Bacterial Microbiomes in the Sediments of Lotic Systems Ecologic Drivers and Role: A Case Study from the Mureş River, Transylvania, Romania

Numerous sections of the Mureş River vary in terms of the abundance of nitrates, ammonia, and orthophosphates; and of correlated lotic sediment bacterial microbiome structures in terms of both diversity and abundance. This highlights the great versatility of microbiomes in being influenced by the ph...

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Veröffentlicht in:	Water (Basel) 2021-12, Vol.13 (24), p.3518
Hauptverfasser:	Boeraş, Ioana, Burcea, Alexandru, Coman, Cristian, Bănăduc, Doru, Curtean-Bănăduc, Angela
Format:	Artikel
Sprache:	eng
Schlagworte:	Abundance Adaptation Ammonia Aquatic ecosystems Bacteria Biodiversity Biogeochemistry Composition Distribution Ecosystems Environmental aspects Homeostasis Human impact Human influences Identification and classification Measurement Microbiomes Nutrient cycles Orthophosphates River ecology River networks River sediments Rivers Sediments Success Taxonomy Testing
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creator	Boeraş, Ioana Burcea, Alexandru Coman, Cristian Bănăduc, Doru Curtean-Bănăduc, Angela
description	Numerous sections of the Mureş River vary in terms of the abundance of nitrates, ammonia, and orthophosphates; and of correlated lotic sediment bacterial microbiome structures in terms of both diversity and abundance. This highlights the great versatility of microbiomes in being influenced by the physical-chemical characteristics of environments and their spatial changes. Bacteria microbiomes exhibit dynamic and shifting potential and significant tendencies toward self-organization and self-adaptation. These typical features represent an essential ecologic basis for lotic systems having to do with the use and reuse of various kinds of environmental resource as chemical substances. In this respect, trophic processes assure the river ecosystem optimum health ecologic status dynamic and trend, to be reached. The flexibility of shifting bacterial microbiomes is crucial in maintaining this ecological context’s vital role in biogeochemically sustaining other taxonomic groups, which are spatially and temporally continuous. This is especially important for nutrient cycle processes, even for rivers with high levels of negative human impact, in promoting a functional lotic system.
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subjects	Abundance Adaptation Ammonia Aquatic ecosystems Bacteria Biodiversity Biogeochemistry Composition Distribution Ecosystems Environmental aspects Homeostasis Human impact Human influences Identification and classification Measurement Microbiomes Nutrient cycles Orthophosphates River ecology River networks River sediments Rivers Sediments Success Taxonomy Testing
title	Bacterial Microbiomes in the Sediments of Lotic Systems Ecologic Drivers and Role: A Case Study from the Mureş River, Transylvania, Romania
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