From small water bodies to lakes: Exploring the diversity of freshwater bacteria in an Alpine Biosphere Reserve

Small water bodies, although supporting high biodiversity, are often understudied in the Alpine region. In this work, we characterized the planktic and benthic bacterial communities, as well as the water chemistry, of a wide physiographic range of 19 freshwater bodies within an Alpine Biosphere Rese...

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Published in:The Science of the total environment 2024-12, Vol.954, p.176495, Article 176495
Main Authors: Vettorazzo, Sara, Boscaini, Adriano, Cerasino, Leonardo, Salmaso, Nico
Format: Article
Language:English
Subjects:
Bacteria - classification
Bacteria - genetics
Benthic bacteria
Biodiversity
conservation areas
Cyanobacteria
DNA barcoding
Ecosystem
environment
Environmental Monitoring
Fresh Water - microbiology
freshwater
genes
Geologic Sediments - microbiology
hydrochemistry
Lakes - microbiology
Metabarcoding
microbial ecology
Microbiota
pastures
peat
phylogeny
Planktic bacteria
RNA, Ribosomal, 16S
sediments
Shallow lakes
Small water bodies
species
Water Microbiology
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Summary:Small water bodies, although supporting high biodiversity, are often understudied in the Alpine region. In this work, we characterized the planktic and benthic bacterial communities, as well as the water chemistry, of a wide physiographic range of 19 freshwater bodies within an Alpine Biosphere Reserve, including ponds, pasture ponds, peat bogs, shallow lakes, and lakes. We collected both water and surface sediment samples, followed by metabarcoding analysis based on the V3-V4 regions of the 16S rRNA gene. We investigated the changes in biodiversity and the distribution of unique and shared amplicon sequence variants (ASVs) between water (11,829 ASVs) and surface sediment (19,145 ASVs) habitats, as well as across different freshwater typologies. The majority of ASVs (78 %) were unique to a single sample, highlighting the variability and uniqueness of bacterial communities in such freshwater bodies. Most freshwater environments showed higher α-diversity in sediment samples (median, 1469 ASVs) compared to water (468 ASVs). We found that water and sediment habitats harboured unique bacterial communities with significant differences in their taxonomic compositions. Benthic bacteria were associated with several biogeochemical and degradative processes occurring in the sediments, with no notable differences among freshwater typologies and with phylogenetically and ecologically similar species. Conversely, planktic communities showed greater heterogeneity: small water bodies and peat bogs were characterized by higher relative abundances of Patescibacteria (up to 33 %), while lakes and shallow lakes were dominated by Actinobacteriota (up to 36 %). Cyanobacteria (426 ASVs) were generally distributed at low abundances in both water and sediment habitats. Overall, our results provided essential insights into the bacterial ecology of understudied environments such as ponds and pasture ponds and highlighted the importance of further exploring their rich pelagic and benthic bacterial biodiversity. [Display omitted] •We investigated bacterial communities of water and surface sediments in Alpine waters.•The majority (78 %) of amplicon sequence variants (ASVs) was unique to each sample.•α-diversity was higher in sediments (median, 1469 ASVs) than in water (468).•Benthic bacteria showed less variation between freshwater typologies.•Planktic communities showed more phylogenetically and ecologically dissimilar ASVs.
ISSN:0048-9697
1879-1026
1879-1026
DOI:10.1016/j.scitotenv.2024.176495