3), 353–369.
Greaves, J. S., Richards, A. M., Bains, W., Rimmer, P. B., Sagawa, H., Clements, D. L., Seager, S., Petkowski, J. J., Sousa-Silva, C., Ranjan, S., Drabek-Maunder, E., Fraser, H. J., Cartwright, A., Mueller-Wodarg, I., Zhan, Z., Friberg, P., Coulson, I., Lee, E., & Hoge, J. (2020). Phosphine gas in the cloud decks of Venus. Nature Astronomy.
Grinspoon, D. H., & Bullock, M. A. (2007). Astrobiology and Venus exploration. Geophysical Monograph–American Geophysical Union, 176, 191.
Grotzinger, J. P., Sumner, D. Y., Kah, L. C., Stack, K., Gupta, S., Edgar, L., Rubin, D., Lewis, K., Schieber, J., Mangold, N., Milliken, R., Conrad, P. G., Des Marais, D., Farmer, J., Siebach, K., Calef, F.,III, Hurowitz, J., McLennan, S. M., Ming, D., . . . the MSL Science Team. (2014). A habitable fluvio-lacustrine environment at Yellowknife Bay, Gale crater, Mars. Science, 343(6169), 1242777.
Halevy, I., & Bachan, A. (2017). The geologic history of seawater pH. Science, 355(6329), 1069–1071.
Hand, K. P., & Chyba, C. F. (2007). Empirical constraints on the salinity of the Europan Ocean and implications for a thin ice shell. Icarus, 189(2), 424–438.
Hand, K. P., Chyba, C. F., Priscu, J. C., Carlson, R. W., & Nealson, K. H. (2009). Astrobiology and the potential for life on Europa. In R. T. Pappalardo, W. B. McKinnon, K. Khurana, & Lunar and Planetary Institute (Eds.), Europa (pp. 589–629). University of Arizona Press.
Hand, K. P., Sotin, C., Hayes, A., & Coustenis, A. (2020). On the habitability and future exploration of ocean worlds. Space Science Reviews, 216(5), 1–24.
Hansen, V. L. (2007). Subduction origin on early Earth: A hypothesis. Geology, 35(12), 1059–1062.
Hickman-Lewis, K., Cavalazzi, B., Sorieul, S., Gautret, P., Foucher, F., Whitehouse, M. J., Jeon, H., Georgelin, T., co*ckell, C. S., & Westall, F. (2020). Metallomics in deep time and the influence of ocean chemistry on the metabolic landscapes of Earth’s earliest ecosystems. Scientific Reports, 10(1), 1–16.
Hoehler, T. M. (2007). An energy balance concept for habitability. Astrobiology, 7(6), 824–838.
Hsu, H. W., Postberg, F., Sekine, Y., Shibuya, T., Kempf, S., Horányi, M., Juha’sz, A., Altobelli, N., Suzuki, K., Masaki, Y., Kuwatani, T., Tachibana, S., Sirono, S., Moragas-Klostermeyer, G., & Srama, R. (2015). Ongoing hydrothermal activities within Enceladus. Nature, 519(7542), 207–210.
Hull, P. M., Bornemann, A., Penman, D. E., Henehan, M. J., Norris, R. D., Wilson, P. A., Blum, P., Alegret, L., Batenburg, S., Bown, P. R., Bralower, T. J., Cournede, C., Deutsch, A., Donner, B., Friedrich, O., Jehle, S., Kim, H., Kroon, D., Lippert, P., . . . Zachos, J. C. (2020). On impact and volcanism across the Cretaceous-Paleogene boundary. Science, 367(6475), 266–272.
Hurowitz, J. A., Grotzinger, J. P., Fischer, W. W., McLennan, S. M., Milliken, R. E., Stein, N., Vasavada, A. R., Blake, D. F., Dehouck, E., Eigenbrode, J. L., Fairén, A. G., Frydenvang, J., Gellert, R., Grant, J. A., Gupta, S., Herkenhoff, K. E., Ming, D. W., Rampe, E. B., Schmidt, M. E., . . . Wiens, R. C. (2017). Redox stratification of an ancient lake in Gale crater, Mars. Science, 356(6341), eaah6849.
