High-up: a remote reservoir of microbial extremophiles at Central Andean Wetlands

High-up: a remote reservoir of microbial extremophiles at Central Andean Wetlands

The Central Andes region displays unexplored ecosystems of shallow lakes and salt flats at mean altitudes of 3,700 m. Being isolated and hostile, these so-called High-Altitude Andean Lakes (HAAL) are pristine and have been exposed to little human influence. HAAL proved to be a rich source of microbe...

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Main Authors: Virginia Helena Albarracín, Daniel eKurth, Omar Federico Ordoñez, Carolina eBelfiore, Eduardo eLuccini, Graciela eSalum, Ruben ePiacentini, Maria Eugenia Farias
Format: Article
Language:English
Published: Frontiers Media S.A. 2015-12-01
Series:Frontiers in Microbiology
Subjects:
Astrobiology
microbe
extremophiles
Genomes
Central Andes
Microbialites
Online Access:http://journal.frontiersin.org/Journal/10.3389/fmicb.2015.01404/full
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spelling doaj-c9787f90fc724c2faa412fcd340f51a52020-11-24T21:28:37ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2015-12-01610.3389/fmicb.2015.01404167950High-up: a remote reservoir of microbial extremophiles at Central Andean WetlandsVirginia Helena Albarracín0Daniel eKurth1Omar Federico Ordoñez2Carolina eBelfiore3Eduardo eLuccini4Graciela eSalum5Ruben ePiacentini6Maria Eugenia Farias7National University of Tucumán (UNT)PROIMIPROIMIPROIMICONICET– Universidad Nacional de RosarioCONICET– Universidad Nacional de RosarioCONICET– Universidad Nacional de RosarioPROIMIThe Central Andes region displays unexplored ecosystems of shallow lakes and salt flats at mean altitudes of 3,700 m. Being isolated and hostile, these so-called High-Altitude Andean Lakes (HAAL) are pristine and have been exposed to little human influence. HAAL proved to be a rich source of microbes showing interesting adaptations to life in extreme settings (poly-extremophiles) such as alkalinity, high concentrations of arsenic and dissolved salts, intense dryness, large daily ambient thermal amplitude, and extreme solar radiation levels. This work reviews HAAL microbiodiversity, taking into account different microbial niches, such as plankton, benthos, microbial mats and microbialites. The modern stromatolites and other microbialites discovered recently at HAAL are highlighted, as they provide unique modern -though quite imperfect- analogues of environments proxy for an earlier time in Earth’s history (volcanic setting and profuse hydrothermal activity, low atmospheric O2 pressure, thin ozone layer and high UV exposure). Likewise, we stress the importance of HAAL microbes as model poly-extremophiles in the study of the molecular mechanisms underlying their resistance ability against UV and toxic or deleterious chemicals using genome mining and functional genomics. In future research directions, it will be necessary to exploit the full potential of HAAL poly-extremophiles in terms of their biotechnological applications. Current projects heading this way have yielded detailed molecular information and functional proof on novel extremoenzymes: i.e. DNA repair enzymes and arsenic efflux pumps for which medical and bioremediation applications, respectively, are envisaged. But still, much effort is required to unravel novel functions for this and other molecules that dwell in a unique biological treasure despite its being hidden high up, in the remote Andes.http://journal.frontiersin.org/Journal/10.3389/fmicb.2015.01404/fullAstrobiologymicrobeextremophilesGenomesCentral AndesMicrobialites
collection DOAJ
language English
format Article
sources DOAJ
author Virginia Helena Albarracín
Daniel eKurth
Omar Federico Ordoñez
Carolina eBelfiore
Eduardo eLuccini
Graciela eSalum
Ruben ePiacentini
Maria Eugenia Farias
spellingShingle Virginia Helena Albarracín
Daniel eKurth
Omar Federico Ordoñez
Carolina eBelfiore
Eduardo eLuccini
Graciela eSalum
Ruben ePiacentini
Maria Eugenia Farias
High-up: a remote reservoir of microbial extremophiles at Central Andean Wetlands
Frontiers in Microbiology
Astrobiology
microbe
extremophiles
Genomes
Central Andes
Microbialites
author_facet Virginia Helena Albarracín
Daniel eKurth
Omar Federico Ordoñez
Carolina eBelfiore
Eduardo eLuccini
Graciela eSalum
Ruben ePiacentini
Maria Eugenia Farias
author_sort Virginia Helena Albarracín
title High-up: a remote reservoir of microbial extremophiles at Central Andean Wetlands
title_short High-up: a remote reservoir of microbial extremophiles at Central Andean Wetlands
title_full High-up: a remote reservoir of microbial extremophiles at Central Andean Wetlands
title_fullStr High-up: a remote reservoir of microbial extremophiles at Central Andean Wetlands
title_full_unstemmed High-up: a remote reservoir of microbial extremophiles at Central Andean Wetlands
title_sort high-up: a remote reservoir of microbial extremophiles at central andean wetlands
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2015-12-01
description The Central Andes region displays unexplored ecosystems of shallow lakes and salt flats at mean altitudes of 3,700 m. Being isolated and hostile, these so-called High-Altitude Andean Lakes (HAAL) are pristine and have been exposed to little human influence. HAAL proved to be a rich source of microbes showing interesting adaptations to life in extreme settings (poly-extremophiles) such as alkalinity, high concentrations of arsenic and dissolved salts, intense dryness, large daily ambient thermal amplitude, and extreme solar radiation levels. This work reviews HAAL microbiodiversity, taking into account different microbial niches, such as plankton, benthos, microbial mats and microbialites. The modern stromatolites and other microbialites discovered recently at HAAL are highlighted, as they provide unique modern -though quite imperfect- analogues of environments proxy for an earlier time in Earth’s history (volcanic setting and profuse hydrothermal activity, low atmospheric O2 pressure, thin ozone layer and high UV exposure). Likewise, we stress the importance of HAAL microbes as model poly-extremophiles in the study of the molecular mechanisms underlying their resistance ability against UV and toxic or deleterious chemicals using genome mining and functional genomics. In future research directions, it will be necessary to exploit the full potential of HAAL poly-extremophiles in terms of their biotechnological applications. Current projects heading this way have yielded detailed molecular information and functional proof on novel extremoenzymes: i.e. DNA repair enzymes and arsenic efflux pumps for which medical and bioremediation applications, respectively, are envisaged. But still, much effort is required to unravel novel functions for this and other molecules that dwell in a unique biological treasure despite its being hidden high up, in the remote Andes.
topic Astrobiology
microbe
extremophiles
Genomes
Central Andes
Microbialites
url http://journal.frontiersin.org/Journal/10.3389/fmicb.2015.01404/full
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