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Evaluating the biosignature potential of ammonium in Proterozoic red beds and implications for the search for life on Mars

Eva E.Stüeken Philip Fralick Stephen Hillier Anthony R.Prave

Earth and Planetary Physics2024，Vol.8Issue(6)：P.836-853,18.

Earth and Planetary Physics2024，Vol.8Issue(6)：P.836-853,18.DOI:10.26464/epp2024045

Evaluating the biosignature potential of ammonium in Proterozoic red beds and implications for the search for life on Mars

Eva E.Stüeken ¹Philip Fralick ²Stephen Hillier ³Anthony R.Prave¹

作者信息

1. School of Earth and Environmental Sciences,University of St Andrews,St Andrews,KY169TS,UK
2. Department of Geology,Lakehead University,Thunder Bay,ON P7B 5E1,Canada
3. The James Hutton Institute,Craigiebuckler,Aberdeen,AB158QH,UK Department of Soil and Environment,Swedish University of Agricultural Sciences(SLU),SE-75007 Uppsala,Sweden
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摘要

关键词

red beds/biosignature/Mars/nitrogen/ammonium/clay minerals

分类

天文与地球科学

引用本文复制引用

Eva E.Stüeken,Philip Fralick,Stephen Hillier,Anthony R.Prave..Evaluating the biosignature potential of ammonium in Proterozoic red beds and implications for the search for life on Mars[J].Earth and Planetary Physics,2024,8(6):P.836-853,18.

基金项目

EES acknowledges funding from a NERC Frontiers grant(NE/V010824/1) （NE/V010824/1）

Leverhulme Trust research grant(RPG-2022-313). （RPG-2022-313）

Earth and Planetary Physics

OAEI

ISSN：2096-3955

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