Jacobson, S. A., Morbidelli, A., Raymond, S. N., O’Brien, D. P., Walsh, K. J., & Rubie, D. C. (2014). Highly siderophile elements in Earth’s mantle as a clock for the Moon-forming impact. Nature, 508(7494), 84–87.
Jakosky, B. M., Slipski, M., Benna, M., Mahaffy, P., Elrod, M., Yelle, R., Stone, S., & Alsaeed, N. (2017). Mars’ atmospheric history derived from upper-atmosphere measurements of 38Ar/36Ar. Science, 355(6332), 1408–1410.
Javaux, E. J. (2019). Challenges in evidencing the earliest traces of life. Nature, 572(7770), 451–460.
Jia, X., Kivelson, M. G., Khurana, K. K., & Kurth, W. S. (2018). Evidence of a plume on Europa from Galileo magnetic and plasma wave signatures. Nature Astronomy, 2(6), 459–464.
Johnson, S. S., Anslyn, E. V., Graham, H. V., Mahaffy, P. R., & Ellington, A. D. (2018). Fingerprinting non-terran biosignatures. Astrobiology, 18(7), 915–922.
Johnston, D. T. (2011). Multiple sulfur isotopes and the evolution of Earth’s surface sulfur cycle. Earth-Science Reviews, 106(1–2), 161–183.
Jordan, S. F., Rammu, H., Zheludev, I. N., Hartley, A. M., Marechal, A., & Lane, N. (2019). Promotion of protocell self-assembly from mixed amphiphiles at the origin of life. Nature Ecology & Evolution, 3(12), 1705–1714.
Kasper, M., Beuzit, J. L., Verinaud, C., Gratton, R. G., Kerber, F., Yaitskova, N., Boccaletti, A., Thatte, N., Schmid, H. M., Keller, C., Baudoz, P., Abe, L., Aller-Carpentier, E., Antichi, J., Bonavita, M., Dohlen, K., Fedrigo, E., Hanenburg, H., Hubin, N., . . . Venema, L. (2010, July). EPICS: Direct imaging of exoplanets with the E-ELT. In I. S. McLean, S. K. Ramsay, & H. Takami (Eds.), Ground-based and airborne instrumentation for astronomy III (Vol. 7735, p. 77352E). International Society for Optics and Photonics.
Kasting, J. F., Whitmire, D. P., & Reynolds, R. T. (1993). Habitable zones around main sequence stars. Icarus, 101(1), 108–128.
Kattenhorn, S. A., & Prockter, L. M. (2014). Evidence for subduction in the ice shell of Europa. Nature Geoscience, 7(10), 762–767.
Kenrick, P., Wellman, C. H., Schneider, H., & Edgecombe, G. D. (2012). A timeline for terrestrialization: Consequences for the carbon cycle in the Palaeozoic. Philosophical Transactions of the Royal Society B: Biological Sciences, 367(1588), 519–536.
Khawaja, N., Postberg, F., Hillier, J., Klenner, F., Kempf, S., Nölle, L., Reviol, R., Zou, Z., & Srama, R. (2019). Low-mass nitrogen-, oxygen-bearing, and aromatic compounds in Enceladean ice grains. Monthly Notices of the Royal Astronomical Society, 489(4), 5231–5243.
Khurana, K. K., Kivelson, M. G., Stevenson, D. J., Schubert, G., Russell, C. T., Walker, R. J., & Polanskey, C. (1998). Induced magnetic fields as evidence for subsurface oceans in Europa and Callisto. Nature, 395(6704), 777–780.
Kieft, T. L. (2016). Microbiology of the deep continental biosphere. In C. J. Hurst (Ed.), Their world: A diversity of microbial environments (pp. 225–249). Springer.
Kopparapu, R. K., Ramirez, R., Kasting, J. F., Eymet, V., Robinson, T. D., Mahadevan, S., . . . Deshpande, R. (2013). Habitable zones around main-sequence stars: New estimates. The Astrophysical Journal, 765(2), 131.
Kopparapu, R. K., Ramirez, R. M., SchottelKotte, J., Kasting, J. F., Domagal-Goldman, S., & Eymet, V. (2014). Habitable zones around main-sequence stars: Dependence on planetary mass. The Astrophysical Journal Letters, 787(2), L29.
