Contrasting response of microeukaryotic and bacterial communities to the interplay of seasonality and local stressors in shallow soda lakes

Abstract Seasonal environmental variation is a leading driver of microbial planktonic community assembly and interactions. However, departures from usual seasonal trends are often reported. To understand the role of local stressors in modifying seasonal succession, we sampled fortnightly, throughout...

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Bibliographic Details
Published in:FEMS microbiology ecology 2023-08, Vol.99 (9)
Main Authors: Márton, Zsuzsanna, Csitári, Bianka, Felföldi, Tamás, Hidas, András, Jordán, Ferenc, Szabó, Attila, Székely, Anna J
Format: Article
Language:English
Subjects:
Bacteria
core community
Desiccation
Drought
droughts
Dynamic stability
Ecological succession
Ecology
Ekologi
Environmental Sciences
interactions
keystone species
Lakes
local stressors
Microbiology
Microbiomes
Microorganisms
Mikrobiologi
Miljövetenskap
rRNA 16S
rRNA 18S
Seasonal variations
seasonality
soda pan
Trends
Trophic relationships
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Summary:Abstract Seasonal environmental variation is a leading driver of microbial planktonic community assembly and interactions. However, departures from usual seasonal trends are often reported. To understand the role of local stressors in modifying seasonal succession, we sampled fortnightly, throughout three seasons, five nearby shallow soda lakes exposed to identical seasonal and meteorological changes. We characterised their microeukaryotic and bacterial communities by amplicon sequencing of the 16S and 18S rRNA gene, respectively. Biological interactions were inferred by analyses of synchronous and time-shifted interaction networks, and the keystone taxa of the communities were topologically identified. The lakes showed similar succession patterns during the study period with spring being characterised by the relevance of trophic interactions and a certain level of community stability followed by a more dynamic and variable summer-autumn period. Adaptation to general seasonal changes happened through shared core microbiome of the lakes. Stochastic events such as desiccation disrupted common network attributes and introduced shifts from the prevalent seasonal trajectory. Our results demonstrated that, despite being extreme and highly variable habitats, shallow soda lakes exhibit certain similarities in the seasonality of their planktonic communities, yet local stressors such as droughts instigate deviations from prevalent trends to a greater extent for microeukaryotic than for bacterial communities. Time-series study of five nearby shallow soda lakes demonstrates similar seasonal trends but microeukaryotic communities are more sensitive to local stress events than bacteria.
ISSN:1574-6941
0168-6496
1574-6941
DOI:10.1093/femsec/fiad095