Review
Microbiology
Shimin Lu, Xingguo Liu, Chong Liu, Guofeng Cheng, Runfeng Zhou, Yayuan Li
Summary: AOA and AnAOB play a crucial role in the nitrogen removal process of aquaculture pond water, especially in seasonal low temperatures and anoxic sediment layers. Their application in bioreactors for autotrophic nitrogen removal shows potential for reducing greenhouse gas emissions and promoting environmentally sustainable pond aquaculture.
FRONTIERS IN MICROBIOLOGY
(2021)
Article
Biodiversity Conservation
Weifang Hu, Mianrun Chen, Xue Lan, Guoliang Li, Bin Wang, Dong Yao Sun, Xianbiao Lin
Summary: This study found significant shifts in potential ammonia oxidation rates (PARs) and gene abundances of ammonia-oxidizing bacteria (AOB) and ammonia-oxidizing archaea (AOA) along different salinity gradients. The PARs were higher under high salinity conditions, and the AOB gene abundance was greater than AOA under moderate and high salinity. This has important implications for nitrogen cycling in estuarine sediments.
ECOLOGICAL INDICATORS
(2022)
Article
Biotechnology & Applied Microbiology
Jing Lu, Yiguo Hong, Ying Wei, Ji-Dong Gu, Jiapeng Wu, Yu Wang, Fei Ye, Jih-Gaw Lin
Summary: The study analyzed the rates of ammonia oxidation (AO) and nitrite oxidation (NO) in the activated sludge from Xinfeng WWTPs, revealing strong activity of both processes. The research also identified AOB and Nitrospira as the main catalysts for nitrification in anammox-inoculated WWTPs, leading to efficient nitrogen removal.
Article
Soil Science
Konrad Egenolf, Philipp Schad, Ashly Arevalo, Daniel Villegas, Jacobo Arango, Hannes Karwat, Georg Cadisch, Frank Rasche
Summary: Brachiaria humidicola (syn. Urochloa humidicola) has been recognized for controlling soil nitrification through releasing nitrification inhibitors (NI), termed as biological nitrification inhibition (BNI), which can reduce net nitrification rates by 50 to 85%. Adjustment of soil pH and microbial background has little influence on BNI performance, while the decrease in net nitrification rates mainly depends on microbial N immobilization and efficient plant N uptake.
BIOLOGY AND FERTILITY OF SOILS
(2022)
Article
Engineering, Environmental
Helin Wang, Ping Li, Xiaohan Liu, Jing Zhang, Lisa Y. Stein, Ji-Dong Gu
Summary: This study investigated the influence of reactive oxygen species (ROS) on ammonia-oxidizing microorganisms (AOMs) in redox-fluctuating aquifers through field investigation and in-lab verification. The results showed that ROS played an important role in regulating AOMs, with ammonia-oxidizing archaea dominating in aquifers with lower ROS levels, and ammonia-oxidizing bacteria and heterotrophic nitrifying aerobic bacteria predominating in areas with higher ROS levels.
Article
Agronomy
Xingjia He, Sen Li, Fengzhi Wu
Summary: Intercropping has a significant impact on soil properties and microbial communities, with different intercropping systems affecting ammonia-oxidizing microorganisms differently in different seasons. Soil physicochemical state, PNR, AOA and AOB communities were significantly altered by intercropping, with seasonal variation playing a greater role in shaping the community structures.
Article
Multidisciplinary Sciences
Ronnakrit Rattanasriampaipong, Yi Ge Zhang, Ann Pearson, Brian P. Hedlund, Shuang Zhang
Summary: Archaeal membrane lipids, specifically the GDGTs, can be used to reconstruct ancient temperatures and provide insights into the ecology and evolution of marine ammonia-oxidizing archaea (AOA). The study identified thermal and nonthermal behaviors of GDGTs, which can be used as indicators of environmental temperature. The distribution of GDGTs in AOA cultures and shallow water samples followed a temperature-dependent trend, while deep water samples showed a nonthermal behavior. Statistical analysis revealed long-term trends in GDGT-2/GDGT-3 ratios, suggesting a suppression of deep water marine AOA during greenhouse climates in the Mesozoic and early Cenozoic periods.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
(2022)
Article
Environmental Sciences
Preeyaporn Pornkulwat, Eakalak Khan, Sorawit Powtongsook, Wuttichai Mhuantong, Chamorn Chawengkijwanich, Tawan Limpiyakorn
Summary: This study comprehensively investigated the impacts of ammonia and salinity on culturing nitrifying microorganisms and successfully formulated nitrifying cultures for different recirculating aquaculture system (RAS) types. The findings suggest that cultures prepared at low ammonia loading rates are most suitable for various RAS types, while cultures prepared at high ammonia loading rates are dominated by nitrifying microorganisms with low substrate affinity.
