Spatial and temporal dynamics of bacterioplankton community composition in a subtropical dammed karst river of southwestern China

Spatial and temporal dynamics of bacterioplankton community composition in a subtropical dammed karst river of southwestern China

Abstract River damming influences the hydro‐physicochemical variations in karst water; however, such disruption in bacterioplankton communities has seldom been studied. Here, three sampling sites (city‐river section, reservoir area, and outflow area) of the Ca2+–Mg2+–HCO3−–SO42− water type in the da...

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Main Authors: Shi Yu, Ruoxue He, Ang Song, Yadan Huang, Zhenjiang Jin, Yueming Liang, Qiang Li, Xiaohong Wang, Werner E. G. Müller, Jianhua Cao
Format: Article
Language:English
Published: Wiley 2019-09-01
Series:MicrobiologyOpen
Subjects:
16S rRNA
bacterioplankton community
dammed karst river
hydro‐physicochemical variability
Online Access:https://doi.org/10.1002/mbo3.849
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spelling doaj-763721ba38374f50a76541eda3125e732020-11-25T02:31:27ZengWileyMicrobiologyOpen2045-88272019-09-0189n/an/a10.1002/mbo3.849Spatial and temporal dynamics of bacterioplankton community composition in a subtropical dammed karst river of southwestern ChinaShi Yu0Ruoxue He1Ang Song2Yadan Huang3Zhenjiang Jin4Yueming Liang5Qiang Li6Xiaohong Wang7Werner E. G. Müller8Jianhua Cao9Key Laboratory of Karst Dynamics, MLR & GZAR Institute of Karst GeologyChinese Academy of Geological Sciences Guilin ChinaKey Laboratory of Karst Dynamics, MLR & GZAR Institute of Karst GeologyChinese Academy of Geological Sciences Guilin ChinaKey Laboratory of Karst Dynamics, MLR & GZAR Institute of Karst GeologyChinese Academy of Geological Sciences Guilin ChinaGraduate School of Guilin Medical University Guilin ChinaEnvironmental Science and Engineering College Guilin University of Technology Guilin ChinaKey Laboratory of Karst Dynamics, MLR & GZAR Institute of Karst GeologyChinese Academy of Geological Sciences Guilin ChinaKey Laboratory of Karst Dynamics, MLR & GZAR Institute of Karst GeologyChinese Academy of Geological Sciences Guilin ChinaERC Advanced Investigator Grant Research Group at Institute for Physiological Chemistry University Medical Center of the Johannes Gutenberg University Mainz GermanyERC Advanced Investigator Grant Research Group at Institute for Physiological Chemistry University Medical Center of the Johannes Gutenberg University Mainz GermanyKey Laboratory of Karst Dynamics, MLR & GZAR Institute of Karst GeologyChinese Academy of Geological Sciences Guilin ChinaAbstract River damming influences the hydro‐physicochemical variations in karst water; however, such disruption in bacterioplankton communities has seldom been studied. Here, three sampling sites (city‐river section, reservoir area, and outflow area) of the Ca2+–Mg2+–HCO3−–SO42− water type in the dammed Liu River were selected to investigate the bacterioplankton community composition as identified by high‐throughput 16S rRNA gene sequencing. In the dammed Liu River, thermal regimes have been altered, which has resulted in considerable spatial‐temporal differences in total dissolved solids (TDSs), oxidation‐reduction potential (Eh), dissolved oxygen (DO), and pH and in a different microenvironment for bacterioplankton. Among the dominant bacterioplankton phyla, Proteobacteria, Actinobacteria, Bacteroidetes, and Cyanobacteria account for 38.99%–87.24%, 3.75%–36.55%, 4.77%–38.90%, and 0%–14.44% of the total reads (mean relative frequency), respectively. Bacterioplankton communities are dominated by Brevundimonas, Novosphingobium, Zymomonas, the Actinobacteria hgcIclade, the CL500‐29 marine group, Sediminibacterium, Flavobacterium, Pseudarcicella, Cloacibacterium, and Prochlorococcus. Their abundances covary with spatial‐temporal variations in hydro‐physicochemical factors, as also demonstrated by beta diversity analyses. In addition, temperature plays a pivotal role in maintaining bacterioplankton biodiversity and hydro‐physicochemical variations. This result also highlights the concept that ecological niches for aquatic bacteria in dammed karst rivers do not accidentally occur but are the result of a suite of environmental forces. In addition, bacterioplankton can alter the aquatic carbon/nitrogen cycle and contribute to karst river metabolism.https://doi.org/10.1002/mbo3.84916S rRNAbacterioplankton communitydammed karst riverhydro‐physicochemical variability
