96 Liu M. C., et al. The extremely red, young l dwarf pso j318.5338–22.8603: a free-floating planetary-mass analog to directly imaged young gas-giant planets // The Astrophysical Journal. 2013. 777(2), l20.
97 Gahm G. F., et al. Globulettes as Seeds of Brown Dwarfs and Free-Floating Planetary-Mass Objects. The Astronomical Journal. 2007. 133(4), 1795–1809.
98 Gahm G. F., et al. Mass and motion of globulettes in the Rosette Nebula // Astronomy & Astrophysics. 2013. 555, A57.
99 Bailey V., et al. HD 106906 b: a planetary-mass companion outside a massive debris disk // The Astrophysical Journal. 2013. 780(1), L4.
100 Mroz P., et al. No large population of unbound or wide-orbit Jupiter-mass planets // Nature. 2017. 548(7666), 183–186.
101 Oasa Y., Tamura M., Sugitani K. A Deep Near-Infrared Survey of the Chamaeleon I Dark Cloud Core // The Astrophysical Journal. 1999. 526(1), 336–343.
102 Jewitt D., Luu J. Discovery of the candidate Kuiper belt object 1992 QB1 // Nature. 1993. 362(6422), 730–732.
103 Marcy G. W., et al. Masses, radii, and orbits of small kepler planets: the transition from gaseous to rocky planets // The Astrophysical Journal Supplement Series. 2014. 210(2), 20.
104 Borucki W. J., et al. Kepler-22b: A 2.4 Earth-radius planet in the habitable zone of a sun-like star // The Astrophysical Journal. 2012. 745(2), 120.
105 Charbonneau D., et al. A super-Earth transiting a nearby low-mass star // Nature. 2009. 462(7275), 891–894.
106 Kreidberg L., et al. Clouds in the atmosphere of the super-Earth exoplanet GJ 1214b // Nature. 2014. 505(7481), 69–72.
107 Bolmont E., et al. Formation, tidal evolution, and habitability of the kepler-186 system // The Astrophysical Journal. 2014. 793(1), 3.
108 Joshi M. Climate Model Studies of Synchronously Rotating // Astrobiology. 2003. 3(2), 415–427.
108 Koll D. D. B., Abbot, D. S. Temperature structure and atmospheric circulation of dry tidally locked rocky exoplanets // The Astrophysical Journal. 2016. 825(2), 99.
109 Shan Y., Li G. Obliquity Variations of Habitable Zone Planets Kepler-62f and Kepler-186f // The Astronomical Journal. 2018. 155(6), 237.
110 Cockell C. S., et al. Habitability: A Review // Astrobiology. 2016. 16(1), 89–117.
111 Weiss M. C., et al. The last universal common ancestor between ancient Earth chemistry and the onset of genetics // PLOS Genetics. 2018. 14(8), e1007518.
112 Ball P. Water as an Active Constituent in Cell Biology // Chemical Reviews. 2008. 108(1), 74–108.
113 Spiga R., et al. The origin of water on Earth: stars or diamonds? // Rendiconti Lincei. Scienze Fisiche e Naturali. 2019. 30, 261–268.
114 Tschauner O., et al. Ice-VII inclusions in diamonds: Evidence for aqueous fluid in Earth’s deep mantle // Science. 2018. 359(6380), 1136–1139.
115 Rumble D., et al. The oxygen isotope composition of earth’s oldest rocks and evidence of a terrestrial magma ocean // Geochemistry, Geophysics, Geosystems. 2013. 14(6), 1929–1939.
116 Touboul M., et al. Tungsten isotopes in ferroan anorthosites: Implications for the age of the Moon and lifetime of its magma ocean // Icarus. 2009. 199(2), 245–249.
117 Koeberl C. Impact Processes on the Early Earth // Elements. 2006. 2(4), 211–216.
118 Srinivasan P., et al. Silica-rich volcanism in the early solar system dated at 4.565 Ga // Nature Communications. 2018. 9(1).
119 Valley J. W., et al. A cool early Earth // Wilde in Geology. 2002. 30(4), 351–354.
120 Dodd M., et al. Evidence for early life in Earth’s oldest hydrothermal vent precipitates // Nature. 2017. 543, 60–64.
121 Dodd M. S., et al. Evidence for early life in Earth’s oldest hydrothermal vent precipitates // Nature. 2017. 543(7643), 60–64.
122 Bell E. A., et al. Potentially biogenic carbon preserved in a 4.1 billion-year-old zircon // Proceedings of the National Academy of Sciences. 2015. 112(47), 14518–14521.
123 Sugitani K., et al. Early evolution of large micro-organisms with cytological complexity revealed by microanalyses of 3.4 Ga organic-walled microfossils // Geobiology. 2015. 13, 507–521.
124 Miller S. L. A production of amino acids under possible primitive Earth conditions // Science. 1953. 117(528).
125 Zahnle K., et al. Earth’s Earliest Atmospheres // Cold Spring Harbor Perspectives in Biology. 1010. 2(10).
126 Ehrefreund P., et. al. Astrophysical and astrochemical insights into the origin of life // Reports on Progress in Physics. 2002. 65(10), 1427–1487.
