Microbial response to multiple-level addition of grass organic matter in lake sediments with different salinity

Water surface expansion of saline lakes usually causes the inundation of surrounding grassland, leading to the increase of terrestrial grass organic matter (OM) input to the lakes and the decrease of lake salinity. However, the influence of terrestrial grass OM input increase and salinity decrease o...

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Bibliographic Details
Published in:FEMS Microbiology Ecology 2022, Vol.98 (4), p.1
Main Authors: Yang, Jian, Han, Mingxian, Zhao, Zhuoli, Han, Jinbin, Zhang, Xiying, Xie, Zhanling, Jiang, Hongchen
Format: Report
Language:English
Subjects:
Environmental aspects
Grasses
Lake sediments
Microorganisms
Organic compounds
Salinity
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Summary:Water surface expansion of saline lakes usually causes the inundation of surrounding grassland, leading to the increase of terrestrial grass organic matter (OM) input to the lakes and the decrease of lake salinity. However, the influence of terrestrial grass OM input increase and salinity decrease on organic carbon mineralization and microbial community composition remains unknown in saline lakes. Here, microbial mineralization of terrestrial grass (Achnatherum splendens) OM at different quantity levels in lake sediments with different salinity was investigated by performing microcosm experiments. The results showed that the C[O.sub.2] production rates increased with the increase of grass OM supply in the studied sediments with different salinity, which may be driven by certain microbial groups (e.g. Bacteroidota, Firmicutes, and Ascomycota). The increase of grass OM supply reduced the richness of prokaryotic community, which will decrease the size and complexity of the studied microbial networks, but increase the interaction between prokaryotic and fungal taxa. Taken together, our results suggest that the increase of terrestrial grass OM input caused by lake expansion would enhance the mineralization of organic carbon and affect the community composition and interactions of related microorganisms in lake sediments with different salinity. Keywords: community assembly, microbial mineralization, networks, salinity, terrestrial OM
ISSN:0168-6496
DOI:10.1093/femsec/fiac046