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(Table 1) Soil description of pits dug in coastal, inland and higland Antarctic Dry Valleys (2010)

Kounaves, Samuel P ; Stroble, Shannon T ; Anderson, Rachel M ; [et al.]

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In: Supplement to: Kounaves, Samuel P; Stroble, Shannon T; Anderson, Rachel M; Moore, Quincy; Catling, David C; Douglas, Susanne; McKay, Christopher P; Ming, Douglas W; Smith, Peter H; Tamppari, Leslie K; Zent, Aaron P (2010): Discovery of natural perchlorate in the Antarctic Dry Valleys and its global implications. Environmental Science & Technology, 44(7), 2360-2364, https://doi.org/10.1021/es9033606

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Publication Date: 2023-12-13

Description: In the past few years, it has become increasingly apparent that perchlorate (ClO4-) is present on all continents, except the polar regions where it had not yet been assessed, and that it may have a significant natural source. Here, we report on the discovery of perchlorate in soil and ice from several Antarctic Dry Valleys (ADVs) where concentrations reach up to 1100/µg/kg. In the driest ADV, perchlorate correlates with atmospherically deposited nitrate. Far from anthropogenic activity, ADV perchlorate provides unambiguous evidence that natural perchlorate is ubiquitous on Earth. The discovery has significant implications for the origin of perchlorate, its global biogeochemical interactions, and possible interactions with the polar ice sheets. The results support the hypotheses that perchlorate is produced globally and continuously in the Earth's atmosphere, that it typically accumulates in hyperarid areas, and that it does not build up in oceans or other wet environments most likely because of microbial reduction on a global scale.

Keywords: Antarctica; Area/locality; Depth, reference; Digging pit; DPIT; ELEVATION; Event label; International Polar Year (2007-2008); IPY; Latitude of event; Longitude of event; Lower_Beacon_P11; Lower_Taylor_P1; Lower_Taylor_P2; Lower_Taylor_P3; Lower_Taylor_P4; Middle_Beacon_P20; Middle_Victoria_P7; Middle_Victoria_P8; Number; Sample comment; Sample ID; Soil type; Standard deviation; University_Vall_P10; University_Vall_P7; Upper_Wright_P13

Type: Dataset

Format: text/tab-separated-values, 74 data points

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Science objectives for flagship-class mission concepts for the search for evidence of life at Enceladus (2022)

MacKenzie, Shannon M. ; Neveu, Marc ; Davila, Alfonso F. ; [et al.]

Mary Ann Liebert, Inc.

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Publication Date: 2022-06-22

Description: © The Author(s), 2022. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in MacKenzie, S., Neveu, M., Davila, A., Lunine, J., Cable, M., Phillips-Lander, C., Eigenbrode, J., Waite, J., Craft, K., Hofgartner, J., McKay, C., Glein, C., Burton, D., Kounaves, S., Mathies, R., Vance, S., Malaska, M., Gold, R., German, C., Soderlund, K. M., Willis, P., Freissinet, C., McEwen, A. S., Brucato, J. R., de Vera, J-P. P., Hoehler, T. M., Heldmann, J. Science objectives for flagship-class mission concepts for the search for evidence of life at Enceladus. Astrobiology, 22(6), (2022): 685-712. https://doi.org/10.1089/ast.2020.2425.

Description: Cassini revealed that Saturn's Moon Enceladus hosts a subsurface ocean that meets the accepted criteria for habitability with bio-essential elements and compounds, liquid water, and energy sources available in the environment. Whether these conditions are sufficiently abundant and collocated to support life remains unknown and cannot be determined from Cassini data. However, thanks to the plume of oceanic material emanating from Enceladus’ south pole, a new mission to Enceladus could search for evidence of life without having to descend through kilometers of ice. In this article, we outline the science motivations for such a successor to Cassini, choosing the primary science goal to be determining whether Enceladus is inhabited and assuming a resource level equivalent to NASA's Flagship-class missions. We selected a set of potential biosignature measurements that are complementary and orthogonal to build a robust case for any life detection result. This result would be further informed by quantifications of the habitability of the environment through geochemical and geophysical investigations into the ocean and ice shell crust. This study demonstrates that Enceladus’ plume offers an unparalleled opportunity for in situ exploration of an Ocean World and that the planetary science and astrobiology community is well equipped to take full advantage of it in the coming decades.

Description: This work was supported by grant 80NSSC20K0136 of the NASA Planetary Mission Concept Studies Program. Some of the research was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration (80NM0018D0004). C.R.G. acknowledges support from the Exploring Ocean Worlds (ExOW) project (NASA Award: 80NSSC19K1427).

Keywords: Enceladus ; Mission ; Life detection ; Habitability

Repository Name: Woods Hole Open Access Server

Type: Article

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