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Contents

   



(Top)
  


1 Overview  


1.1  Mission concept  




1.2  Objectives  






2 Proposed scientific payload  




3 See also  




4 References  













Enceladus Life Finder






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From Wikipedia, the free encyclopedia
  

Voyager 2 view of Enceladus in 1981: Samarkand Sulci vertical grooves (lower center); Ali Baba and Aladdin craters (upper left)

Enceladus Life Finder (ELF) is a proposed astrobiology mission concept for a NASA spacecraft intended to assess the habitability of the internal aquatic oceanofEnceladus, which is Saturn's sixth-largest moon[1][2] of at least 146 total moons, and seemingly similar in chemical makeup to comets.[3] The spaceprobe would orbit Saturn and fly through Enceladus's geyser-like plumes multiple times. It would be powered by energy supplied from solar panels on the spacecraft.

Overview[edit]

Enceladus's south pole - Geysers spray water from many locations along the 'tiger stripes' feature.

The Enceladus Life Finder mission was first proposed in 2015 for Discovery Mission 13 funding,[2] and then it was proposed in May 2017 to NASA's New Frontiers program Mission 4,[4][5][6] but it was not selected.[7]

If selected at another future opportunity, the ELF mission would search for biosignature and biomolecules in the geysers of Enceladus. The south polar jets loft water, salts and organic molecules dozens of miles over the moon's surface from an underground regional ocean. The hypothesis is that the water is warmed by thermal vents similar to features found deep in Earth's oceans. ELF's instruments would measure amino acids — the building blocks of proteins — analyze fatty acids, and determine whether methane (CH4) found in the plumes could have been produced by living organisms.[2]

In 2008, the Cassini orbiter was flown through a plume and analyzed the material with its neutral mass spectrometer. The orbiter detected simple organics, including methane (CH4), carbon monoxide (CO), carbon dioxide (CO2) nitrogen, and complex organic compounds.[8] Cassini also detected sodium and potassium at a concentration implying a salty liquid ocean.[8] However, Cassini did not have the equipment with the sensitivity required for direct analyses.[1][8]

On 14 December 2023, astronomers reported the first time discovery, in the plumes of Enceladus, of hydrogen cyanide, a possible chemical essential for life as we know it, as well as other organic molecules, some of which are yet to be better identified and understood. According to the researchers, "these [newly discovered] compounds could potentially support extant microbial communities or drive complex organic synthesis leading to the origin of life."[9][10]

Mission concept[edit]

Composite map of Enceladus's south polar region showing cracks dubbed 'tiger stripes' where the geysers are located.

The Enceladus Life Finder (ELF) mission would pursue the implications of Cassini orbiter's 2005 discoveries of active jetting from, and existence of an ocean within, Enceladus. The mission concept would have the ELF orbiter fly 8 to 10 times over a period of 3 years through plumes of water launched above the south pole of Enceladus.[2] The geysers could provide easy access for sampling the moon's subsurface ocean, and if there is microbial life in it, ice particles from the sea could contain the evidence astrobiologists need to identify them.[11] The Principal Investigator is Jonathan LunineofCornell University in Ithaca, New York.

Objectives[edit]

The goals of the mission are derived directly from the most recent decadal survey: first, to determine primordial sources of organics and the sites of organic synthesis today; and second, to determine if there are current habitats in Enceladus where the conditions for life could exist today, and if life exists there now.[1] To achieve these goals, the ELF mission has three objectives:[1]

  1. To measure abundances of a carefully selected set of neutral species, some of which were detected by Cassini, to ascertain whether the organics and volatiles coming from Enceladus have been thermally altered over time.
  2. To determine the details of the interior marine environment — pH, oxidation state, available chemical energy, and temperature — that permit characterization of the life-carrying capacity of the interior.
  3. To look for indications that organics are the result of biological processes through three independent types of chemical measurements that are widely recognized as diagnostic of life.

Proposed scientific payload[edit]

Artist's impression of possible hydrothermal activity on Enceladus.

