Recovery of freshwater microbial communities after extreme rain events is mediated by cyclic succession

Small lakes and ponds occupy an enormous surface area of inland freshwater and represent an important terrestrial–water interface. Disturbances caused by extreme weather events can have substantial effects on these ecosystems. Here, we analysed the dynamics of nutrients and the entire plankton commu...

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Veröffentlicht in:	Nature microbiology 2021-04, Vol.6 (4), p.479-488
Hauptverfasser:	Shabarova, Tanja, Salcher, Michaela M., Porcal, Petr, Znachor, Petr, Nedoma, Jiří, Grossart, Hans-Peter, Seďa, Jaromír, Hejzlar, Josef, Šimek, Karel
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Schlagworte:	14/32 14/63 45/22 45/23 45/77 45/90 631/158 631/158/2445 631/326 631/326/171 704/158/853 Animals Biomedical and Life Sciences Ecosystem assessment Extreme Weather Flooding Floods Food Chain Forests Fresh Water - chemistry Fresh Water - microbiology Infectious Diseases Life Sciences Medical Microbiology Microbiology Microbiomes Microbiota Nutrient loading Nutrients Nutrients - analysis Parasitology Phytoplankton Plankton - growth & development Ponds Ponds - chemistry Ponds - microbiology Rain Rivers - chemistry Rivers - microbiology Virology Weather Zooplankton
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container_title	Nature microbiology
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creator	Shabarova, Tanja Salcher, Michaela M. Porcal, Petr Znachor, Petr Nedoma, Jiří Grossart, Hans-Peter Seďa, Jaromír Hejzlar, Josef Šimek, Karel
description	Small lakes and ponds occupy an enormous surface area of inland freshwater and represent an important terrestrial–water interface. Disturbances caused by extreme weather events can have substantial effects on these ecosystems. Here, we analysed the dynamics of nutrients and the entire plankton community in two flood events and afterwards, when quasi-stable conditions were established, to investigate the effect of such disturbances on a small forest pond. We show that floodings result in repeated washout of resident organisms and hundredfold increases in nutrient load. Despite this, the microbial community recovers to a predisturbance state within two weeks of flooding through four well-defined succession phases. Reassembly of phytoplankton and especially zooplankton takes up to two times longer and features repetitive and adaptive patterns. Release of dissolved nutrients from the pond is associated with inflow rates and community recovery, and returns to predisturbance levels before microbial compositions recover. Our findings shed light on the mechanisms underlying functional resilience of small waterbodies and are relevant to global change-induced increases in weather extremes. Resilience of freshwater microbial communities to flooding is revealed by high-resolution in situ sampling experiments in a forest pond during two extreme rain events.
doi_str_mv	10.1038/s41564-020-00852-1
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title	Recovery of freshwater microbial communities after extreme rain events is mediated by cyclic succession
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