Korablev, O., Vandaele, A. C., Montmessin, F., Fedorova, A. A., Trokhimovskiy, A., Forget, F., Lefèvre, F., Daerden, F., Thomas, I. R., Trompet, L., Erwin, J. T., Aoki, S., Robert, S., Neary, L., Viscardy, S., Grigoriev, A. V., Ignatiev, N. I., Shakun, A., Patrakeev, A., & the ACS and NOMAD Science Teams. (2019). No detection of methane on Mars from early ExoMars Trace Gas Orbiter observations. Nature, 568(7753), 517–520.
Koshland, D. E. (2002). The seven pillars of life. Science, 295(5563), 2215–2216.
Krause, A. J., Mills, B. J., Zhang, S., Planavsky, N. J., Lenton, T. M., & Poulton, S. W. (2018). Stepwise oxygenation of the Paleozoic atmosphere. Nature Communications, 9(1), 1–10.
Krissansen-Totton, J., Olson, S., & Catling, D. C. (2018). Disequilibrium biosignatures over Earth history and implications for detecting exoplanet life. Science Advances, 4(1), eaao5747.
Kruger, K., Grabowski, P. J., Zaug, A. J., Sands, J., Gottschling, D. E., & Cech, T. R. (1982). Self-splicing RNA: Autoexcision and autocyclization of the ribosomal RNA intervening sequence of Tetrahymena. Cell, 31(1), 147–157.
Lane, N. (2017). Serial endosymbiosis or singular event at the origin of eukaryotes? Journal of Theoretical Biology, 434, 58–67.
Lasue, J., Clifford, S. M., Conway, S. J., Mangold, N., & Butcher, F. E. (2019). The hydrology of Mars including a potential cryosphere. In J. Filiberto & S. P. Schwenzer (Eds.), Volatiles in the Martian crust (pp. 185–246). Elsevier.
Lauro, S. E., Pettinelli, E., Caprarelli, G., Guallini, L., Rossi, A. P., Mattei, E., Cosciotti, B., Cicchetti, A., Soldovieri, F., Cartacci, M., Di Paolo, F., Noschese, R., & Orosei, R. (2020). Multiple subglacial water bodies below the South Pole of Mars unveiled by new MARSIS data. Nature Astronomy, 5, 63–70.
Lederberg, J. (1960). Exobiology: Approaches to life beyond the Earth. Science, 132(3424), 393–400.
Lenton, T. M. (2002). Testing Gaia: The effect of life on Earth’s habitability and regulation. Climatic Change, 52(4), 409–422.
Levin, G. V., & Straat, P. A. (2016). The case for extant life on Mars and its possible detection by the Viking labeled release experiment. Astrobiology, 16(10), 798–810.
Lincoln, T. A., & Joyce, G. F. (2009). Self-sustained replication of an RNA enzyme. Science, 323(5918), 1229–1232.
Lorenz, R. D., Turtle, E. P., Barnes, J. W., Trainer, M. G., Adams, D. S., Hibbard, K. E., Sheldon, C. Z., Zacny, K., Peplowski, P. N., Lawrence, D. J., Ravine, M. A., McGee, T. G., Sotzen, K. S., MacKenzie, S. M., Langelaan, J. W., Schmitz, S., Wolfarth, L. S., & Bedini, P. D. (2018). Dragonfly: A rotorcraft lander concept for scientific exploration at Titan. Johns Hopkins APL Technical Digest, 34(3), 14.
Louca, S., Shih, P. M., Pennell, M. W., Fischer, W. W., Parfrey, L. W., & Doebeli, M. (2018). Bacterial diversification through geological time. Nature Ecology & Evolution, 2(9), 1458–1467.
See AlsoScott Foster officiating game 4Lunine, J. I., Cable, M. L., Hörst, S. M., & Rahm, M. (2020). The astrobiology of Titan. In V. Meadows, G. Arney, B. Schmidt, & D. J. Des Marais (Eds.), Planetary astrobiology (pp. 247–266). University of Arizona Press.
Lustig-Yaeger, J., Meadows, V. S., & Lincowski, A. P. (2019). The detectability and characterization of the TRAPPIST-1 exoplanet atmospheres with JWST. The Astronomical Journal, 158(1), 27.
Machel, H. G. (2001). Bacterial and thermochemical sulfate reduction in diagenetic settings—Old and new insights. Sedimentary Geology, 140(1–2), 143–175.
