Environmental bacteria increase population growth of hydra at low temperature

Miklós, Máté; Cseri, Karolina; Laczkó, Levente; Kardos, Gábor; Fraune, Sebastian; Tökölyi, Jácint

doi:10.3389/fmicb.2023.1294771

Cited by 2 publications

References 57 publications

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Environmental microbial reservoir influences the bacterial communities associated with Hydra oligactis

Bathia,

Miklós,

Gyulai

et al. 2024

Sci Rep

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The objective to study the influence of microbiome on host fitness is frequently constrained by spatial and temporal variability of microbial communities. In particular, the environment serves as a dynamic reservoir of microbes that provides potential colonizers for animal microbiomes. In this study, we analyzed the microbiome of Hydra oligactis and corresponding water samples from 15 Hungarian lakes to reveal the contribution of environmental microbiota on host microbiome. Correlation analyses and neutral modeling revealed that differences in Hydra microbiota are associated with differences in environmental microbiota. To further investigate the influence of environmental bacterial community on the host microbiome, field-collected Hydra polyps from three populations were cultured in native water or foreign water. Our results show that lake water bacteria significantly contribute to Hydra microbial communities, but the compositional profile remained stable when cultured in different water sources. Longitudinal analysis of the in vitro experiment revealed a site-specific change in microbiome that correlated with the source water quality. Taken together, our findings demonstrate that while freshwater serves as a critical microbial reservoir, Hydra microbial communities exhibit remarkable resilience to environmental changes maintaining stability despite potential invasion. This dual approach highlights the complex interplay between environmental reservoirs and host microbiome integrity.

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Environmental microbial reservoir influences the bacterial communities associated with Hydra oligactis

Bathia,

Miklós,

Gyulai

et al. 2024

Sci Rep

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Environmental microbial reservoir influences the Hydra-associated bacterial communities

Bathia,

Miklos,

Gyulai

et al. 2024

Preprint

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Microbes from the surrounding environment serve as potential colonizers for animal microbiome. We studied the impact of environmental water on microbial communities in freshwater Hydra using correlational and experimental methods. Hydra polyps and water samples were collected from 15 Hungarian lakes, and bacterial community composition was assessed via 16S sequencing. Correlation analyses and neutral modeling evaluated the impact of water microbiota on geographical variation in Hydra microbiota. In the lab, field-collected Hydra polyps from three populations were cultured in either native water or water from another location. Our findings revealed that lake water bacteria significantly contribute to Hydra microbial communities, but the compositional profile remained stable when cultured in different water sources. These results indicate that while water serves as a source for bacterial colonization, Hydra's microbial communities demonstrate resilience to environmental invasion from freshwater sources.

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Environmental bacteria increase population growth of hydra at low temperature

Cited by 2 publications

References 57 publications

Environmental microbial reservoir influences the bacterial communities associated with Hydra oligactis

Environmental microbial reservoir influences the bacterial communities associated with Hydra oligactis

Environmental microbial reservoir influences the Hydra-associated bacterial communities

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