127 Rich A. On the problems of evolution and biochemical information transfer. / Edited by M. Kasha and B. Pullman // Horizons in Biochemistry. New York: Academic Press, 1962.
128 Segre D., et al. The Lipid World // Origins of Life and Evolution of Biospheres. 2001. 31, 119–145.
129 Pereto J. Controversies on the origin of life // International Microbiology. 2005. 8, 23–31.
130 Vlassov A. How was Membrane Permeability Produced in an RNA World? // Origins of Life and Evolution of Biospheres. 2005. 35(2), 135–149.
131 Russell M. J., Hall A. J. The emergence of life from iron monosulphide bubbles at a submarine hydrothermal redox and pH front // The Geological Society of London.1997. 154, 377–402.
132 Luo G., et al. Rapid oxygenation of Earths atmosphere 2.33 billion years ago // Science Advances. 2016. 2(5).
133 Bar-On Y. M., Phillips R., Milo R. The biomass distribution on Earth // Proceedings of the National Academy of Sciences. 2018. 115(25), 6506–6511.
134 Hynek B. M., Beach M., Hoke M. R. T. Updated global map of Martian valley networks and implications for climate and hydrologic processes // Journal of Geophysical Research. 2010. 115(E9).
135 Bibring J.-P., et al. Global Mineralogical and Aqueous Mars History Derived from OMEGA/Mars Express Data // Science. 2006. 312(5772), 400–404.
136 Feldman W. C. Global distribution of near-surface hydrogen on Mars // Journal of Geophysical Research. 2004. 109(E9).
137 Orosei R., et al. Radar evidence of subglacial liquid water on Mars // Science. 2018. 361(6401), 490–493.
138 Ojha L., et. al. Spectral evidence for hydrated salts in recurring slope lineae on Mars // Nature Geoscience. 2015. 8(11), 829–832.
139 Cheptsov V. S., et al. 100 kGy gamma-affected microbial communities within the ancient Arctic permafrost under simulated Martian conditions // Extremophiles. 2017. 21(6), 1057–1067.
140 Levin G. V., Straat P. A. Viking labeled release biology experiment: interim results // Science. 1976. 194(4271), 1322–1329.
141 Levin G. V., Straat P. A. The Case for Extant Life on Mars and Its Possible Detection by the Viking Labeled Release Experiment // Astrobiology. 2016. 16(10).
142 Sullivan W. Two gases associated with life found on Mars near polar cap // The New York Times. 1969. August 8, 1.
143 Webster C. R., et al. Background levels of methane in Mars’ atmosphere show strong seasonal variations // Science. 2018. 360(6393), 1093–1096.
144 Geminale A., Formisano V., Giuranna M. Methane in Martian atmosphere: Average spatial, diurnal, and seasonal behavior // Planetary and Space Science. 2008. 56(9), 1194–1203.
145 Korablev O., et al. No detection of methane on Mars from early ExoMars Trace Gas Orbiter observations // Nature. 2019. 568, 517–520.
146 Trainer M. G., et al. Seasonal variations in atmospheric composition as measured in Gale Crater, Mars // Journal of Geophysical Research: Planets. 12 November 2019.
147 James P. B., Kieffer H. H., Paige D. A. The seasonal cycle of carbon dioxide on Mars / Edited by H. H. Kieffer. Tuscon, Arizona: University of Arizona Press, 1992.
148 Gibson E. K., et al. The case for relic life on Mars // Scientific American. 1997. 277, 58–65.
149 McKay D. S., et al. Search for past life on Mars: possible relic biogenic activity in martian meteorite ALH84001 // Science. 1996. 273, 924–930.
150 Martel J., et al. Biomimetic properties of minerals and the search for life in the Martian meteorite ALH84001 // The Annual Review of Earth and Planetary. 2012. 40, 167–193.
151 White L. M., et al. Putative Indigenous Carbon-Bearing Alteration Features in Martian Meteorite Yamato 000593 // Astrobiology. 2014. 14(2), 170–181.
152 Sagan C., et al. A search for life on Earth from the Galileo spacecraft // Nature. 1993. 365(6448), 715–721.
153 Schwieterman E. W., et al. Exoplanet Biosignatures: A Review of Remotely Detectable Signs of Life // Astrobiology. 2018. 18(6), 663–708.
154 Reinhard C. T., et al. False Negatives for Remote Life Detection on Ocean-Bearing Planets: Lessons from the Early Earth // Astrobiology. 2017. 17(4), 287–297.
155 Harman C. E., et al. Abiotic O2 levels on planets around F, G, K, and M stars: possible false positives for life // The Astrophysical Journal. 2015. 812(2), 137.
156 Atreya S. K., Mahaffy P. R., Wong A.-S. Methane and related trace… implications for life, and habitability // Planetary and Space Science. 2007. 55, 358–369.
157 Klein F., et al. Abiotic methane synthesis and serpentinization in olivine-hosted fluid inclusions // Proceedings of the National Academy of Sciences. 2019. 116(36), 17666-17672.