Margulis, L., & Lovelock, J. E. (1974). Biological modulation of the Earth’s atmosphere. Icarus, 21(4), 471–489.
Marshall, S. M., Murray, A. R., & Cronin, L. (2017). A probabilistic framework for identifying biosignatures using pathway complexity. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 375(2109), 20160342.
Martin, W., & Russell, M. J. (2003). On the origins of cells: A hypothesis for the evolutionary transitions from abiotic geochemistry to chemoautotrophic prokaryotes, and from prokaryotes to nucleated cells. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences, 358(1429), 59–85.
McCollom, T. M. (2013). Laboratory simulations of abiotic hydrocarbon formation in Earth’s deep subsurface. Reviews in Mineralogy and Geochemistry, 75(1), 467–494.
McCollom, T. M., Ritter, G., & Simoneit, B. R. (1999). Lipid synthesis under hydrothermal conditions by Fischer-Tropsch-type reactions. Origins of Life and Evolution of the Biosphere, 29(2), 153–166.
McCollom, T. M., & Seewald, J. S. (2006). Carbon isotope composition of organic compounds produced by abiotic synthesis under hydrothermal conditions. Earth and Planetary Science Letters, 243(1–2), 74–84.
McElwain, J. C., & Punyasena, S. W. (2007). Mass extinction events and the plant fossil record. Trends in Ecology & Evolution, 22(10), 548–557.
McKay, C. P. (2016). Titan as the abode of life. Life, 6(1), 8.
McKay, C. P., & Marinova, M. M. (2001). The physics, biology, and environmental ethics of making Mars habitable. Astrobiology, 1(1), 89–109.
McKay, C. P., & Smith, H. D. (2005). Possibilities for methanogenic life in liquid methane on the surface of Titan. Icarus, 178(1), 274–276.
McKay, D. S., Gibson, E. K., Thomas-Keprta, K. L., Vali, H., Romanek, C. S., Clemett, S. J., Chillier, X. D. F., Maechling, C. R., & Zare, R. N. (1996). Search for past life on Mars: Possible relic biogenic activity in Martian meteorite ALH84001. Science, 273(5277), 924–930.
McMahon, S. (2019). Earth’s earliest and deepest purported fossils may be iron-mineralized chemical gardens. Proceedings of the Royal Society B, 286(1916), 20192410.
McMahon, S., O’Malley-James, J., & Parnell, J. (2013). Circ*mstellar habitable zones for deep terrestrial biospheres. Planetary and Space Science, 85, 312–318.
McMahon, S., & Parnell, J. (2018). The deep history of Earth’s biomass. Journal of the Geological Society, 175(5), 716–720.
McMahon, S., Parnell, J., & Blamey, N. J. (2016). Evidence for seismogenic hydrogen gas, a potential microbial energy source on Earth and Mars. Astrobiology, 16(9), 690–702.
Miller, S. L. (1953). A production of amino acids under possible primitive earth conditions. Science, 117(3046), 528–529.
Mills, D. B., & Canfield, D. E. (2014). Oxygen and animal evolution: Did a rise of atmospheric oxygen “trigger” the origin of animals? BioEssays, 36(12), 1145–1155.
Mojzsis, S. J., Brasser, R., Kelly, N. M., Abramov, O., & Werner, S. C. (2019). Onset of giant planet migration before 4480 million years ago. The Astrophysical Journal, 881(1), 44.
Mumma, M. J., Villanueva, G. L., Novak, R. E., Hewagama, T., Bonev, B. P., DiSanti, M. A., Mandell, A. M., & Smith, M. D. (2009). Strong release of methane on Mars in northern summer 2003. Science, 323(5917), 1041–1045.
Musilova, M., Wright, G., Ward, J. M., & Dartnell, L. R. (2015). Isolation of radiation-resistant bacteria from Mars analog Antarctic dry valleys by preselection, and the correlation between radiation and desiccation resistance. Astrobiology, 15(12), 1076–1090.
Navarro‐González, R., Vargas, E., de La Rosa, J., Raga, A. C., & McKay, C. P. (2010). Reanalysis of the Viking results suggests perchlorate and organics at midlatitudes on Mars. Journal of Geophysical Research: Planets, 115, E12010.
