Mechanisms Driving the Distribution and Activity of Mineralization and Nitrification in the Reservoir Riparian Zone

The riparian zone ecosystems have greater energy flow and elemental cycling than adjacent terrestrial and aquatic ecosystems. Mineralization and nitrification are important initiating processes in the nitrogen cycle, but their distribution and activity under different environmental conditions in the...

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Published in	Microbial ecology Vol. 86; no. 3; pp. 1829 - 1846
Main Authors	Li, Tingting, Wang, Xiaoyan, Wang, Xia, Huang, Jingyu, Shen, Lei
Format	Journal Article
Language	English
Published	New York Springer US 01.10.2023 Springer Nature B.V
Subjects	Abundance Ammonia Ammonia-oxidizing bacteria Aquatic ecosystems Archaea Biomedical and Life Sciences Community structure Ecological distribution Ecological effects Ecological niches Ecology Ecosystems Energy flow Environmental changes Environmental conditions Environmental effects Genes Geoecology/Natural Processes Land use Life Sciences Metalloproteinase Microbial activity Microbial Ecology Microbiology Microbiomes Microorganisms Mineralization Nature Conservation Niches Nitrification Nitrogen Nitrogen cycle Oxidation Reservoirs Riparian land Riparian zone Sediment Sediments Soil Soil bacteria Soil microorganisms Soils Water Quality/Water Pollution Woodlands Riparian zone Microbial functional genes Land-use types Flooding Mineralization Nitrification
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Abstract	The riparian zone ecosystems have greater energy flow and elemental cycling than adjacent terrestrial and aquatic ecosystems. Mineralization and nitrification are important initiating processes in the nitrogen cycle, but their distribution and activity under different environmental conditions in the riparian zone and the driving mechanisms are still not clear. We investigated the effects of environmental and microbial factors on mineralization and nitrification activities by analyzing the community of alkaline ( apr ) and neutral ( npr ) metallopeptidase, ammonia-oxidizing archaea (AOA), and bacteria (AOB) in soils and sediments under different land-use types in the riparian zone of Miyun Reservoir, as well as measuring potential nitrogen mineralization and ammonia oxidation rates (AOR). The results showed that the mineralization and nitrification activities of soils were greater than those of sediments. AOA and AOB dominate the ammonia oxidation activity of soil and sediment, respectively. NH 4 + content was a key factor influencing the ecological niche differentiation between AOA and AOB. The high carbon and nitrogen content of the woodland significantly increased mineralization and nitrification activity. Microbial communities were significantly clustered in the woodland. The land-use type, not the flooding condition, determined the distribution of microbial community structure. The diversity of npr was significantly correlated with potential N mineralization rates, while the transcript abundance of AOA was significantly correlated with ammonia oxidation rates. Our study suggests that environmental changes regulate the distribution and activity of mineralization and nitrification processes in the reservoir riparian zone by affecting the transcript abundance, diversity and community structure of the microbial functional genes.
AbstractList	The riparian zone ecosystems have greater energy flow and elemental cycling than adjacent terrestrial and aquatic ecosystems. Mineralization and nitrification are important initiating processes in the nitrogen cycle, but their distribution and activity under different environmental conditions in the riparian zone and the driving mechanisms are still not clear. We investigated the effects of environmental and microbial factors on mineralization and nitrification activities by analyzing the community of alkaline (apr) and neutral (npr) metallopeptidase, ammonia-oxidizing archaea (AOA), and bacteria (AOB) in soils and sediments under different land-use types in the riparian zone of Miyun Reservoir, as well as measuring potential nitrogen mineralization and ammonia oxidation rates (AOR). The results showed that the mineralization and nitrification activities of soils were greater than those of sediments. AOA and AOB dominate the ammonia oxidation activity of soil and sediment, respectively. NH4+ content was a key factor influencing the ecological niche differentiation between AOA and AOB. The high carbon and nitrogen content of the woodland significantly increased mineralization and nitrification activity. Microbial communities were significantly clustered in the woodland. The land-use type, not the flooding condition, determined the distribution of microbial community structure. The diversity of npr was significantly correlated with potential N mineralization rates, while the transcript abundance of AOA was significantly correlated with ammonia oxidation rates. Our study suggests that environmental changes regulate the distribution and activity of mineralization and nitrification processes in the reservoir riparian zone by affecting the transcript abundance, diversity and community structure of the microbial functional genes. The riparian zone ecosystems have greater energy flow and elemental cycling than adjacent terrestrial and aquatic ecosystems. Mineralization and nitrification are important initiating processes in the nitrogen cycle, but their distribution and activity under different environmental conditions in the riparian zone and the driving mechanisms are still not clear. We investigated the effects of environmental and microbial