| scholarly article | Q13442814 |
| P356 | DOI | 10.1029/2018JE005852 |
| P50 | author | Rafael Navarro González | Q6097742 |
| Melissa Trainer | Q6812897 | ||
| Christopher McKay | Q56894 | ||
| Amy C. McAdam | Q68685367 | ||
| Charles A. Malespin | Q89031059 | ||
| Pamela G Conrad | Q89031101 | ||
| Arnaud Buch | Q89031108 | ||
| José Antonio Rodríguez-Manfredi | Q105574597 | ||
| Caroline Freissinet | Q113402384 | ||
| Daniel P. Glavin | Q43131938 | ||
| Jennifer C. Stern | Q54086426 | ||
| Brad Sutter | Q57913396 | ||
| Jennifer L. Eigenbrode | Q59668484 | ||
| Ashwin R. Vasavada | Q59668740 | ||
| Paul R. Mahaffy | Q59669261 | ||
| Sushil K. Atreya | Q59674695 | ||
| P2093 | author name string | Cyril Szopa | |
| Patrice Coll | |||
| François Raulin | |||
| Douglas W. Ming | |||
| Richard V. Morris | |||
| F. Javier Martín-Torres | |||
| Michel Cabane | |||
| Heather B. Franz | |||
| P. Douglas Archer | |||
| Benny Prats | |||
| Joanna V. Hogancamp | |||
| Karina F. Navarro | |||
| María-Paz Zorzano-Mier | |||
| P2860 | cites work | A Habitable Fluvio-Lacustrine Environment at Yellowknife Bay, Gale Crater, Mars | Q22065596 |
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| Experimental simulation of early Martian volcanic lightning. | Q31018269 | ||
| Impact erosion of the primordial atmosphere of Mars | Q33423675 | ||
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| A possible nitrogen crisis for Archaean life due to reduced nitrogen fixation by lightning | Q34083902 | ||
| Detection of molecular hydrogen in the atmosphere of Mars | Q34103763 | ||
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| Volatile and organic compositions of sedimentary rocks in Yellowknife Bay, Gale crater, Mars | Q34390894 | ||
| Evidence for indigenous nitrogen in sedimentary and aeolian deposits from the Curiosity rover investigations at Gale crater, Mars | Q34469772 | ||
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| Abundances and implications of volatile-bearing species from evolved gas analysis of the Rocknest aeolian deposit, Gale Crater, Mars | Q59946514 | ||
| Evidence for perchlorates and the origin of chlorinated hydrocarbons detected by SAM at the Rocknest aeolian deposit in Gale Crater | Q59946532 | ||
| Prebiotic chemistry and atmospheric warming of early Earth by an active young Sun | Q60060474 | ||
| Measurements of pernitric acid at the South Pole during ISCAT 2000 | Q60170712 | ||
| Isotopic composition of Antarctic Dry Valley nitrate: Implications for NOysources and cycling in Antarctica | Q61469868 | ||
| The Late Heavy Bombardment | Q67040540 | ||
| Energy yields for hydrogen cyanide and formaldehyde syntheses: the HCN and amino acid concentrations in the primitive ocean | Q69805751 | ||
| Rates of fixation by lightning of carbon and nitrogen in possible primitive atmospheres | Q72921424 | ||
| Collecting Samples in Gale Crater, Mars; an Overview of the Mars Science Laboratory Sample Acquisition, Sample Processing and Handling System | Q106533912 | ||
| Modeling the thermal and physical evolution of Mount Sharp's sedimentary rocks, Gale Crater, Mars: Implications for diagenesis on the MSL Curiosity rover traverse | Q106705042 | ||
| Organic synthesis in experimental impact shocks | Q36853985 | ||
| Sequestration of Martian CO2 by mineral carbonation. | Q38452415 | ||
| Nitrogen fixation on early Mars and other terrestrial planets: experimental demonstration of abiotic fixation reactions to nitrite and nitrate | Q38480774 | ||
| The origin of planetary impactors in the inner solar system. | Q38486744 | ||
| Production of nitrogen oxides by lightning and coronae discharges in simulated early Earth, Venus and Mars environments | Q38496929 | ||
| The case for a wet, warm climate on early Mars | Q38511732 | ||
| Extreme enrichment in atmospheric 15N15N. | Q46093715 | ||
| The evolution of nitrogen cycling | Q47385741 | ||
| Solar interior structure and luminosity variations | Q53953599 | ||
| Structural Basis of Biological Nitrogen Fixation. | Q55035691 | ||
| Clay mineral diversity and abundance in sedimentary rocks of Gale crater, Mars. | Q55347021 | ||
| High Temperature Properties and Decomposition of Inorganic Salts Part 3, Nitrates and Nitrites | Q55893867 | ||
| The Sample Analysis at Mars Investigation and Instrument Suite | Q55934420 | ||
| The early environment and its evolution on Mars: Implication for life | Q55934496 | ||
| Cataclysmic bombardment throughout the inner solar system 3.9–4.0 Ga | Q56536310 | ||
| Cratering Chronology and the Evolution of Mars | Q56552476 | ||
| The formation of sulfate, nitrate and perchlorate salts in the martian atmosphere | Q56698032 | ||
| Hydrogen-nitrogen greenhouse warming in Earth's early atmosphere | Q57117457 | ||
| Persistent or repeated surface habitability on Mars during the late Hesperian - Amazonian | Q57444872 | ||
| Volcanic outgassing of CO2 and H2O on Mars | Q57662463 | ||
| Mineralogy of an ancient lacustrine mudstone succession from the Murray formation, Gale crater, Mars | Q57852716 | ||
| Evolved gas analyses of sedimentary rocks and eolian sediment in Gale Crater, Mars: Results of the Curiosity rover's sample analysis at Mars instrument from Yellowknife Bay to the Namib Dune | Q57874177 | ||
| Abiotic nitrous oxide emission from the hypersaline Don Juan Pond in Antarctica | Q58074042 | ||
| Atmospheric origins of perchlorate on Mars and in the Atacama | Q58471119 | ||
| Effect of variable energy input on nitrogen fixation in instantaneous linear discharges | Q59096851 | ||
| Mars/Moon Cratering Rate Ratio Estimates | Q59783742 | ||
| Transient reducing greenhouse warming on early Mars | Q59828940 | ||
| Chlorate/Fe‐Bearing Phase Mixtures as a Possible Source of Oxygen and Chlorine Detected by the Sample Analysis at Mars Instrument in Gale Crater, Mars | Q59854668 | ||
| Major Volatiles Evolved From Eolian Materials in Gale Crater | Q59854679 | ||
| The nitrate/(per)chlorate relationship on Mars | Q59854704 | ||
| Nitrogen fixation on early Mars by volcanic lightning and other sources | Q59884087 | ||
| P921 | main subject | Mars Science Laboratory | Q48496 |
| Gale | Q622221 | ||
| P577 | publication date | 2018-12-19 | |
| P1433 | published in | Journal of Geophysical Research. Planets | Q27726640 |
| P1476 | title | Abiotic input of fixed nitrogen by bolide impacts to Gale crater during the Hesperian. Insights from the Mars Science Laboratory |
| Q104218362 | Constraints on the Mineralogy and Geochemistry of Vera Rubin Ridge, Gale Crater, Mars, From Mars Science Laboratory Sample Analysis at Mars Evolved Gas Analyses |
| Q102319812 | Seasonal Variations in Atmospheric Composition as Measured in Gale Crater, Mars |
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