The ELF spacecraft would use two mass spectrometers to assess habitability of the interior oceanic environment. The payload consists of the MASPEX and the ENIJA, optimized to analyze respectively the gas and grains:[1][8]

The Cassini spacecraft has measured small silica particles, normally formed at 90 °C or higher, streaming from Enceladus.[12] The size and composition of the particles suggest that they come from current hydrothermal activity,[13][14][15][16] where the moon's ocean meets the underlying rock, a prime habitat for life.[12][17]

ELF's instruments would conduct three kinds of tests in order to minimize the ambiguity involved in life detection.[1][8] The first would look for a characteristic distribution of amino acids (the building blocks of proteins). The second test would determine whether the carbon number distribution in fatty acidsorisoprenoids is biased toward a particular rule (even, odd, or divisible by a small integer). The third would measure carbon and hydrogen isotopic ratios, together with the abundance of methane relative to other alkanes, to assess whether the values fall in the range for biological processes.[8]

See also[edit]

References[edit]

  1. ^ a b c d e f Lunine, Jonathan I.; Waite, Jack Hunter Jr.; Postberg, Frank; Spilker, Linda J. (2015). Enceladus Life Finder: The search for life in a habitable moon (PDF). 46th Lunar and Planetary Science Conference (2015). Houston (TX): Lunar and Planetary Institute.
  • ^ a b c d Clark, Stephen (April 6, 2015). "Diverse destinations considered for new interplanetary probe". Space Flight Now. Retrieved April 7, 2015.
  • ^ Battersby, Stephen (March 26, 2008). "Saturn's moon Enceladus surprisingly comet-like". New Scientist. Retrieved April 16, 2015.
  • ^ Cofield, Calla (April 14, 2017). "Enceladus' Subsurface Energy Source: What It Means for Search for Life". Space.com.
  • ^ Chang, Kenneth (September 15, 2017). "Back to Saturn? Five Missions Proposed to Follow Cassini". The New York Times.
  • ^ Mann, Adam (2017). "Inner Workings: Icy ocean worlds offer chances to find life". Proceedings of the National Academy of Sciences. 114 (18): 4566–4568. Bibcode:2017PNAS..114.4566M. doi:10.1073/pnas.1703361114. ISSN 0027-8424. PMC 5422794. PMID 28461387.
  • ^ Glowatz, Elana (December 20, 2017). "NASA's New Frontier Mission Will Search For Alien Life Or Reveal The Solar System's History". IB Times.
  • ^ a b c d e f Lunine, Jonathan I. "Searching for Life in the Saturn System: Enceladus Life Finder" (PDF). ELF Team. Lunar And Planetary Institute. Retrieved April 7, 2015.
  • ^ Chang, Kenneth (December 14, 2023). "Poison Gas Hints at Potential for Life on an Ocean Moon of Saturn - A researcher who has studied the icy world said "the prospects for the development of life are getting better and better on Enceladus."". The New York Times. Archived from the original on December 14, 2023. Retrieved December 15, 2023.
  • ^ Peter, Jonah S.; et al. (December 14, 2023). "Detection of HCN and diverse redox chemistry in the plume of Enceladus". Nature Astronomy. arXiv:2301.05259. doi:10.1038/s41550-023-02160-0. Archived from the original on December 15, 2023. Retrieved December 15, 2023.
  • ^ Gronstal, Aaron (July 30, 2014). "Enceladus in 101 Geysers". NASA Astrobiology Institute. Archived from the original on August 16, 2014. Retrieved April 8, 2015.
  • ^ a b Witze, Alexandra (March 11, 2015). "Hints of hot springs found on Saturnian moon". Nature News. Retrieved April 7, 2015.
  • ^ "Ocean Within Enceladus May Harbor Hydrothermal Activity". SpaceRef. March 11, 2015.
  • ^ Platt, Jane; Bell, Brian (April 3, 2014). "NASA Space Assets Detect Ocean inside Saturn Moon". NASA. Retrieved April 3, 2014.
  • ^ Iess, L.; Stevenson, D. J.; Parisi, M.; Hemingway, D.; Jacobson, R.A.; Lunine, Jonathan I.; Nimmo, F.; Armstrong, J. W.; Asmar, S. W.; Ducci, M.; Tortora, P. (April 4, 2014). "The Gravity Field and Interior Structure of Enceladus" (PDF). Science. 344 (6179): 78–80. Bibcode:2014Sci...344...78I. doi:10.1126/science.1250551. PMID 24700854. S2CID 28990283.
  • ^ Amos, Jonathan (April 3, 2014). "Saturn's Enceladus moon hides 'great lake' of water". BBC News. Retrieved April 7, 2014.
  • ^ Anderson, Paul Scott (March 13, 2015). "Cassini Finds Evidence for Hydrothermal Activity on Saturn's Moon Enceladus". AmericaSpace. Retrieved April 7, 2015.
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