The diversity of comammox bacteria and the effect of sewage discharge on their abundance in eutrophic lake sediments

Purpose Complete ammonia oxidation (comammox) bacteria can independently oxidize ammonia to nitrate, and their discovery has changed the long-term understanding of nitrification. Comammox bacteria have been found in a variety of natural environments, but there is still a lack of understanding regard...

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Published in	Journal of soils and sediments Vol. 20; no. 5; pp. 2495 - 2503
Main Authors	Xu, Yangfan, Liu, Guanglong, Hua, Yumei, Wan, Xiaoqiong, Hu, Jinlong, Zhu, Duanwei, Zhao, Jianwei
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.05.2020 Springer Nature B.V
Subjects	Abundance Ammonia Ammonia-oxidizing bacteria AmoA gene Aquatic plants Archaea Area Bacteria Candidatus Nitrospira inopinata Candidatus Nitrospira nitrosa Chestnut Discharge Earth and Environmental Science Environment Environmental Physics Eutrophic environments Eutrophic lakes Eutrophic waters Eutrophication Household wastes Lake deposits Lake sediments Natural environment Nelumbo Nitrification Oxidation Sec 2 • Physical and Biogeochemical Processes • Research Article Sediment Sediments Sewage Sewage bacteria Sewage disposal Sewerage Soil Science & Conservation Survival Trapa natans Rhizosphere Sediment Ammonia oxidizer Comammox Eutrophication
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Abstract	Purpose Complete ammonia oxidation (comammox) bacteria can independently oxidize ammonia to nitrate, and their discovery has changed the long-term understanding of nitrification. Comammox bacteria have been found in a variety of natural environments, but there is still a lack of understanding regarding their presence in eutrophic lakes. The main purpose of this study was to investigate the diversity and abundance of comammox bacteria in a eutrophic lake and the effects of sewage discharge on bacterial abundance. Materials and methods Samples were taken from five areas of Lake Tangxun, China, i.e., a water chestnut ( Trapa natans ) area, a lotus ( Nelumbo ) area, a bare sediment area, a food sewage disposal area, and a domestic sewage disposal area. The diversity of comammox bacteria and the abundance of ammonia-oxidizing archaea (AOA), ammonia-oxidizing bacteria (AOB), comammox bacteria, and anaerobic ammonia-oxidizing (anammox) bacteria were measured. Results and discussion Comammox bacteria were widely found in Lake Tangxun and were closely related to Candidatus Nitrospira nitrosa and Candidatus Nitrospira inopinata . The abundance of the comammox amoA gene was lower in the two sewage discharge areas (1.3 × 10 7 copies g −1 ) than in the emergent plant areas (1.75 × 10 8 copies g −1 ) and the bare sediment area (1.0 × 10 8 copies g −1 ). The abundance of the comammox amoA gene at the five sampling areas was higher than that of the AOA amoA gene and AOB amoA gene, which indicated that comammox bacteria had a growth advantage in this eutrophic lake. Conclusions Comammox bacteria were found in eutrophic lake sediments, and these bacteria belonged to comammox clade A. The abundance of comammox bacteria in the two sewage discharge areas was the lowest, indicating that they could survive in eutrophic waters, but eutrophication inhibited their growth.