National Academies of Sciences, Engineering, and Medicine. (2019). An astrobiology strategy for the search for life in the universe. National Academies Press.
Neveu, M., Kim, H. J., & Benner, S. A. (2013). The “strong” RNA world hypothesis: Fifty years old. Astrobiology, 13(4), 391–403.
Oberholzer, T., Wick, R., Luisi, P. L., & Biebricher, C. K. (1995). Enzymatic RNA replication in self-reproducing vesicles: An approach to a minimal cell. Biochemical and Biophysical Research Communications, 207(1), 250–257.
Olson, S. L., Schwieterman, E. W., Reinhard, C. T., Ridgwell, A., Kane, S. R., Meadows, V. S., & Lyons, T. W. (2018). Atmospheric seasonality as an exoplanet biosignature. The Astrophysical Journal Letters, 858(2), L14.
O’Malley-James, J. T., Greaves, J. S., Raven, J. A., & co*ckell, C. S. (2013). Swansong biospheres: Refuges for life and novel microbial biospheres on terrestrial planets near the end of their habitable lifetimes. International Journal of Astrobiology, 12(2), 99–112.
O’Malley-James, J. T., & Kaltenegger, L. (2018). Biofluorescent worlds: Global biological fluorescence as a biosignature. Monthly Notices of the Royal Astronomical Society, 481(2), 2487–2496.
O’Malley-James, J. T., Raven, J. A., co*ckell, C. S., & Greaves, J. S. (2012). Life and light: Exotic photosynthesis in binary and multiple-star systems. Astrobiology, 12(2), 115–124.
O’Neill, C., Marchi, S., Zhang, S., & Bottke, W. (2017). Impact-driven subduction on the Hadean Earth. Nature Geoscience, 10(10), 793–797.
Onofri, S., de la Torre, R., de Vera, J. P., Ott, S., Zucconi, L., Selbmann, L., Giuliano Scalzi, G., Venkateswaran, K. J., Rabbow, E., Sanchez Inigo, F. J., & Horneck, G. (2012). Survival of rock-colonizing organisms after 1.5 years in outer space. Astrobiology, 12(5), 508–516.
Orosei, R., Lauro, S. E., Pettinelli, E., Cicchetti, A., Coradini, M., Cosciotti, B., Di Paolo, F., Flamini, E., Mattei, E., Pajola, M., Soldovieri, F., Cartacci, M., Cassenti, F., Frigeri, A., Giuppi, S., Martufi, R., Masdea, A., Mitri, G., Nenna, C., . . . Seu, R. (2018). Radar evidence of subglacial liquid water on Mars. Science, 361(6401), 490–493.
Pasek, M., & Lauretta, D. (2008). Extraterrestrial flux of potentially prebiotic C, N, and P to the early Earth. Origins of Life and Evolution of Biospheres, 38(1), 5–21.
Petigura, E. A., Howard, A. W., & Marcy, G. W. (2013). Prevalence of Earth-size planets orbiting Sun-like stars. Proceedings of the National Academy of Sciences, 110(48), 19273–19278.
Pizzarello, S., & Yarnes, C. T. (2016). Enantiomeric excesses of chiral amines in ammonia-rich carbonaceous meteorites. Earth and Planetary Science Letters, 443, 176–184.
Planavsky, N. J., Asael, D., Hofmann, A., Reinhard, C. T., Lalonde, S. V., Knudsen, A., Wang, X., Ossa, F. O., Pecoits, E., Smith, A. J. B., Beukes, N. J., Bekker, A., Johnson, T. M., Konhauser, K. O., Lyons, T. W., & Rouxel, O. J. (2014). Evidence for oxygenic photosynthesis half a billion years before the Great Oxidation Event. Nature Geoscience, 7(4), 283–286.
Postberg, F., Kempf, S., Schmidt, J., Brilliantov, N., Beinsen, A., Abel, B., Buck, U., & Srama, R. (2009). Sodium salts in E-ring ice grains from an ocean below the surface of Enceladus. Nature, 459(7250), 1098–1101.
Powner, M. W., Gerland, B., & Sutherland, J. D. (2009). Synthesis of activated pyrimidine ribonucleotides in prebiotically plausible conditions. Nature, 459(7244), 239–242.
