Literature DB >> 28966411

Evidence for a Low Bulk Crustal Density for Mars from Gravity and Topography.

Sander Goossens1,2, Terence J Sabaka2, Antonio Genova2,3, Erwan Mazarico2, Joseph B Nicholas2,4, Gregory A Neumann2.   

Abstract

Knowledge of the average density of the crust of a planet is important in determining its interior structure. The combination of high-resolution gravity and topography data has yielded a low density for the Moon's crust, yet for other terrestrial planets the resolution of the gravity field models has hampered reasonable estimates. By using well-chosen constraints derived from topography during gravity field model determination using satellite tracking data, we show that we can robustly and independently determine the average bulk crustal density directly from the tracking data, using the admittance between topography and imperfect gravity. We find a low average bulk crustal density for Mars, 2582 ± 209 kg m-3. This bulk crustal density is lower than that assumed until now. Densities for volcanic complexes are higher, consistent with earlier estimates, implying large lateral variations in crustal density. In addition, we find indications that the crustal density increases with depth.

Year:  2017        PMID: 28966411      PMCID: PMC5619241          DOI: 10.1002/2017GL074172

Source DB:  PubMed          Journal:  Geophys Res Lett        ISSN: 0094-8276            Impact factor:   4.720


  3 in total

1.  Gravity field of the Moon from the Gravity Recovery and Interior Laboratory (GRAIL) mission.

Authors:  Maria T Zuber; David E Smith; Michael M Watkins; Sami W Asmar; Alexander S Konopliv; Frank G Lemoine; H Jay Melosh; Gregory A Neumann; Roger J Phillips; Sean C Solomon; Mark A Wieczorek; James G Williams; Sander J Goossens; Gerhard Kruizinga; Erwan Mazarico; Ryan S Park; Dah-Ning Yuan
Journal:  Science       Date:  2012-12-05       Impact factor: 47.728

2.  The crust of the Moon as seen by GRAIL.

Authors:  Mark A Wieczorek; Gregory A Neumann; Francis Nimmo; Walter S Kiefer; G Jeffrey Taylor; H Jay Melosh; Roger J Phillips; Sean C Solomon; Jeffrey C Andrews-Hanna; Sami W Asmar; Alexander S Konopliv; Frank G Lemoine; David E Smith; Michael M Watkins; James G Williams; Maria T Zuber
Journal:  Science       Date:  2012-12-05       Impact factor: 47.728

3.  GRGM900C: A degree 900 lunar gravity model from GRAIL primary and extended mission data.

Authors:  Frank G Lemoine; Sander Goossens; Terence J Sabaka; Joseph B Nicholas; Erwan Mazarico; David D Rowlands; Bryant D Loomis; Douglas S Chinn; Gregory A Neumann; David E Smith; Maria T Zuber
Journal:  Geophys Res Lett       Date:  2014-05-29       Impact factor: 4.720
  3 in total
  5 in total

1.  Geodetic evidence that Mercury has a solid inner core.

Authors:  Antonio Genova; Sander Goossens; Erwan Mazarico; Frank G Lemoine; Gregory A Neumann; Weijia Kuang; Terence J Sabaka; Steven A Hauck; David E Smith; Sean C Solomon; Maria T Zuber
Journal:  Geophys Res Lett       Date:  2019-03-15       Impact factor: 4.720

Review 2.  SEIS: Insight's Seismic Experiment for Internal Structure of Mars.

