Modern analogues and the early history of microbial life

Revealing the geological history of microbial life is very challenging. Microbes rarely are preserved with morphological fidelity, and even when they are, morphology is a poor guide to phylogeny and metabolism. Biological studies of environments considered analogous to those of paleobiological inter...

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Published in:Precambrian Research
Main Authors: Burns, Brendan P., Anitori, Roberto, Butterworth, Philip, Henneberger, Ruth, Goh, Falicia, Allen, Michelle A., Ibañez-Peral, Raquel, Bergquist, Peter L., Walter, Malcolm R., Neilan, Brett A.
Format: Article in Journal/Newspaper
Language:English
Published: 2009
Subjects:
White Island
Online Access:https://researchers.mq.edu.au/en/publications/13ef90d7-9915-4c88-a0b7-eba39d9275b8
https://doi.org/10.1016/j.precamres.2009.05.006
http://www.scopus.com/inward/record.url?scp=67650759093&partnerID=8YFLogxK
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spelling ftmacquarieunicr:oai:https://researchers.mq.edu.au:publications/13ef90d7-9915-4c88-a0b7-eba39d9275b8 2024-04-28T08:41:14+00:00 Modern analogues and the early history of microbial life Burns, Brendan P. Anitori, Roberto Butterworth, Philip Henneberger, Ruth Goh, Falicia Allen, Michelle A. Ibañez-Peral, Raquel Bergquist, Peter L. Walter, Malcolm R. Neilan, Brett A. 2009-09 https://researchers.mq.edu.au/en/publications/13ef90d7-9915-4c88-a0b7-eba39d9275b8 https://doi.org/10.1016/j.precamres.2009.05.006 http://www.scopus.com/inward/record.url?scp=67650759093&partnerID=8YFLogxK eng eng info:eu-repo/semantics/restrictedAccess Burns , B P , Anitori , R , Butterworth , P , Henneberger , R , Goh , F , Allen , M A , Ibañez-Peral , R , Bergquist , P L , Walter , M R & Neilan , B A 2009 , ' Modern analogues and the early history of microbial life ' , Precambrian Research , vol. 173 , no. 1-4 , pp. 10-18 . https://doi.org/10.1016/j.precamres.2009.05.006 article 2009 ftmacquarieunicr https://doi.org/10.1016/j.precamres.2009.05.006 2024-04-09T15:11:34Z Revealing the geological history of microbial life is very challenging. Microbes rarely are preserved with morphological fidelity, and even when they are, morphology is a poor guide to phylogeny and metabolism. Biological studies of environments considered analogous to those of paleobiological interest on the ancient Earth can inform interpretations and suggest new approaches. This paper reviews recent advances in our understanding of the biological diversity of two environments relevant to Archean paleobiology: those of extreme acidity and temperature (the Mt. Hood and White Island volcanoes), and high salinity (living stromatolites in Shark Bay). The combination of traditional microbial isolation with the use of modern molecular techniques has revealed that the microbial communities in these environments are much more diverse than originally thought. Through the extraction of whole microbial community DNA, enzymatic amplification of evolutionarily conserved genes, and cloning and sequencing of these genes, more specific and informed inferences concerning functional complexity in these extreme environments have now been made. Studies of the modern stromatolites have demonstrated that they have a very diverse range of micoorganisms, and contrary to previous interpretations, cyanobacteria are not the most abundant microbes present. In addition, many of the microorganisms are unique with no known close relatives, and these microorganisms may also possess novel physiologies vital to the integrity and persistence of stromatolites through space and time. Microbes in the volcanoes studied are present ubiquitously and include geochemically significant sulfur- and iron-cycling taxa. The findings from the studies reviewed here suggest that the Archean biota may have been functionally diverse and much more complex than has yet been revealed. The importance of studying modern analogues is stressed in that the biogeochemical processes occurring in these communities leave morphological, mineralogical, lipid and isotopic ... Article in Journal/Newspaper White Island Macquarie University Research Portal Precambrian Research 173 1-4 10 18