AbstractList	PurposeComplete ammonia oxidation (comammox) bacteria can independently oxidize ammonia to nitrate, and their discovery has changed the long-term understanding of nitrification. Comammox bacteria have been found in a variety of natural environments, but there is still a lack of understanding regarding their presence in eutrophic lakes. The main purpose of this study was to investigate the diversity and abundance of comammox bacteria in a eutrophic lake and the effects of sewage discharge on bacterial abundance.Materials and methodsSamples were taken from five areas of Lake Tangxun, China, i.e., a water chestnut (Trapa natans) area, a lotus (Nelumbo) area, a bare sediment area, a food sewage disposal area, and a domestic sewage disposal area. The diversity of comammox bacteria and the abundance of ammonia-oxidizing archaea (AOA), ammonia-oxidizing bacteria (AOB), comammox bacteria, and anaerobic ammonia-oxidizing (anammox) bacteria were measured.Results and discussionComammox bacteria were widely found in Lake Tangxun and were closely related to Candidatus Nitrospira nitrosa and Candidatus Nitrospira inopinata. The abundance of the comammox amoA gene was lower in the two sewage discharge areas (1.3 × 107 copies g−1) than in the emergent plant areas (1.75 × 108 copies g−1) and the bare sediment area (1.0 × 108 copies g−1). The abundance of the comammox amoA gene at the five sampling areas was higher than that of the AOA amoA gene and AOB amoA gene, which indicated that comammox bacteria had a growth advantage in this eutrophic lake.ConclusionsComammox bacteria were found in eutrophic lake sediments, and these bacteria belonged to comammox clade A. The abundance of comammox bacteria in the two sewage discharge areas was the lowest, indicating that they could survive in eutrophic waters, but eutrophication inhibited their growth. Purpose Complete ammonia oxidation (comammox) bacteria can independently oxidize ammonia to nitrate, and their discovery has changed the long-term understanding of nitrification. Comammox bacteria have been found in a variety of natural environments, but there is still a lack of understanding regarding their presence in eutrophic lakes. The main purpose of this study was to investigate the diversity and abundance of comammox bacteria in a eutrophic lake and the effects of sewage discharge on bacterial abundance. Materials and methods Samples were taken from five areas of Lake Tangxun, China, i.e., a water chestnut ( Trapa natans ) area, a lotus ( Nelumbo ) area, a bare sediment area, a food sewage disposal area, and a domestic sewage disposal area. The diversity of comammox bacteria and the abundance of ammonia-oxidizing archaea (AOA), ammonia-oxidizing bacteria (AOB), comammox bacteria, and anaerobic ammonia-oxidizing (anammox) bacteria were measured. Results and discussion Comammox bacteria were widely found in Lake Tangxun and were closely related to Candidatus Nitrospira nitrosa and Candidatus Nitrospira inopinata . The abundance of the comammox amoA gene was lower in the two sewage discharge areas (1.3 × 10 7 copies g −1 ) than in the emergent plant areas (1.75 × 10 8 copies g −1 ) and the bare sediment area (1.0 × 10 8 copies g −1 ). The abundance of the comammox amoA gene at the five sampling areas was higher than that of the AOA amoA gene and AOB amoA gene, which indicated that comammox bacteria had a growth advantage in this eutrophic lake. Conclusions Comammox bacteria were found in eutrophic lake sediments, and these bacteria belonged to comammox clade A. The abundance of comammox bacteria in the two sewage discharge areas was the lowest, indicating that they could survive in eutrophic waters, but eutrophication inhibited their growth.
Author	Wan, Xiaoqiong Xu, Yangfan Hua, Yumei Zhao, Jianwei Liu, Guanglong Hu, Jinlong Zhu, Duanwei
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Snippet	Purpose Complete ammonia oxidation (comammox) bacteria can independently oxidize ammonia to nitrate, and their discovery has changed the long-term... PurposeComplete ammonia oxidation (comammox) bacteria can independently oxidize ammonia to nitrate, and their discovery has changed the long-term understanding...
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SubjectTerms	Abundance Ammonia Ammonia-oxidizing bacteria AmoA gene Aquatic plants Archaea Area Bacteria Candidatus Nitrospira inopinata Candidatus Nitrospira nitrosa Chestnut Discharge Earth and Environmental Science Environment Environmental Physics Eutrophic environments Eutrophic lakes Eutrophic waters Eutrophication Household wastes Lake deposits Lake sediments Natural environment Nelumbo Nitrification Oxidation Sec 2 • Physical and Biogeochemical Processes • Research Article Sediment Sediments Sewage Sewage bacteria Sewage disposal Sewerage Soil Science & Conservation Survival Trapa natans
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Title	The diversity of comammox bacteria and the effect of sewage discharge on their abundance in eutrophic lake sediments
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