Literature DB >> 28052055

Penitentes as the origin of the bladed terrain of Tartarus Dorsa on Pluto.

John E Moores1, Christina L Smith1, Anthony D Toigo2, Scott D Guzewich3.   

Abstract

Penitentes are snow and ice features formed by erosion that, on Earth, are characterized by bowl-shaped depressions several tens of centimetres across, whose edges grade into spires up to several metres tall. Penitentes have been suggested as an explanation for anomalous radar data on Europa, but until now no penitentes have been identified conclusively on planetary bodies other than Earth. Regular ridges with spacings of 3,000 to 5,000 metres and depths of about 500 metres with morphologies that resemble penitentes have been observed by the New Horizons spacecraft in the Tartarus Dorsa region of Pluto (220°-250° E, 0°-20° N). Here we report simulations, based upon a recent model representing conditions on Pluto, in which deepening penitentes reproduce both the tri-modal (north-south, east-west and northeast-southwest) orientation and the spacing of the ridges of this bladed terrain. At present, these penitentes deepen by approximately one centimetre per orbital cycle and grow only during periods of relatively high atmospheric pressure, suggesting a formation timescale of several tens of millions of years, consistent with crater ages. This timescale implies that the penitentes formed from initial topographic variations of no more than a few tens of metres, consistent with Pluto's youngest terrains.

Entities:  

Year:  2017        PMID: 28052055     DOI: 10.1038/nature20779

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  10 in total

1.  The Pluto system: Initial results from its exploration by New Horizons.

Authors:  S A Stern; F Bagenal; K Ennico; G R Gladstone; W M Grundy; W B McKinnon; J M Moore; C B Olkin; J R Spencer; H A Weaver; L A Young; T Andert; J Andrews; M Banks; B Bauer; J Bauman; O S Barnouin; P Bedini; K Beisser; R A Beyer; S Bhaskaran; R P Binzel; E Birath; M Bird; D J Bogan; A Bowman; V J Bray; M Brozovic; C Bryan; M R Buckley; M W Buie; B J Buratti; S S Bushman; A Calloway; B Carcich; A F Cheng; S Conard; C A Conrad; J C Cook; D P Cruikshank; O S Custodio; C M Dalle Ore; C Deboy; Z J B Dischner; P Dumont; A M Earle; H A Elliott; J Ercol; C M Ernst; T Finley; S H Flanigan; G Fountain; M J Freeze; T Greathouse; J L Green; Y Guo; M Hahn; D P Hamilton; S A Hamilton; J Hanley; A Harch; H M Hart; C B Hersman; A Hill; M E Hill; D P Hinson; M E Holdridge; M Horanyi; A D Howard; C J A Howett; C Jackman; R A Jacobson; D E Jennings; J A Kammer; H K Kang; D E Kaufmann; P Kollmann; S M Krimigis; D Kusnierkiewicz; T R Lauer; J E Lee; K L Lindstrom; I R Linscott; C M Lisse; A W Lunsford; V A Mallder; N Martin; D J McComas; R L McNutt; D Mehoke; T Mehoke; E D Melin; M Mutchler; D Nelson; F Nimmo; J I Nunez; A Ocampo; W M Owen; M Paetzold; B Page; A H Parker; J W Parker; F Pelletier; J Peterson; N Pinkine; M Piquette; S B Porter; S Protopapa; J Redfern; H J Reitsema; D C Reuter; J H Roberts; S J Robbins; G Rogers; D Rose; K Runyon; K D Retherford; M G Ryschkewitsch; P Schenk; E Schindhelm; B Sepan; M R Showalter; K N Singer; M Soluri; D Stanbridge; A J Steffl; D F Strobel; T Stryk; M E Summers; J R Szalay; M Tapley; A Taylor; H Taylor; H B Throop; C C C Tsang; G L Tyler; O M Umurhan; A J Verbiscer; M H Versteeg; M Vincent; R Webbert; S Weidner; G E Weigle; O L White; K Whittenburg; B G Williams; K Williams; S Williams; W W Woods; A M Zangari; E Zirnstein
Journal:  Science       Date:  2015-10-16       Impact factor: 47.728

2.  Physical processes causing the formation of penitentes.

Authors:  P Claudin; H Jarry; G Vignoles; M Plapp; B Andreotti
Journal:  Phys Rev E Stat Nonlin Soft Matter Phys       Date:  2015-09-25

