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. 2023 Sep;25(9):1659-1673.
doi: 10.1111/1462-2920.16379. Epub 2023 Apr 9.

A metabarcoding analysis of the wrackbed microbiome indicates a phylogeographic break along the North Sea-Baltic Sea transition zone

Emma L Berdan  1 Fabian Roger  2 Maren Wellenreuther  3   4 Alexandra Kinnby  1 Gunnar Cervin  1 Ricardo Pereyra  1 Mats Töpel  1 Kerstin Johannesson  1 Roger K Butlin  1   5 Carl André  1
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Free article

A metabarcoding analysis of the wrackbed microbiome indicates a phylogeographic break along the North Sea-Baltic Sea transition zone

Emma L Berdan et al. Environ Microbiol. 2023 Sep.
Free article

Abstract

Sandy beaches are biogeochemical hotspots that bridge marine and terrestrial ecosystems via the transfer of organic matter, such as seaweed (termed wrack). A keystone of this unique ecosystem is the microbial community, which helps to degrade wrack and re-mineralize nutrients. However, little is known about this community. Here, we characterize the wrackbed microbiome as well as the microbiome of a primary consumer, the seaweed fly Coelopa frigida, and examine how they change along one of the most studied ecological gradients in the world, the transition from the marine North Sea to the brackish Baltic Sea. We found that polysaccharide degraders dominated both microbiomes, but there were still consistent differences between wrackbed and fly samples. Furthermore, we observed a shift in both microbial communities and functionality between the North and Baltic Sea driven by changes in the frequency of different groups of known polysaccharide degraders. We hypothesize that microbes were selected for their abilities to degrade different polysaccharides corresponding to a shift in polysaccharide content in the different seaweed communities. Our results reveal the complexities of both the wrackbed microbial community, with different groups specialized to different roles, and the cascading trophic consequences of shifts in the near shore algal community.

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References

REFERENCES

    1. Allison, S.D. (2005) Cheaters, diffusion and nutrients constrain decomposition by microbial enzymes in spatially structured environments. Ecology Letters, 8, 626-635.
    1. Alonso-Sáez, L. & Gasol, J.M. (2007) Seasonal variations in the contributions of different bacterial groups to the uptake of low-molecular-weight compounds in northwestern Mediterranean coastal waters. Applied and Environmental Microbiology, 73, 3528-3535.
    1. Arnosti, C., Wietz, M., Brinkhoff, T., Hehemann, J.-H., Probandt, D., Zeugner, L. et al. (2021) The biogeochemistry of marine polysaccharides: sources, inventories, and bacterial drivers of the carbohydrate cycle. Annual Review of Marine Science, 13, 81-108.
    1. Barbier, E.B., Hacker, S.D., Kennedy, C., Koch, E.W., Stier, A.C. & Silliman, B.R. (2011) The value of estuarine and coastal ecosystem services. Ecological Monographs, 81, 169-193.
    1. Brunet, M., de Bettignies, F., Le Duff, N., Tanguy, G., Davoult, D., Leblanc, C. et al. (2021) Accumulation of detached kelp biomass in a subtidal temperate coastal ecosystem induces succession of epiphytic and sediment bacterial communities. Environmental Microbiology, 23, 1638-1655.

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