Microbial abundance in surface ice on the Greenland Ice Sheet

Marek Stibal; Erkin Gozdereliler; Karen A. Cameron; Jason E. Box; Ian T. Stevens; Jarishma K. Gokul; Morten Schostag; Jakub D. Zarsky; Arwyn  Edwards; Tristram D.L. Irvine-Fynn; Carsten Suhr Jacobsen

doi:10.3389/fmicb.2015.00225

Microbial abundance in surface ice on the Greenland Ice Sheet

Marek Stibal, Erkin Gozdereliler, Karen A. Cameron, Jason E. Box, Ian T. Stevens, Jarishma K. Gokul, Morten Schostag, Jakub D. Zarsky, Arwyn Edwards, Tristram D.L. Irvine-Fynn, Carsten Suhr Jacobsen

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Abstract

Measuring microbial abundance in glacier ice and identifying its controls is essential for a better understanding and quantification of biogeochemical processes in glacial ecosystems. However, cell enumeration of glacier ice samples is challenging due to typically low cell numbers and the presence of interfering mineral particles. We quantified for the first time the abundance of microbial cells in surface ice from geographically distinct sites on the Greenland Ice Sheet (GrIS), using three enumeration methods: epifluorescence microscopy (EFM), flow cytometry (FCM), and quantitative polymerase chain reaction (qPCR). In addition, we reviewed published data on microbial abundance in glacier ice and tested the three methods on artificial ice samples of realistic cell (10²-10⁷ cells ml^-1) and mineral particle (0.1-100 mg ml^-1) concentrations, simulating a range of glacial ice types, from clean subsurface ice to surface ice to sediment-laden basal ice. We then used multivariate statistical analysis to identify factors responsible for the variation in microbial abundance on the ice sheet. EFM gave the most accurate and reproducible results of the tested methodologies, and was therefore selected as the most suitable technique for cell enumeration of ice containing dust. Cell numbers in surface ice samples, determined by EFM, ranged from ~ 2 × 10³ to ~ 2 × 10⁶ cells ml^-1 while dust concentrations ranged from 0.01 to 2 mg ml^-1. The lowest abundances were found in ice sampled from the accumulation area of the ice sheet and in samples affected by fresh snow; these samples may be considered as a reference point of the cell abundance of precipitants that are deposited on the ice sheet surface. Dust content was the most significant variable to explain the variation in the abundance data, which suggests a direct association between deposited dust particles and cells and/or by their provision of limited nutrients to microbial communities on the GrIS.

Originalsprog	Engelsk
Tidsskrift	Frontiers in Microbiology
Vol/bind	6
Antal sider	12
ISSN	1664-302X
DOI	https://doi.org/10.3389/fmicb.2015.00225
Status	Udgivet - 2015

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10.3389/fmicb.2015.00225

fmicb_06_00225Forlagets udgivne version, 1,26 MB

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title = "Microbial abundance in surface ice on the Greenland Ice Sheet",

abstract = "Measuring microbial abundance in glacier ice and identifying its controls is essential for a better understanding and quantification of biogeochemical processes in glacial ecosystems. However, cell enumeration of glacier ice samples is challenging due to typically low cell numbers and the presence of interfering mineral particles. We quantified for the first time the abundance of microbial cells in surface ice from geographically distinct sites on the Greenland Ice Sheet (GrIS), using three enumeration methods: epifluorescence microscopy (EFM), flow cytometry (FCM), and quantitative polymerase chain reaction (qPCR). In addition, we reviewed published data on microbial abundance in glacier ice and tested the three methods on artificial ice samples of realistic cell (102-107 cells ml-1) and mineral particle (0.1-100 mg ml-1) concentrations, simulating a range of glacial ice types, from clean subsurface ice to surface ice to sediment-laden basal ice. We then used multivariate statistical analysis to identify factors responsible for the variation in microbial abundance on the ice sheet. EFM gave the most accurate and reproducible results of the tested methodologies, and was therefore selected as the most suitable technique for cell enumeration of ice containing dust. Cell numbers in surface ice samples, determined by EFM, ranged from ~ 2 × 103 to ~ 2 × 106 cells ml-1 while dust concentrations ranged from 0.01 to 2 mg ml-1. The lowest abundances were found in ice sampled from the accumulation area of the ice sheet and in samples affected by fresh snow; these samples may be considered as a reference point of the cell abundance of precipitants that are deposited on the ice sheet surface. Dust content was the most significant variable to explain the variation in the abundance data, which suggests a direct association between deposited dust particles and cells and/or by their provision of limited nutrients to microbial communities on the GrIS.",

author = "Marek Stibal and Erkin Gozdereliler and Cameron, {Karen A.} and {E. Box}, Jason and Stevens, {Ian T.} and Gokul, {Jarishma K.} and Morten Schostag and Zarsky, {Jakub D.} and Arwyn Edwards and Irvine-Fynn, {Tristram D.L.} and Jacobsen, {Carsten Suhr}",

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journal = "Frontiers in Microbiology",

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TY - JOUR

T1 - Microbial abundance in surface ice on the Greenland Ice Sheet

AU - Stibal, Marek

AU - Gozdereliler, Erkin

AU - Cameron, Karen A.

