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Microbial production and consumption of dissolved organic matter in glacial ecosystems on the Tibetan Plateau

Dissolved organic matter (DOM) from alpine glaciers is highly biolabile and plays a vital role in the biogeochemical cycle of meltwater-impacted environments. To unravel the composition and interactions of DOM with the bacterial community in glacier and glacier meltwater, we conducted sampling of tw...

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Bibliographic Details
Published in:Water research (Oxford) 2019-09, Vol.160, p.18-28
Main Authors: Zhou, Lei, Zhou, Yongqiang, Hu, Yang, Cai, Jian, Liu, Xin, Bai, Chengrong, Tang, Xiangming, Zhang, Yunlin, Jang, Kyoung-Soon, Spencer, Robert G.M., Jeppesen, Erik
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Language:English
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Summary:Dissolved organic matter (DOM) from alpine glaciers is highly biolabile and plays a vital role in the biogeochemical cycle of meltwater-impacted environments. To unravel the composition and interactions of DOM with the bacterial community in glacier and glacier meltwater, we conducted sampling of two different Tibetan Plateau glaciers and carried out laboratory bio-incubation experiments. The field data revealed that four protein-like components accounted for 86.0 ± 11.9% of the total variability of all six fluorescence components, which suggests a predominantly microbial source of glacial chromophoric DOM (CDOM). The ice and meltwater samples displayed major contributions of molecular formulae associated with lipids and proteins (i.e. high H/C) as revealed by ultrahigh resolution mass spectrometry. Multiple linear regression models revealed that the abundant phyla explain 64.2%, 61.3%, and 65.0% of the variability of microbial and terrestrial humic-like, and protein-like components, respectively. Correlation-based network analysis determined the metabolic niches of the bacterial community members associated with different fluorescence types in biogeochemical processes. Furthermore, laboratory DOM bio-incubation experiments confirmed that sub-components of the CDOM pool differentially participate in bacterial metabolism. We therefore conclude that the bacterial community interacted closely with the compositional variability of DOM in the investigated alpine glacial environments by both producing and consuming of DOM. [Display omitted] •A predominantly microbial source of glacial chromophoric DOM in Tibetan Plateau.•Metabolic niches of bacterial assemblages associated with different CDOM components.•CDOM components displayed distinct variations after microbial processing.
ISSN:0043-1354
1879-2448
DOI:10.1016/j.watres.2019.05.048