Authors:  P Lognonné; W B Banerdt; D Giardini; W T Pike; U Christensen; P Laudet; S de Raucourt; P Zweifel; S Calcutt; M Bierwirth; K J Hurst; F Ijpelaan; J W Umland; R Llorca-Cejudo; S A Larson; R F Garcia; S Kedar; B Knapmeyer-Endrun; D Mimoun; A Mocquet; M P Panning; R C Weber; A Sylvestre-Baron; G Pont; N Verdier; L Kerjean; L J Facto; V Gharakanian; J E Feldman; T L Hoffman; D B Klein; K Klein; N P Onufer; J Paredes-Garcia; M P Petkov; J R Willis; S E Smrekar; M Drilleau; T Gabsi; T Nebut; O Robert; S Tillier; C Moreau; M Parise; G Aveni; S Ben Charef; Y Bennour; T Camus; P A Dandonneau; C Desfoux; B Lecomte; O Pot; P Revuz; D Mance; J tenPierick; N E Bowles; C Charalambous; A K Delahunty; J Hurley; R Irshad; Huafeng Liu; A G Mukherjee; I M Standley; A E Stott; J Temple; T Warren; M Eberhardt; A Kramer; W Kühne; E-P Miettinen; M Monecke; C Aicardi; M André; J Baroukh; A Borrien; A Bouisset; P Boutte; K Brethomé; C Brysbaert; T Carlier; M Deleuze; J M Desmarres; D Dilhan; C Doucet; D Faye; N Faye-Refalo; R Gonzalez; C Imbert; C Larigauderie; E Locatelli; L Luno; J-R Meyer; F Mialhe; J M Mouret; M Nonon; Y Pahn; A Paillet; P Pasquier; G Perez; R Perez; L Perrin; B Pouilloux; A Rosak; I Savin de Larclause; J Sicre; M Sodki; N Toulemont; B Vella; C Yana; F Alibay; O M Avalos; M A Balzer; P Bhandari; E Blanco; B D Bone; J C Bousman; P Bruneau; F J Calef; R J Calvet; S A D'Agostino; G de Los Santos; R G Deen; R W Denise; J Ervin; N W Ferraro; H E Gengl; F Grinblat; D Hernandez; M Hetzel; M E Johnson; L Khachikyan; J Y Lin; S M Madzunkov; S L Marshall; I G Mikellides; E A Miller; W Raff; J E Singer; C M Sunday; J F Villalvazo; M C Wallace; D Banfield; J A Rodriguez-Manfredi; C T Russell; A Trebi-Ollennu; J N Maki; E Beucler; M Böse; C Bonjour; J L Berenguer; S Ceylan; J Clinton; V Conejero; I Daubar; V Dehant; P Delage; F Euchner; I Estève; L Fayon; L Ferraioli; C L Johnson; J Gagnepain-Beyneix; M Golombek; A Khan; T Kawamura; B Kenda; P Labrot; N Murdoch; C Pardo; C Perrin; L Pou; A Sauron; D Savoie; S Stähler; E Stutzmann; N A Teanby; J Tromp; M van Driel; M Wieczorek; R Widmer-Schnidrig; J Wookey
Journal:  Space Sci Rev       Date:  2019-01-28       Impact factor: 8.017

3.  Groundwater production from geothermal heating on early Mars and implication for early martian habitability.

Authors:  Lujendra Ojha; Jacob Buffo; Suniti Karunatillake; Matthew Siegler
Journal:  Sci Adv       Date:  2020-12-02       Impact factor: 14.136

4.  Mars Extant Life: What's Next? Conference Report.

Authors:  B L Carrier; D W Beaty; M A Meyer; J G Blank; L Chou; S DasSarma; D J Des Marais; J L Eigenbrode; N Grefenstette; N L Lanza; A C Schuerger; P Schwendner; H D Smith; C R Stoker; J D Tarnas; K D Webster; C Bakermans; B K Baxter; M S Bell; S A Benner; H H Bolivar Torres; P J Boston; R Bruner; B C Clark; P DasSarma; A E Engelhart; Z E Gallegos; Z K Garvin; P J Gasda; J H Green; R L Harris; M E Hoffman; T Kieft; A H D Koeppel; P A Lee; X Li; K L Lynch; R Mackelprang; P R Mahaffy; L H Matthies; M A Nellessen; H E Newsom; D E Northup; B R W O'Connor; S M Perl; R C Quinn; L A Rowe; B Sauterey; M A Schneegurt; D Schulze-Makuch; L A Scuderi; M N Spilde; V Stamenković; J A Torres Celis; D Viola; B D Wade; C J Walker; R C Wiens; A J Williams; J M Williams; J Xu
Journal:  Astrobiology       Date:  2020-05-28       Impact factor: 4.335

5.  Evidence for extremely rapid magma ocean crystallization and crust formation on Mars.

Authors:  Laura C Bouvier; Maria M Costa; James N Connelly; Ninna K Jensen; Daniel Wielandt; Michael Storey; Alexander A Nemchin; Martin J Whitehouse; Joshua F Snape; Jeremy J Bellucci; Frédéric Moynier; Arnaud Agranier; Bleuenn Gueguen; Maria Schönbächler; Martin Bizzarro
Journal:  Nature       Date:  2018-06-27       Impact factor: 49.962
  5 in total

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