Prantzos, N. (2013). A joint analysis of the Drake equation and the Fermi paradox. International Journal of Astrobiology, 12(3), 246–253.
Preiner, M., Asche, S., Becker, S., Betts, H. C., Boniface, A., Camprubi, E., Chandru, K., Erastova, V., Garg, S. G., Khawaja, N., Kostyrka, G., Machné, R., Moggioli, G., Muchowska, K. B., Neukirchen, S., Peter, B., Pichlhöfer, E., Radványi, Á., Rossetto, D., . . . Vörös, D. (2020). The future of origin of life research: Bridging decades-old divisions. Life, 10(3), 20.
Reiners, P. W., & Turchyn, A. V. (2018). Extraterrestrial dust, the marine lithologic record, and global biogeochemical cycles. Geology, 46(10), 863–866.
Reinhard, C. T., Olson, S. L., Schwieterman, E. W., & Lyons, T. W. (2017). False negatives for remote life detection on ocean-bearing planets: Lessons from the early Earth. Astrobiology, 17(4), 287–297.
Rimmer, P. B., & Rugheimer, S. (2019). Hydrogen cyanide in nitrogen-rich atmospheres of rocky exoplanets. Icarus, 329, 124–131.
Robertson, D. S., McKenna, M. C., Toon, O. B., Hope, S., & Lillegraven, J. A. (2004). Survival in the first hours of the Cenozoic. Geological Society of America Bulletin, 116(5–6), 760–768.
Rosing, M. T., & Frei, R. (2004). U-rich Archaean sea-floor sediments from Greenland—Indications of >3700 Ma oxygenic photosynthesis. Earth and Planetary Science Letters, 217(3–4), 237–244.
Rushby, A. J., Claire, M. W., Osborn, H., & Watson, A. J. (2013). Habitable zone lifetimes of exoplanets around main sequence stars. Astrobiology, 13(9), 833–849.
Sagan, C., Thompson, W. R., Carlson, R., Gurnett, D., & Hord, C. (1993). A search for life on Earth from the Galileo spacecraft. Nature, 365(6448), 715–721.
Schulte, P., Alegret, L., Arenillas, I., Arz, J. A., Barton, P. J., Bown, P. R., Bralower, T. J., Christeson, G. L., Claeys, P., co*ckell, C. S., Collins, G. S., Deutsch, A., Goldin, T. J., Goto, K., Grajales-Nishimura, J. M., Grieve, R. A. F., Gulick, S. P. S., Johnson, K. R., Kiessling, W., . . . Willumsen, P. S. (2010). The Chicxulub asteroid impact and mass extinction at the Cretaceous-Paleogene boundary. Science, 327(5970), 1214–1218.
Schulze-Makuch, D., & Grinspoon, D. H. (2005). Biologically enhanced energy and carbon cycling on Titan? Astrobiology, 5(4), 560–567.
Schulze-Makuch, D., & Irwin, L. N. (2018a). Ideas of exotic forms of life. In D. Schulze-Makuch & L. N. Irwin (Eds.), Life in the universe: Expectations and constraints (pp. 247–253). Springer.
Schulze-Makuch, D., & Irwin, L. N. (2018b). Life and the need for a solvent. In D. Schulze-Makuch & L. N. Irwin (Eds.), Life in the universe: Expectations and constraints (pp. 123–147). Springer.
Seager, S., & Bains, W. (2015). The search for signs of life on exoplanets at the interface of chemistry and planetary science. Science Advances, 1(2), e1500047.
Seager, S., Bains, W., & Petkowski, J. J. (2016). Toward a list of molecules as potential biosignature gases for the search for life on exoplanets and applications to terrestrial biochemistry. Astrobiology, 16(6), 465–485.
Segura, A., Kasting, J. F., Meadows, V., Cohen, M., Scalo, J., Crisp, D., Butler, R. A. H., & Tinetti, G. (2005). Biosignatures from Earth-like planets around M dwarfs. Astrobiology, 5(6), 706–725.
Selsis, F., Kasting, J. F., Levrard, B., Paillet, J., Ribas, I., & Delfosse, X. (2007). Habitable planets around the star Gliese 581? Astronomy & Astrophysics, 476(3), 1373–1387.
