Subsurface ice as a microbial habitat

We determine the physicochemical habitat for microorganisms in subsurface terrestrial ice by quantitatively constraining the partitioning of bacteria and fluorescent beads (1-10 mu m) between the solid ice crystals and the water-filled veins and boundaries around individual ice crystals. We demonstr...

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Published in:Geology
Main Authors: Mader, HM, Pettitt, ME, Wadham, JL, Wolff, EW, Parkes, RJ
Format: Article in Journal/Newspaper
Language:English
Published: 2006
Subjects:
ice
glacier
water veins
bacteria
eukaryote
bacterial habitat
HIGH ARCTIC GLACIER
WATER-VEIN SYSTEM
METHANESULFONIC-ACID
POLYCRYSTALLINE ICE
LAKE VOSTOK
SP-NOV
CORE
ANTARCTICA
MICROORGANISMS
IMPURITIES
Arctic
Lake Vostok
Antarc*
Antarctica
Online Access:https://hdl.handle.net/1983/c272b63f-4dfa-48d5-a635-e8fef1a37709
https://research-information.bris.ac.uk/en/publications/c272b63f-4dfa-48d5-a635-e8fef1a37709
https://doi.org/10.1130/G22096.1
http://www.gsajournals.org/perlserv/?request=get-abstract&doi=10.1130%2FG22096.1
id ftubristolcris:oai:research-information.bris.ac.uk:publications/c272b63f-4dfa-48d5-a635-e8fef1a37709
record_format openpolar
spelling ftubristolcris:oai:research-information.bris.ac.uk:publications/c272b63f-4dfa-48d5-a635-e8fef1a37709 2024-05-12T07:56:28+00:00 Subsurface ice as a microbial habitat Mader, HM Pettitt, ME Wadham, JL Wolff, EW Parkes, RJ 2006-03 https://hdl.handle.net/1983/c272b63f-4dfa-48d5-a635-e8fef1a37709 https://research-information.bris.ac.uk/en/publications/c272b63f-4dfa-48d5-a635-e8fef1a37709 https://doi.org/10.1130/G22096.1 http://www.gsajournals.org/perlserv/?request=get-abstract&doi=10.1130%2FG22096.1 eng eng https://research-information.bris.ac.uk/en/publications/c272b63f-4dfa-48d5-a635-e8fef1a37709 info:eu-repo/semantics/restrictedAccess Mader , HM , Pettitt , ME , Wadham , JL , Wolff , EW & Parkes , RJ 2006 , ' Subsurface ice as a microbial habitat ' , Geology , vol. 34 , no. 3 , pp. 169-172 . https://doi.org/10.1130/G22096.1 ice glacier water veins bacteria eukaryote bacterial habitat HIGH ARCTIC GLACIER WATER-VEIN SYSTEM METHANESULFONIC-ACID POLYCRYSTALLINE ICE LAKE VOSTOK SP-NOV CORE ANTARCTICA MICROORGANISMS IMPURITIES article 2006 ftubristolcris https://doi.org/10.1130/G22096.1 2024-04-17T14:10:03Z We determine the physicochemical habitat for microorganisms in subsurface terrestrial ice by quantitatively constraining the partitioning of bacteria and fluorescent beads (1-10 mu m) between the solid ice crystals and the water-filled veins and boundaries around individual ice crystals. We demonstrate experimentally that the partitioning of spherical particles within subsurface ice depends strongly on size but is largely independent of source particle concentration. Although bacteria are shown consistently to partition to the veins, larger particles, which would include eukaryotic cells, become trapped in the crystals with little potential for continued metabolism. We also calculate the expected concentrations of soluble impurities in the veins for typical bulk concentrations found in natural ice. These calculations and scanning electron microscope observations demonstrate a concentrated chemical environment (3.5 M total ions at -10 degrees C) in the veins, where bacteria were found to reside, with a mixture of impurities that could sustain metabolism. Our calculations show that typical bacterial cells in glacial ice would fit within the narrow veins, which are a few micrometers across. These calculations are confirmed by microscopic images of spherical, 1.9-mu m-diameter, fluorescent beads and stained bacteria in subsurface veins. Typical bacterial concentrations in clean ice (10(2)-10(3) cells/mL) would result in concentrations of 10(6)-10(8) cells/mL of vein fluid, but occupy only a small fraction of the total available vein volume (<0.2%). Hence, bacterial populations are not limited by vein volume, with the bulk of the vein being unoccupied and available to supply energy sources and nutrients. Article in Journal/Newspaper Antarc* Antarctica Arctic University of Bristol: Bristol Research Arctic Lake Vostok ENVELOPE(106.000,106.000,-77.500,-77.500) Geology 34 3 169