collection DOAJ
language English
format Article
sources DOAJ
author Shi Yu
Ruoxue He
Ang Song
Yadan Huang
Zhenjiang Jin
Yueming Liang
Qiang Li
Xiaohong Wang
Werner E. G. Müller
Jianhua Cao
spellingShingle Shi Yu
Ruoxue He
Ang Song
Yadan Huang
Zhenjiang Jin
Yueming Liang
Qiang Li
Xiaohong Wang
Werner E. G. Müller
Jianhua Cao
Spatial and temporal dynamics of bacterioplankton community composition in a subtropical dammed karst river of southwestern China
MicrobiologyOpen
16S rRNA
bacterioplankton community
dammed karst river
hydro‐physicochemical variability
author_facet Shi Yu
Ruoxue He
Ang Song
Yadan Huang
Zhenjiang Jin
Yueming Liang
Qiang Li
Xiaohong Wang
Werner E. G. Müller
Jianhua Cao
author_sort Shi Yu
title Spatial and temporal dynamics of bacterioplankton community composition in a subtropical dammed karst river of southwestern China
title_short Spatial and temporal dynamics of bacterioplankton community composition in a subtropical dammed karst river of southwestern China
title_full Spatial and temporal dynamics of bacterioplankton community composition in a subtropical dammed karst river of southwestern China
title_fullStr Spatial and temporal dynamics of bacterioplankton community composition in a subtropical dammed karst river of southwestern China
title_full_unstemmed Spatial and temporal dynamics of bacterioplankton community composition in a subtropical dammed karst river of southwestern China
title_sort spatial and temporal dynamics of bacterioplankton community composition in a subtropical dammed karst river of southwestern china
publisher Wiley
series MicrobiologyOpen
issn 2045-8827
publishDate 2019-09-01
description Abstract River damming influences the hydro‐physicochemical variations in karst water; however, such disruption in bacterioplankton communities has seldom been studied. Here, three sampling sites (city‐river section, reservoir area, and outflow area) of the Ca2+–Mg2+–HCO3−–SO42− water type in the dammed Liu River were selected to investigate the bacterioplankton community composition as identified by high‐throughput 16S rRNA gene sequencing. In the dammed Liu River, thermal regimes have been altered, which has resulted in considerable spatial‐temporal differences in total dissolved solids (TDSs), oxidation‐reduction potential (Eh), dissolved oxygen (DO), and pH and in a different microenvironment for bacterioplankton. Among the dominant bacterioplankton phyla, Proteobacteria, Actinobacteria, Bacteroidetes, and Cyanobacteria account for 38.99%–87.24%, 3.75%–36.55%, 4.77%–38.90%, and 0%–14.44% of the total reads (mean relative frequency), respectively. Bacterioplankton communities are dominated by Brevundimonas, Novosphingobium, Zymomonas, the Actinobacteria hgcIclade, the CL500‐29 marine group, Sediminibacterium, Flavobacterium, Pseudarcicella, Cloacibacterium, and Prochlorococcus. Their abundances covary with spatial‐temporal variations in hydro‐physicochemical factors, as also demonstrated by beta diversity analyses. In addition, temperature plays a pivotal role in maintaining bacterioplankton biodiversity and hydro‐physicochemical variations. This result also highlights the concept that ecological niches for aquatic bacteria in dammed karst rivers do not accidentally occur but are the result of a suite of environmental forces. In addition, bacterioplankton can alter the aquatic carbon/nitrogen cycle and contribute to karst river metabolism.
topic 16S rRNA
bacterioplankton community
dammed karst river
hydro‐physicochemical variability
url https://doi.org/10.1002/mbo3.849
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