Shields, A. L., Ballard, S., & Johnson, J. A. (2016). The habitability of planets orbiting M-dwarf stars. Physics Reports, 663, 1–38.
Simoneit, B. R. (2004). Prebiotic organic synthesis under hydrothermal conditions: An overview. Advances in Space Research, 33(1), 88–94.
Sleep, N. H. (2010). The Hadean-Archaean environment. Cold Spring Harbor Perspectives in Biology, 2(6), a002527.
Sotin, C., Tobie, G., Wahr, J., & McKinnon, W. B. (2009). Tides and tidal heating on Europa. In R. T. Pappalardo, W. B. McKinnon, K. Khurana, & Lunar and Planetary Institute (Eds.), Europa (pp. 85–117). University of Arizona Press.
Stevens, A., Forgan, D., & James, J. O. M. (2016). Observational signatures of self-destructive civilizations. International Journal of Astrobiology, 15(4), 333–344.
Stevenson, A., Burkhardt, J., co*ckell, C. S., Cray, J. A., Dijksterhuis, J., Fox‐Powell, M., Kee, T. P., Kminek, G., McGenity, T. J., Timmis, K. N., Timson, D. J., Voytek, M. A., Westall, F., Yakimov, M. M., & Hallsworth, J. E. (2015). Multiplication of microbes below 0.690 water activity: Implications for terrestrial and extraterrestrial life. Environmental Microbiology, 17(2), 257–277.
Sternfeld, A. J. (1935). La vie dans l’univers. La Nature, 2956, 1–12.
Stüeken, E. E., Anderson, R. E., Bowman, J. S., Brazelton, W. J., Colangelo‐Lillis, J., Goldman, A. D., Som, S. M., & Baross, J. A. (2013). Did life originate from a global chemical reactor? Geobiology, 11(2), 101–126.
Sutherland, J. D. (2017). Opinion: Studies on the origin of life—The end of the beginning. Nature Reviews Chemistry, 1(2), 1–7.
Takai, K., Nakamura, K., Toki, T., Tsunogai, U., Miyazaki, M., Miyazaki, J., Hirayama, H., Nakagawa, S., Nunoura, T., & Horikoshi, K. (2008). Cell proliferation at 122 °C and isotopically heavy CH4 production by a hyperthermophilic methanogen under high-pressure cultivation. Proceedings of the National Academy of Sciences, 105(31), 10949–10954.
Thomas, P. C., Tajeddine, R., Tiscareno, M. S., Burns, J. A., Joseph, J., Loredo, T. J., Helfenstein, P., & Porco, C. (2016). Enceladus’s measured physical libration requires a global subsurface ocean. Icarus, 264, 37–47.
Tian, F., Kasting, J. F., & Solomon, S. C. (2009). Thermal escape of carbon from the early Martian atmosphere. Geophysical Research Letters, 36(2), L02205.
Tikhov, G. A. (1953). Astrobiology. Molodaya Gvardiya.
Valley, J. W., Peck, W. H., King, E. M., & Wilde, S. A. (2002). A cool early Earth. Geology, 30(4), 351–354.
Vance, S. D., Hand, K. P., & Pappalardo, R. T. (2016). Geophysical controls of chemical disequilibria in Europa. Geophysical Research Letters, 43(10), 4871–4879.
Vellekoop, J., Esmeray-Senlet, S., Miller, K. G., Browning, J. V., Sluijs, A., van de Schootbrugge, B., Sinninghe Damsté, J. S., & Brinkhuis, H. (2016). Evidence for Cretaceous-Paleogene boundary bolide “impact winter” conditions from New Jersey, USA. Geology, 44(8), 619–622.
Vinnichenko, G., Jarrett, A. J., Hope, J. M., & Brocks, J. J. (2020). Discovery of the oldest known biomarkers provides evidence for phototrophic bacteria in the 1.73 Ga Wollogorang Formation, Australia. Geobiology, 18(5), 544–559.
Wacey, D., Kilburn, M. R., Saunders, M., Cliff, J., & Brasier, M. D. (2011). Microfossils of sulphur-metabolizing cells in 3.4-billion-year-old rocks of Western Australia. Nature Geoscience, 4(10), 698–702.
Wadsworth, J., & co*ckell, C. S. (2017). Perchlorates on Mars enhance the bacteriocidal effects of UV light. Scientific Reports, 7(1), 1–8.