factors on mineralization and nitrification activities by analyzing the community of alkaline ( apr ) and neutral ( npr ) metallopeptidase, ammonia-oxidizing archaea (AOA), and bacteria (AOB) in soils and sediments under different land-use types in the riparian zone of Miyun Reservoir, as well as measuring potential nitrogen mineralization and ammonia oxidation rates (AOR). The results showed that the mineralization and nitrification activities of soils were greater than those of sediments. AOA and AOB dominate the ammonia oxidation activity of soil and sediment, respectively. NH 4 + content was a key factor influencing the ecological niche differentiation between AOA and AOB. The high carbon and nitrogen content of the woodland significantly increased mineralization and nitrification activity. Microbial communities were significantly clustered in the woodland. The land-use type, not the flooding condition, determined the distribution of microbial community structure. The diversity of npr was significantly correlated with potential N mineralization rates, while the transcript abundance of AOA was significantly correlated with ammonia oxidation rates. Our study suggests that environmental changes regulate the distribution and activity of mineralization and nitrification processes in the reservoir riparian zone by affecting the transcript abundance, diversity and community structure of the microbial functional genes. The riparian zone ecosystems have greater energy flow and elemental cycling than adjacent terrestrial and aquatic ecosystems. Mineralization and nitrification are important initiating processes in the nitrogen cycle, but their distribution and activity under different environmental conditions in the riparian zone and the driving mechanisms are still not clear. We investigated the effects of environmental and microbial factors on mineralization and nitrification activities by analyzing the community of alkaline (apr) and neutral (npr) metallopeptidase, ammonia-oxidizing archaea (AOA), and bacteria (AOB) in soils and sediments under different land-use types in the riparian zone of Miyun Reservoir, as well as measuring potential nitrogen mineralization and ammonia oxidation rates (AOR). The results showed that the mineralization and nitrification activities of soils were greater than those of sediments. AOA and AOB dominate the ammonia oxidation activity of soil and sediment, respectively. NH content was a key factor influencing the ecological niche differentiation between AOA and AOB. The high carbon and nitrogen content of the woodland significantly increased mineralization and nitrification activity. Microbial communities were significantly clustered in the woodland. The land-use type, not the flooding condition, determined the distribution of microbial community structure. The diversity of npr was significantly correlated with potential N mineralization rates, while the transcript abundance of AOA was significantly correlated with ammonia oxidation rates. Our study suggests that environmental changes regulate the distribution and activity of mineralization and nitrification processes in the reservoir riparian zone by affecting the transcript abundance, diversity and community structure of the microbial functional genes.
Author	Wang, Xia Li, Tingting Huang, Jingyu Wang, Xiaoyan Shen, Lei
Author_xml	– sequence: 1 givenname: Tingting surname: Li fullname: Li, Tingting organization: College of Resources, Environment and Tourism, Capital Normal University – sequence: 2 givenname: Xiaoyan surname: Wang fullname: Wang, Xiaoyan email: wangxy@cnu.edu.cn organization: College of Resources, Environment and Tourism, Capital Normal University – sequence: 3 givenname: Xia surname: Wang fullname: Wang, Xia organization: College of Resources, Environment and Tourism, Capital Normal University – sequence: 4 givenname: Jingyu surname: Huang fullname: Huang, Jingyu organization: College of Resources, Environment and Tourism, Capital Normal University – sequence: 5 givenname: Lei surname: Shen fullname: Shen, Lei organization: College of Resources, Environment and Tourism, Capital Normal University
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CitedBy_id	crossref_primary_10_1016_j_agwat_2023_108621 crossref_primary_10_1016_j_jhazmat_2024_134246 crossref_primary_10_3390_pr12061276
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Keywords	Riparian zone Microbial functional genes Land-use types Flooding Mineralization Nitrification
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Snippet	The riparian zone ecosystems have greater energy flow and elemental cycling than adjacent terrestrial and aquatic ecosystems. Mineralization and nitrification...
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SubjectTerms	Abundance Ammonia Ammonia-oxidizing bacteria Aquatic ecosystems Archaea Biomedical and Life Sciences Community structure Ecological distribution Ecological effects Ecological niches Ecology Ecosystems Energy flow Environmental changes Environmental conditions Environmental effects Genes Geoecology/Natural Processes Land use Life Sciences Metalloproteinase Microbial activity Microbial Ecology Microbiology Microbiomes Microorganisms Mineralization Nature Conservation Niches Nitrification Nitrogen Nitrogen cycle Oxidation Reservoirs Riparian land Riparian zone Sediment Sediments Soil Soil bacteria Soil microorganisms Soils Water Quality/Water Pollution Woodlands
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Title	Mechanisms Driving the Distribution and Activity of Mineralization and Nitrification in the Reservoir Riparian Zone
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