institution Open Polar
collection University of Bristol: Bristol Research
op_collection_id ftubristolcris
language English
topic ice
glacier
water veins
bacteria
eukaryote
bacterial habitat
HIGH ARCTIC GLACIER
WATER-VEIN SYSTEM
METHANESULFONIC-ACID
POLYCRYSTALLINE ICE
LAKE VOSTOK
SP-NOV
CORE
ANTARCTICA
MICROORGANISMS
IMPURITIES
spellingShingle ice
glacier
water veins
bacteria
eukaryote
bacterial habitat
HIGH ARCTIC GLACIER
WATER-VEIN SYSTEM
METHANESULFONIC-ACID
POLYCRYSTALLINE ICE
LAKE VOSTOK
SP-NOV
CORE
ANTARCTICA
MICROORGANISMS
IMPURITIES
Mader, HM
Pettitt, ME
Wadham, JL
Wolff, EW
Parkes, RJ
Subsurface ice as a microbial habitat
topic_facet ice
glacier
water veins
bacteria
eukaryote
bacterial habitat
HIGH ARCTIC GLACIER
WATER-VEIN SYSTEM
METHANESULFONIC-ACID
POLYCRYSTALLINE ICE
LAKE VOSTOK
SP-NOV
CORE
ANTARCTICA
MICROORGANISMS
IMPURITIES
description We determine the physicochemical habitat for microorganisms in subsurface terrestrial ice by quantitatively constraining the partitioning of bacteria and fluorescent beads (1-10 mu m) between the solid ice crystals and the water-filled veins and boundaries around individual ice crystals. We demonstrate experimentally that the partitioning of spherical particles within subsurface ice depends strongly on size but is largely independent of source particle concentration. Although bacteria are shown consistently to partition to the veins, larger particles, which would include eukaryotic cells, become trapped in the crystals with little potential for continued metabolism. We also calculate the expected concentrations of soluble impurities in the veins for typical bulk concentrations found in natural ice. These calculations and scanning electron microscope observations demonstrate a concentrated chemical environment (3.5 M total ions at -10 degrees C) in the veins, where bacteria were found to reside, with a mixture of impurities that could sustain metabolism. Our calculations show that typical bacterial cells in glacial ice would fit within the narrow veins, which are a few micrometers across. These calculations are confirmed by microscopic images of spherical, 1.9-mu m-diameter, fluorescent beads and stained bacteria in subsurface veins. Typical bacterial concentrations in clean ice (10(2)-10(3) cells/mL) would result in concentrations of 10(6)-10(8) cells/mL of vein fluid, but occupy only a small fraction of the total available vein volume (<0.2%). Hence, bacterial populations are not limited by vein volume, with the bulk of the vein being unoccupied and available to supply energy sources and nutrients.
format Article in Journal/Newspaper
author Mader, HM
Pettitt, ME
Wadham, JL
Wolff, EW
Parkes, RJ
author_facet Mader, HM
Pettitt, ME
Wadham, JL
Wolff, EW
Parkes, RJ
author_sort Mader, HM
title Subsurface ice as a microbial habitat
title_short Subsurface ice as a microbial habitat
title_full Subsurface ice as a microbial habitat
title_fullStr Subsurface ice as a microbial habitat
title_full_unstemmed Subsurface ice as a microbial habitat
title_sort subsurface ice as a microbial habitat
publishDate 2006
url https://hdl.handle.net/1983/c272b63f-4dfa-48d5-a635-e8fef1a37709
https://research-information.bris.ac.uk/en/publications/c272b63f-4dfa-48d5-a635-e8fef1a37709
https://doi.org/10.1130/G22096.1
http://www.gsajournals.org/perlserv/?request=get-abstract&doi=10.1130%2FG22096.1
long_lat ENVELOPE(106.000,106.000,-77.500,-77.500)
geographic Arctic
Lake Vostok
geographic_facet Arctic
Lake Vostok
genre Antarc*
Antarctica
Arctic
genre_facet Antarc*
Antarctica
Arctic
op_source Mader , HM , Pettitt , ME , Wadham , JL , Wolff , EW & Parkes , RJ 2006 , ' Subsurface ice as a microbial habitat ' , Geology , vol. 34 , no. 3 , pp. 169-172 . https://doi.org/10.1130/G22096.1
op_relation https://research-information.bris.ac.uk/en/publications/c272b63f-4dfa-48d5-a635-e8fef1a37709
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.1130/G22096.1
container_title Geology
container_volume 34
container_issue 3
container_start_page 169
_version_ 1798836547739451392

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