Wainwright, M., Wickramasinghe, N. C., Narlikar, J. V., Rajaratnam, P., & Perkins, J. (2004). Confirmation of the presence of viable but non-cultureable bacteria in the stratosphere. International Journal of Astrobiology, 3(1), 13–15.
Waite, J. H., Glein, C. R., Perryman, R. S., Teolis, B. D., Magee, B. A., Miller, G., Grimes, J., Perry, M. E., Miller, K. E., Bouquet, A., Lunine, J. I., Brockwell, T., & Bolton, S. J. (2017). Cassini finds molecular hydrogen in the Enceladus plume: Evidence for hydrothermal processes. Science, 356(6334), 155–159.
Waltham, D. (2006). The large-moon hypothesis: Can it be tested? International Journal of Astrobiology, 5(4), 327–331.
Wang, Q., Cen, Z., & Zhao, J. (2015). The survival mechanisms of thermophiles at high temperatures: An angle of omics. Physiology, 30(2), 97–106.
Ward, P. D., & Brownlee, D. (2000). Rare Earth: Why complex life is uncommon in the universe. Springer.
Watson, A. J. (2008). Implications of an anthropic model of evolution for emergence of complex life and intelligence. Astrobiology, 8(1), 175–185.
Webster, C. R., Mahaffy, P. R., Atreya, S. K., Flesch, G. J., Mischna, M. A., Meslin, P.Y., Farley, K. A., Conrad, P. G., Christensen, L. E., Pavlov, A. A., Martín-Torres, J., Zorzano, M.P., McConnochie, T. H., Owen, T., Eigenbrode, J. L., Glavin, D. P., Steele, A., Malespin, C. A., Archer, P. D., Jr., . . . the MSL Science Team. (2015). Mars methane detection and variability at Gale crater. Science, 347(6220), 415–417.
Westall, F., Cavalazzi, B., Lemelle, L., Marrocchi, Y., Rouzaud, J. N., Simionovici, A., Salomé, M., Mostefaoui, S., Andreazza, C., Foucher, F., & Toporski, J. (2011). Implications of in situ calcification for photosynthesis in a~ 3.3 Ga-old microbial biofilm from the Barberton greenstone belt, South Africa. Earth and Planetary Science Letters, 310(3–4), 468–479.
Westall, F., De Ronde, C. E., Southam, G., Grassineau, N., Colas, M., co*ckell, C., & Lammer, H. (2006). Implications of a 3.472–3.333 Gyr-old subaerial microbial mat from the Barberton greenstone belt, South Africa for the UV environmental conditions on the early Earth. Philosophical Transactions of the Royal Society B: Biological Sciences, 361(1474), 1857–1876.
Wierzchos, J., Ascaso, C., & McKay, C. P. (2006). Endolithic cyanobacteria in halite rocks from the hyperarid core of the Atacama Desert. Astrobiology, 6(3), 415–422.
Wolfe, J. M., & Fournier, G. P. (2018). Horizontal gene transfer constrains the timing of methanogen evolution. Nature Ecology & Evolution, 2(5), 897–903.
Wu, J., Desch, S. J., Schaefer, L., Elkins‐Tanton, L. T., Pahlevan, K., & Buseck, P. R. (2018). Origin of Earth’s water: Chondritic inheritance plus nebular ingassing and storage of hydrogen in the core. Journal of Geophysical Research: Planets, 123(10), 2691–2712.
Youle, M., Rohwer, F., Stacy, A., Whiteley, M., Steel, B. C., Delalez, N. J., Nord, A. L., Berry, R. M., Armitage, J. P., Kamoun, S., Hogenhout, S., Diggle, S. P., Gurney, J., Pollitt, E. J. G., Boetius, A., & Cary, S. C. (2012). The microbial Olympics. Nature Reviews Microbiology, 10(8), 583–588.
Zahnle, K., Alvarellos, J. L., Dobrovolskis, A., & Hamill, P. (2008). Secondary and sesquinary craters on Europa. Icarus, 194(2), 660–674.
Zhang, X., Liang, M. C., Mills, F. P., Belyaev, D. A., & Yung, Y. L. (2012). Sulfur chemistry in the middle atmosphere of Venus. Icarus, 217(2), 714–739.
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