EGU21-16044, updated on 04 Mar 2021
https://doi.org/10.5194/egusphere-egu21-16044
EGU General Assembly 2021
© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

‘Terrestrial lava tubes as analogues for Mars – a review of the mineralogy and biosignatures of lava tubes from Iceland and the Terceira islands.’

Mahid Ahmed, Nina Kopacz, and Inge Loes ten Kate
Mahid Ahmed et al.
  • Utrecht University Netherlands (m.m.ahmed2@students.uu.nl)

Lava tubes have been detected on Mars and because of their subsurface nature are shielded from the harsh conditions at the surface. If water intersects with the Martian lava tubes, a life nurturing environment may exist locally in these tubes. Lava tubes on Iceland and the Azores may support similar conditions as lava tubes on Mars and have been shown to contain a wide variety of microbes. [Planetary Analogues and Lava Tube ] (PELE) field expeditions have been setup to understand the relationship between microbes and susbtrate and the preservation of microbes in deeptime within these systems. Within such systems biogenic and hydrothermal alteration processes are not necessarily mutually exclusive and a good understanding of the mineralogy helps distinguish one from the other. Here, I have performed an analytical study analysing basalt mineralogy from recent lava flows from Iceland and Azores islands, attempting to distinguish between biogenic and hydrothermal signatures. I used a workflow of semi quantitative analysis using viewing thin sections under a light microscope to understand textural information. This was supplemented by  ImageJ software and using SEM+EDX for point analysis of regions of interest to shed light on our areas of interest. My results showed some ambiguous features linked to alteration in a sample in the north of Iceland related to clays or spherulites, in the Azores vesicle infill of clays or devitrified glass were seen with potential bio signatures including carbon,calcum and phosphorous. These results may indicate environmental factors leading to location specific alteration or related to lava rock mineralogy. Contamination effects cannot be ignored and must be taken into consideration when reviewing these results. Overall these analyses will contribute to the larger PELE outcome by providing a complimentary workflow that can be used to assess biosignatures and specific regions of interest within lava tube rocks.

 

How to cite: Ahmed, M., Kopacz, N., and ten Kate, I. L.: ‘Terrestrial lava tubes as analogues for Mars – a review of the mineralogy and biosignatures of lava tubes from Iceland and the Terceira islands.’, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-16044, https://doi.org/10.5194/egusphere-egu21-16044, 2021.

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