3.  NIEVES PENITENTES NEAR BOSTON, MASSACHUSETTS.

Authors:  R L Nichols
Journal:  Science       Date:  1939-06-16       Impact factor: 47.728

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Authors:  R H Brown; R L Kirk; T V Johnson; L A Soderblom
Journal:  Science       Date:  1990-10-19       Impact factor: 47.728

5.  Numerical evidence that the motion of pluto is chaotic.

Authors:  G J Sussman; J Wisdom
Journal:  Science       Date:  1988-07-22       Impact factor: 47.728

6.  The geology of Pluto and Charon through the eyes of New Horizons.

Authors:  Jeffrey M Moore; William B McKinnon; John R Spencer; Alan D Howard; Paul M Schenk; Ross A Beyer; Francis Nimmo; Kelsi N Singer; Orkan M Umurhan; Oliver L White; S Alan Stern; Kimberly Ennico; Cathy B Olkin; Harold A Weaver; Leslie A Young; Richard P Binzel; Marc W Buie; Bonnie J Buratti; Andrew F Cheng; Dale P Cruikshank; Will M Grundy; Ivan R Linscott; Harold J Reitsema; Dennis C Reuter; Mark R Showalter; Veronica J Bray; Carrie L Chavez; Carly J A Howett; Tod R Lauer; Carey M Lisse; Alex Harrison Parker; S B Porter; Stuart J Robbins; Kirby Runyon; Ted Stryk; Henry B Throop; Constantine C C Tsang; Anne J Verbiscer; Amanda M Zangari; Andrew L Chaikin; Don E Wilhelms
Journal:  Science       Date:  2016-03-18       Impact factor: 47.728

7.  Convection in a volatile nitrogen-ice-rich layer drives Pluto's geological vigour.

Authors:  William B McKinnon; Francis Nimmo; Teresa Wong; Paul M Schenk; Oliver L White; J H Roberts; J M Moore; J R Spencer; A D Howard; O M Umurhan; S A Stern; H A Weaver; C B Olkin; L A Young; K E Smith
Journal:  Nature       Date:  2016-06-02       Impact factor: 49.962

8.  Controlled irradiative formation of penitentes.

Authors:  Vance Bergeron; Charles Berger; M D Betterton
Journal:  Phys Rev Lett       Date:  2006-03-07       Impact factor: 9.161

9.  Vigorous convection as the explanation for Pluto's polygonal terrain.

Authors:  A J Trowbridge; H J Melosh; J K Steckloff; A M Freed
Journal:  Nature       Date:  2016-06-02       Impact factor: 49.962

10.  The atmosphere of Pluto as observed by New Horizons.

Authors:  G Randall Gladstone; S Alan Stern; Kimberly Ennico; Catherine B Olkin; Harold A Weaver; Leslie A Young; Michael E Summers; Darrell F Strobel; David P Hinson; Joshua A Kammer; Alex H Parker; Andrew J Steffl; Ivan R Linscott; Joel Wm Parker; Andrew F Cheng; David C Slater; Maarten H Versteeg; Thomas K Greathouse; Kurt D Retherford; Henry Throop; Nathaniel J Cunningham; William W Woods; Kelsi N Singer; Constantine C C Tsang; Rebecca Schindhelm; Carey M Lisse; Michael L Wong; Yuk L Yung; Xun Zhu; Werner Curdt; Panayotis Lavvas; Eliot F Young; G Leonard Tyler
Journal:  Science       Date:  2016-03-18       Impact factor: 47.728
  10 in total
  2 in total

1.  Sublimation-driven morphogenesis of Zen stones on ice surfaces.

Authors:  Nicolas Taberlet; Nicolas Plihon
Journal:  Proc Natl Acad Sci U S A       Date:  2021-09-30       Impact factor: 11.205

2.  Large-scale cryovolcanic resurfacing on Pluto.

Authors:  Kelsi N Singer; Oliver L White; Bernard Schmitt; Erika L Rader; Silvia Protopapa; William M Grundy; Dale P Cruikshank; Tanguy Bertrand; Paul M Schenk; William B McKinnon; S Alan Stern; Rajani D Dhingra; Kirby D Runyon; Ross A Beyer; Veronica J Bray; Cristina Dalle Ore; John R Spencer; Jeffrey M Moore; Francis Nimmo; James T Keane; Leslie A Young; Catherine B Olkin; Tod R Lauer; Harold A Weaver; Kimberly Ennico-Smith
Journal:  Nat Commun       Date:  2022-03-29       Impact factor: 14.919
  2 in total

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