Phosphates on Mars and Their Importance as Igneous, Aqueous, and Astrobiological Indicators

Hausrath, E. M.; Adcock, C. T.; Berger, J. A.; Cycil, L. M.; Kizovski, T. V.; McCubbin, F. M.; Schmidt, M. E.; Tu, V. M.; VanBommel, S. J.; Treiman, A. H.; Clark, B. C.

doi:10.3390/min14060591

Minerals

2024

DOI: 10.3390/min14060591

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Phosphates on Mars and Their Importance as Igneous, Aqueous, and Astrobiological Indicators

E. M. Hausrath,

C. T. Adcock,

J. A. Berger

et al.

Abstract: This paper reviews the phosphate phases in meteorites and those measured by landed spacecraft, what they reveal about past igneous and aqueous conditions on Mars, and important implications for potential prebiotic chemistry, past habitability, and potential biosignatures that could be detected in samples returned from Mars. A review of the 378 martian meteorites as of 2023 indicate that of the two most common phosphate minerals in Mars meteorites, merrillite and apatites, the apatite composition is largely F- … Show more

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2024

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Phosphate Solubilization by Microorganisms in Pyroclastic Material from Half Moon Island in Antarctica: Implications for Astrobiology

Leal,

Tovar,

Infante

et al. 2024

Preprint

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Microorganisms play a crucial role in the phosphorus cycle, as they mineralize and immobilize organic phosphorus and solubilize and precipitate the inorganic fraction of it. In various regions of the planet, the functional capacity of microorganisms in the solubilization process has been evaluated; however, in polar regions, the difficulty in accessing samples and handling microorganisms presents a limitation for understanding this cycle. This study aimed to evaluate the phosphate-solubilizing capacity of cultivable microorganisms present in volcanic soils of Half Moon Island in Antarctica and their astrobiological implications for Mars. Physicochemical soil analysis, traditional culture techniques, selective media cultivation, and enzymatic activity analysis for soil phosphatase were conducted. Growth of various isolates was observed across different sampling points, with phosphate-solubilizing activity ranging from 14.29–92.31% of the isolates at each sampling point. These bacteria showed a direct relationship with soil calcium content. Phosphatase activity recorded low values, possibly affected by temperature and the low metabolic rate of in situ microorganisms. The findings suggest that microorganisms in Antarctic volcanic soils could contribute to astrobiological exploration on Mars.

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Phosphate Solubilization by Microorganisms in Pyroclastic Material from Half Moon Island in Antarctica: Implications for Astrobiology

Leal,

Tovar,

Infante

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Phosphates on Mars and Their Importance as Igneous, Aqueous, and Astrobiological Indicators

Cited by 1 publication

References 251 publications

Phosphate Solubilization by Microorganisms in Pyroclastic Material from Half Moon Island in Antarctica: Implications for Astrobiology

Phosphate Solubilization by Microorganisms in Pyroclastic Material from Half Moon Island in Antarctica: Implications for Astrobiology

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