Vertical structure of the bacterial diversity in meromictic Fayetteville Green Lake

Vertical structure of the bacterial diversity in meromictic Fayetteville Green Lake

Abstract The permanently stratified water columns in euxinic meromictic lakes produce niche environments for phototrophic sulfur oxidizers and diverse sulfur metabolisms. While Green Lake (Fayetteville, New York, NY) is known to host a diverse community of ecologically important sulfur bacteria, ana...

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Main Authors: Kaleigh R. Block, Joy M. O'Brien, William J. Edwards, Cassandra L. Marnocha
Format: Article
Language:English
Published: Wiley 2021-08-01
Series:MicrobiologyOpen
Subjects:
bacterial diversity
freshwater
meromictic lake
sulfur cycling
Online Access:https://doi.org/10.1002/mbo3.1228
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spelling doaj-43fb58581aa04331882a8dba7de206f02021-08-30T09:04:33ZengWileyMicrobiologyOpen2045-88272021-08-01104n/an/a10.1002/mbo3.1228Vertical structure of the bacterial diversity in meromictic Fayetteville Green LakeKaleigh R. Block0Joy M. O'Brien1William J. Edwards2Cassandra L. Marnocha3Department of Biology Niagara University Lewiston New York USADepartment of Biology Niagara University Lewiston New York USADepartment of Biology Niagara University Lewiston New York USADepartment of Biology Niagara University Lewiston New York USAAbstract The permanently stratified water columns in euxinic meromictic lakes produce niche environments for phototrophic sulfur oxidizers and diverse sulfur metabolisms. While Green Lake (Fayetteville, New York, NY) is known to host a diverse community of ecologically important sulfur bacteria, analyses of its microbial communities, to date, have been largely based on pigment analysis and smaller datasets from Sanger sequencing techniques. Here, we present the results of next‐generation sequencing of the eubacterial community in the context of the water column geochemistry. We observed abundant purple and green sulfur bacteria, as well as anoxygenic photosynthesis‐capable cyanobacteria within the upper monimolimnion. Amidst the phototrophs, we found other sulfur‐cycling bacteria including sulfur disproportionators and chemotrophic sulfur oxidizers, further detailing our understanding of the sulfur cycle and microbial ecology of euxinic, meromictic lakes.https://doi.org/10.1002/mbo3.1228bacterial diversityfreshwatermeromictic lakesulfur cycling
collection DOAJ
language English
format Article
sources DOAJ
author Kaleigh R. Block
Joy M. O'Brien
William J. Edwards
Cassandra L. Marnocha
spellingShingle Kaleigh R. Block
Joy M. O'Brien
William J. Edwards
Cassandra L. Marnocha
Vertical structure of the bacterial diversity in meromictic Fayetteville Green Lake
MicrobiologyOpen
bacterial diversity
freshwater
meromictic lake
sulfur cycling
author_facet Kaleigh R. Block
Joy M. O'Brien
William J. Edwards
Cassandra L. Marnocha
author_sort Kaleigh R. Block
title Vertical structure of the bacterial diversity in meromictic Fayetteville Green Lake
title_short Vertical structure of the bacterial diversity in meromictic Fayetteville Green Lake
title_full Vertical structure of the bacterial diversity in meromictic Fayetteville Green Lake
title_fullStr Vertical structure of the bacterial diversity in meromictic Fayetteville Green Lake
title_full_unstemmed Vertical structure of the bacterial diversity in meromictic Fayetteville Green Lake
title_sort vertical structure of the bacterial diversity in meromictic fayetteville green lake
publisher Wiley
series MicrobiologyOpen
issn 2045-8827
publishDate 2021-08-01
description Abstract The permanently stratified water columns in euxinic meromictic lakes produce niche environments for phototrophic sulfur oxidizers and diverse sulfur metabolisms. While Green Lake (Fayetteville, New York, NY) is known to host a diverse community of ecologically important sulfur bacteria, analyses of its microbial communities, to date, have been largely based on pigment analysis and smaller datasets from Sanger sequencing techniques. Here, we present the results of next‐generation sequencing of the eubacterial community in the context of the water column geochemistry. We observed abundant purple and green sulfur bacteria, as well as anoxygenic photosynthesis‐capable cyanobacteria within the upper monimolimnion. Amidst the phototrophs, we found other sulfur‐cycling bacteria including sulfur disproportionators and chemotrophic sulfur oxidizers, further detailing our understanding of the sulfur cycle and microbial ecology of euxinic, meromictic lakes.
topic bacterial diversity
freshwater
meromictic lake
sulfur cycling
url https://doi.org/10.1002/mbo3.1228
work_keys_str_mv AT kaleighrblock verticalstructureofthebacterialdiversityinmeromicticfayettevillegreenlake
AT joymobrien verticalstructureofthebacterialdiversityinmeromicticfayettevillegreenlake
AT williamjedwards verticalstructureofthebacterialdiversityinmeromicticfayettevillegreenlake
AT cassandralmarnocha verticalstructureofthebacterialdiversityinmeromicticfayettevillegreenlake
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