SCIENCE OF THE TOTAL ENVIRONMENT
(2022)
Article
Environmental Sciences
Shishi He, Zhirong Zhao, Zhichao Tian, Chi Xu, Yuan Liu, Da He, Yinghui Zhang, Maosheng Zheng
Summary: This study analyzed activated sludge samples from municipal and industrial wastewater treatment plants and found that comammox bacteria were more abundant than ammonia-oxidizing bacteria and ammonia-oxidizing archaea in municipal plants, while this trend did not hold true for industrial plants. Furthermore, a higher diversity of comammox bacteria was found in municipal samples. This study provides important insights into the abundance and diversity of comammox bacteria in municipal and refinery wastewater treatment systems.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2022)
Article
Soil Science
Haiyang Liu, Hangwei Hu, Xing Huang, Tida Ge, Yongfu Li, Zhenke Zhu, Xingmei Liu, Wenfeng Tan, Zhongjun Jia, Hongjie Di, Jianming Xu, Yong Li
Summary: Chemoautotrophic canonical ammonia-oxidizers play a significant role in autotrophic nitrification during the mineralization of organic substances with low C/N ratios in paddy soils, as shown by N-15 tracing and DNA-SIP techniques.
SOIL BIOLOGY & BIOCHEMISTRY
(2021)
Article
Biotechnology & Applied Microbiology
Elizabeth French, Jessica A. Kozlowski, Annette Bollmann
Summary: The study found that ammonia-oxidizing archaea are more abundant in systems with low ammonium availabilities, while ammonia-oxidizing bacteria are more abundant when ammonium availability increases. Population dynamics of ammonia oxidizers may shift in response to changes in ammonium concentrations.
APPLIED AND ENVIRONMENTAL MICROBIOLOGY
(2021)
Article
Soil Science
Yongxin Lin, Hang-Wei Hu, Guiping Ye, Jianbo Fan, Weixin Ding, Zi-Yang He, Yong Zheng, Ji-Zheng He
Summary: The meta-analysis of laboratory incubation studies with 1-octyne as the nitrification inhibitor shows that AOB play a more dominant role in soil nitrification in cropland than in wetland soils, indicating a major role of AOB in acidic soil nitrification. Moreover, the reduction of nitrification rate by 1-octyne is greater in soils incubated in slurry and with nitrogen additions, suggesting AOB's importance in nitrification in global acidic soils.
Article
Environmental Sciences
Xia Jia, Yunfeng Gao, Xiaodi Li, Yonghua Zhao, Lu Wang, Chunyan Zhang
Summary: This study investigated the impacts of elevated CO2 and cadmium levels on soil nitrification in the rhizosphere of Robinia pseudoacacia L. seedlings. The results showed that elevated CO2 combined with Cd pollution generally stimulated nitrification enzyme activities and influenced bacterial community structures.
SCIENCE OF THE TOTAL ENVIRONMENT
(2021)
Review
Fisheries
M. J. Jifiriya, P. G. Preena, V. J. Rejish Kumar, Amrutha J. Nair, Valsamma Joseph
Summary: The importance and diversity of archaea in aquaculture are often overlooked. Recent research has revealed the widespread presence of archaea in various aquaculture systems, where they play key roles in nitrogen cycling, sulfur cycling, and nutrition. Despite limitations and a lack of comprehensive information, archaea have great potential and future prospects in aquaculture.
AQUACULTURE INTERNATIONAL
(2023)
Article
Green & Sustainable Science & Technology
Eka Sunarwidhi Prasedya, Nanda Sofian Hadi Kurniawan, Fitriani Fitriani, Putu Bella Aprillia Saraswati, Wanda Qoriasmadillah, Bq Tri Khairina Ilhami, Ari Hernawan, Sri Widyastuti
Summary: The frequent use of chemical fertilizers in agriculture has become an urgent environmental concern. This study investigates the potential of seaweed fertilizer as an alternative to chemical fertilizers. The findings show that seaweed fertilizer enhances plant growth and soil beneficial microbiota, increases the availability of macronutrients in the soil, and enriches functional genes and proteins related to metabolism. These findings improve our understanding of the importance of microbial community for soil quality and demonstrate the positive impact of seaweed supplementation on soil fertility and rice plant growth.