Notice bibliographique
- Notice
Type(s) de contenu et mode(s) de consultation : Texte noté : électronique
Auteur(s) : Cabrol, Nathalie A. (1963-....). Éditeur scientifique
Titre(s) : From habitability to life on Mars [Texte électronique] / edited by Nathalie A. Cabrol, Edmond A. Grin
Publication : Amsterdam : Elsevier, copyright 2018
Description matérielle : 1 ressource dématérialisée
Note(s) : Notes bibliogr.
Autre(s) auteur(s) : Grin, Edmond A. (1920-2022). Éditeur scientifique
Sujet(s) : Mars (planète)
Biologie spatiale
Indice(s) Dewey :
523.43 (23e éd.) = Mars (planète)
Identifiants, prix et caractéristiques : ISBN 9780128099360. - ISBN 0128099364. - ISBN 9780128099353 (erroné). - ISBN 0128099356
(erroné)
Identifiant de la notice : ark:/12148/cb45583287v
Notice n° :
FRBNF45583287
(notice reprise d'un réservoir extérieur)
Table des matières : Front Cover; From Habitability to Life on Mars; Copyright; Contents; List of Contributors;
Foreword; Color Plate 1; Color Plate 2; Chapter 1: Habitability as a Tool in Astrobiological
Exploration; 1.1. Overview; 1.2. Introduction; 1.3. Defining Habitability; 1.3.1.
Follow the Water; 1.3.2. Follow the Bioessential Elements; 1.3.3. Follow the Energy
Sources; 1.4. Exploring the Extremes of Life; 1.5. Niche-Based Multivariate Approach
to Habitability; 1.6. Conclusions; References; Further Reading; Chapter 2: An Origin
of Life on Mars?; 2.1. Overview; 2.2. Introduction; 2.3. Liquid Water.
2.4. Carbon Chemistry2.5. Water on Mars; 2.6. The Timing of Aquatic Habitats; 2.7.
Possible Sources of Organic Molecules on Mars; 2.8. Where are the Martian Organic
Molecules?; 2.9. Several Possible Ways to Start Life on Mars; 2.10. The Odds for an
Origin of Life; 2.11. Conclusion; References; Chapter 3: Remote Detection of Phyllosilicates
on Mars and Implications for Climate and Habitability; 3.1. Overview; 3.2. Presence
of Phyllosilicates and Poorly Crystalline Aluminosilicates on Mars; 3.3. Remote Detection
of Phyllosilicates and Related Materials at Mars.
3.3.1. Detection of Phyllosilicates and SRO Materials on Mars Using VNIR Spectra3.3.2.
Detection of Phyllosilicates and SRO Materials on Mars in TIR Spectra; 3.3.2.1. Si-O
Stretching Vibrations; 3.3.2.2. Si-O Bending Vibrations; 3.3.3. Detection of Phyllosilicates
and SRO Materials on Mars by Rovers; 3.3.4. Detection of Phyllosilicates and SRO Materials
in Martian Meteorites; 3.4. Characterization of Phyllosilicates and SRO Materials
on Mars; 3.4.1. Global Observations of Phyllosilicates, SRO Phases and Aqueous Alteration
on Mars.
3.4.2. Regional Characterization of Phyllosilicates and Aqueous Alteration on Mars3.4.2.1.
The Phyllosilicate-Rich Mawrth Vallis Region in Eastern Chryse Planitia; 3.4.2.2.
The Clay-Bearing Region West and South of Isidis Planitia; 3.5. Discussion of Phyllosilicates
and Climate on Mars; 3.6. Discussion of Phyllosilicates and Habitability on Mars;
3.7. Summary of Phyllosilicates and SRO Materials on Mars; Acknowledgments; References;
Chapter 4: Martian Habitability as Inferred From Landed Mission Observations; 4.1.
Introduction; 4.2. Summary of Landed Missions.
4.3. Needs and Challenges for Habitability and Life4.4. Indicators of Habitability
From Landed Missions; 4.4.1. Phoenix: Northern Latitude Soils and Water Ice; 4.4.1.1.
Overview; 4.4.1.2. Perchlorates and Other Salts; 4.4.1.3. Low Water Activity Environment;
4.4.2. Curiosity: Fluvial-Deltaic-Lacustrine Deposits in Gale Crater; 4.4.2.1. Overview;
4.4.2.2. Prolonged Surface Water; 4.4.2.3. Varying Redox Conditions; 4.4.2.4. Organic
Carbon in Mudstones; 4.4.2.5. Detection of Nitrate; 4.4.2.6. Alteration by Ground
Water; 4.4.2.7. Evolution of Water Availability.