institution Open Polar
collection Macquarie University Research Portal
op_collection_id ftmacquarieunicr
language English
description Revealing the geological history of microbial life is very challenging. Microbes rarely are preserved with morphological fidelity, and even when they are, morphology is a poor guide to phylogeny and metabolism. Biological studies of environments considered analogous to those of paleobiological interest on the ancient Earth can inform interpretations and suggest new approaches. This paper reviews recent advances in our understanding of the biological diversity of two environments relevant to Archean paleobiology: those of extreme acidity and temperature (the Mt. Hood and White Island volcanoes), and high salinity (living stromatolites in Shark Bay). The combination of traditional microbial isolation with the use of modern molecular techniques has revealed that the microbial communities in these environments are much more diverse than originally thought. Through the extraction of whole microbial community DNA, enzymatic amplification of evolutionarily conserved genes, and cloning and sequencing of these genes, more specific and informed inferences concerning functional complexity in these extreme environments have now been made. Studies of the modern stromatolites have demonstrated that they have a very diverse range of micoorganisms, and contrary to previous interpretations, cyanobacteria are not the most abundant microbes present. In addition, many of the microorganisms are unique with no known close relatives, and these microorganisms may also possess novel physiologies vital to the integrity and persistence of stromatolites through space and time. Microbes in the volcanoes studied are present ubiquitously and include geochemically significant sulfur- and iron-cycling taxa. The findings from the studies reviewed here suggest that the Archean biota may have been functionally diverse and much more complex than has yet been revealed. The importance of studying modern analogues is stressed in that the biogeochemical processes occurring in these communities leave morphological, mineralogical, lipid and isotopic ...
format Article in Journal/Newspaper
author Burns, Brendan P.
Anitori, Roberto
Butterworth, Philip
Henneberger, Ruth
Goh, Falicia
Allen, Michelle A.
Ibañez-Peral, Raquel
Bergquist, Peter L.
Walter, Malcolm R.
Neilan, Brett A.
spellingShingle Burns, Brendan P.
Anitori, Roberto
Butterworth, Philip
Henneberger, Ruth
Goh, Falicia
Allen, Michelle A.
Ibañez-Peral, Raquel
Bergquist, Peter L.
Walter, Malcolm R.
Neilan, Brett A.
Modern analogues and the early history of microbial life
author_facet Burns, Brendan P.
Anitori, Roberto
Butterworth, Philip
Henneberger, Ruth
Goh, Falicia
Allen, Michelle A.
Ibañez-Peral, Raquel
Bergquist, Peter L.
Walter, Malcolm R.
Neilan, Brett A.
author_sort Burns, Brendan P.
title Modern analogues and the early history of microbial life
title_short Modern analogues and the early history of microbial life
title_full Modern analogues and the early history of microbial life
title_fullStr Modern analogues and the early history of microbial life
title_full_unstemmed Modern analogues and the early history of microbial life
title_sort modern analogues and the early history of microbial life
publishDate 2009
url https://researchers.mq.edu.au/en/publications/13ef90d7-9915-4c88-a0b7-eba39d9275b8
https://doi.org/10.1016/j.precamres.2009.05.006
http://www.scopus.com/inward/record.url?scp=67650759093&partnerID=8YFLogxK
genre White Island
genre_facet White Island
op_source Burns , B P , Anitori , R , Butterworth , P , Henneberger , R , Goh , F , Allen , M A , Ibañez-Peral , R , Bergquist , P L , Walter , M R & Neilan , B A 2009 , ' Modern analogues and the early history of microbial life ' , Precambrian Research , vol. 173 , no. 1-4 , pp. 10-18 . https://doi.org/10.1016/j.precamres.2009.05.006
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.1016/j.precamres.2009.05.006
container_title Precambrian Research
container_volume 173
container_issue 1-4
container_start_page 10
op_container_end_page 18
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