AU - E. Box, Jason

AU - Stevens, Ian T.

AU - Gokul, Jarishma K.

AU - Schostag, Morten

AU - Zarsky, Jakub D.

AU - Edwards, Arwyn

AU - Irvine-Fynn, Tristram D.L.

AU - Jacobsen, Carsten Suhr

N1 - CENPERMOA[2015]

PY - 2015

Y1 - 2015

N2 - Measuring microbial abundance in glacier ice and identifying its controls is essential for a better understanding and quantification of biogeochemical processes in glacial ecosystems. However, cell enumeration of glacier ice samples is challenging due to typically low cell numbers and the presence of interfering mineral particles. We quantified for the first time the abundance of microbial cells in surface ice from geographically distinct sites on the Greenland Ice Sheet (GrIS), using three enumeration methods: epifluorescence microscopy (EFM), flow cytometry (FCM), and quantitative polymerase chain reaction (qPCR). In addition, we reviewed published data on microbial abundance in glacier ice and tested the three methods on artificial ice samples of realistic cell (102-107 cells ml-1) and mineral particle (0.1-100 mg ml-1) concentrations, simulating a range of glacial ice types, from clean subsurface ice to surface ice to sediment-laden basal ice. We then used multivariate statistical analysis to identify factors responsible for the variation in microbial abundance on the ice sheet. EFM gave the most accurate and reproducible results of the tested methodologies, and was therefore selected as the most suitable technique for cell enumeration of ice containing dust. Cell numbers in surface ice samples, determined by EFM, ranged from ~ 2 × 103 to ~ 2 × 106 cells ml-1 while dust concentrations ranged from 0.01 to 2 mg ml-1. The lowest abundances were found in ice sampled from the accumulation area of the ice sheet and in samples affected by fresh snow; these samples may be considered as a reference point of the cell abundance of precipitants that are deposited on the ice sheet surface. Dust content was the most significant variable to explain the variation in the abundance data, which suggests a direct association between deposited dust particles and cells and/or by their provision of limited nutrients to microbial communities on the GrIS.

AB - Measuring microbial abundance in glacier ice and identifying its controls is essential for a better understanding and quantification of biogeochemical processes in glacial ecosystems. However, cell enumeration of glacier ice samples is challenging due to typically low cell numbers and the presence of interfering mineral particles. We quantified for the first time the abundance of microbial cells in surface ice from geographically distinct sites on the Greenland Ice Sheet (GrIS), using three enumeration methods: epifluorescence microscopy (EFM), flow cytometry (FCM), and quantitative polymerase chain reaction (qPCR). In addition, we reviewed published data on microbial abundance in glacier ice and tested the three methods on artificial ice samples of realistic cell (102-107 cells ml-1) and mineral particle (0.1-100 mg ml-1) concentrations, simulating a range of glacial ice types, from clean subsurface ice to surface ice to sediment-laden basal ice. We then used multivariate statistical analysis to identify factors responsible for the variation in microbial abundance on the ice sheet. EFM gave the most accurate and reproducible results of the tested methodologies, and was therefore selected as the most suitable technique for cell enumeration of ice containing dust. Cell numbers in surface ice samples, determined by EFM, ranged from ~ 2 × 103 to ~ 2 × 106 cells ml-1 while dust concentrations ranged from 0.01 to 2 mg ml-1. The lowest abundances were found in ice sampled from the accumulation area of the ice sheet and in samples affected by fresh snow; these samples may be considered as a reference point of the cell abundance of precipitants that are deposited on the ice sheet surface. Dust content was the most significant variable to explain the variation in the abundance data, which suggests a direct association between deposited dust particles and cells and/or by their provision of limited nutrients to microbial communities on the GrIS.

U2 - 10.3389/fmicb.2015.00225

DO - 10.3389/fmicb.2015.00225

M3 - Journal article

C2 - 25852678

SN - 1664-302X

VL - 6

JO - Frontiers in Microbiology

JF - Frontiers in Microbiology

ER -

Microbial abundance in surface ice on the Greenland Ice Sheet

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