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Main Authors: Meirkhanova, Ayagoz, Zhumakhanova, Adina, Len, Polina, Schoenbach, Christian, Levi, Eti Ester, Jeppesen, Erik, Davidson, Thomas A, Barteneva, Natasha S
Format: Artículo científico
Language:en
Published: Toxins 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40864046/
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author Meirkhanova, Ayagoz
Zhumakhanova, Adina
Len, Polina
Schoenbach, Christian
Levi, Eti Ester
Jeppesen, Erik
Davidson, Thomas A
Barteneva, Natasha S
author_facet Meirkhanova, Ayagoz
Zhumakhanova, Adina
Len, Polina
Schoenbach, Christian
Levi, Eti Ester
Jeppesen, Erik
Davidson, Thomas A
Barteneva, Natasha S
Meirkhanova, Ayagoz
Zhumakhanova, Adina
Len, Polina
Schoenbach, Christian
Levi, Eti Ester
Jeppesen, Erik
Davidson, Thomas A
Barteneva, Natasha S
collection PubMed - marine biology
contents Heatwave-Induced Thermal Stratification Shaping Microbial-Algal Communities Under Different Climate Scenarios as Revealed by Long-Read Sequencing and Imaging Flow Cytometry. Meirkhanova, Ayagoz Zhumakhanova, Adina Len, Polina Schoenbach, Christian Levi, Eti Ester Jeppesen, Erik Davidson, Thomas A Barteneva, Natasha S Flow Cytometry Hot Temperature Climate Change Lakes Cyanobacteria Microbiota Water Microbiology Phytoplankton The effect of periodical heatwaves and related thermal stratification in freshwater aquatic ecosystems has been a hot research issue. A large dataset of samples was generated from samples exposed to temporary thermal stratification in mesocosms mimicking shallow eutrophic freshwater lakes. Temperature regimes were based on IPCC climate warming scenarios, enabling simulation of future warming conditions. Surface oxygen levels reached 19.37 mg/L, while bottom layers dropped to 0.07 mg/L during stratification. Analysis by FlowCAM revealed dominance of Cyanobacteria under ambient conditions (up to 99.2%), while Cryptophyta (up to 98.9%) and Chlorophyta (up to 99.9%) were predominant in the A2 and A2+50% climate scenarios, respectively. We identified temperature changes and shifts in nutrient concentrations, particularly phosphate, as critical factors in microbial community composition. Furthermore, five distinct morphospecies identified by FlowCAM-based analysis were associated with different microbial clusters. The combined use of imaging flow cytometry, which differentiates phytoplankton based on morphological parameters, and nanopore long-read sequencing analysis has shed light into the dynamics of microbial communities associated with different morphospecies. In our observations, a peak of algicidal bacteria abundance often coincides with or is followed by a decline in the Cyanobacteria. These findings highlight the importance of species-level classification in the analysis of complex ecosystem interactions and the dynamics of algal blooms in freshwater bodies in response to anthropogenic effects and climate change.
format Artículo científico
id pubmed_40864046
institution PubMed
language en
publishDate 2025
publisher Toxins
record_format pubmed
spellingShingle Heatwave-Induced Thermal Stratification Shaping Microbial-Algal Communities Under Different Climate Scenarios as Revealed by Long-Read Sequencing and Imaging Flow Cytometry.
Meirkhanova, Ayagoz
Zhumakhanova, Adina
Len, Polina
Schoenbach, Christian
Levi, Eti Ester
Jeppesen, Erik
Davidson, Thomas A
Barteneva, Natasha S
Flow Cytometry
Hot Temperature
Climate Change
Lakes
Cyanobacteria
Microbiota
Water Microbiology
Phytoplankton
Heatwave-Induced Thermal Stratification Shaping Microbial-Algal Communities Under Different Climate Scenarios as Revealed by Long-Read Sequencing and Imaging Flow Cytometry. Meirkhanova, Ayagoz Zhumakhanova, Adina Len, Polina Schoenbach, Christian Levi, Eti Ester Jeppesen, Erik Davidson, Thomas A Barteneva, Natasha S Flow Cytometry Hot Temperature Climate Change Lakes Cyanobacteria Microbiota Water Microbiology Phytoplankton The effect of periodical heatwaves and related thermal stratification in freshwater aquatic ecosystems has been a hot research issue. A large dataset of samples was generated from samples exposed to temporary thermal stratification in mesocosms mimicking shallow eutrophic freshwater lakes. Temperature regimes were based on IPCC climate warming scenarios, enabling simulation of future warming conditions. Surface oxygen levels reached 19.37 mg/L, while bottom layers dropped to 0.07 mg/L during stratification. Analysis by FlowCAM revealed dominance of Cyanobacteria under ambient conditions (up to 99.2%), while Cryptophyta (up to 98.9%) and Chlorophyta (up to 99.9%) were predominant in the A2 and A2+50% climate scenarios, respectively. We identified temperature changes and shifts in nutrient concentrations, particularly phosphate, as critical factors in microbial community composition. Furthermore, five distinct morphospecies identified by FlowCAM-based analysis were associated with different microbial clusters. The combined use of imaging flow cytometry, which differentiates phytoplankton based on morphological parameters, and nanopore long-read sequencing analysis has shed light into the dynamics of microbial communities associated with different morphospecies. In our observations, a peak of algicidal bacteria abundance often coincides with or is followed by a decline in the Cyanobacteria. These findings highlight the importance of species-level classification in the analysis of complex ecosystem interactions and the dynamics of algal blooms in freshwater bodies in response to anthropogenic effects and climate change.
title Heatwave-Induced Thermal Stratification Shaping Microbial-Algal Communities Under Different Climate Scenarios as Revealed by Long-Read Sequencing and Imaging Flow Cytometry.
topic Flow Cytometry
Hot Temperature
Climate Change
Lakes
Cyanobacteria
Microbiota
Water Microbiology
Phytoplankton
url https://pubmed.ncbi.nlm.nih.gov/40864046/