Exploring the resilience of constructed wetlands to harmful algal blooms disturbances: A study on microbial response mechanisms.

[1]  X. Zhao,et al.  Insight into the soil aggregate-mediated restoration mechanism of degraded black soil via biochar addition: Emphasizing the driving role of core microbial communities and nutrient cycling. , 2023, Environmental research.

[2]  Ming-hua Zhou,et al.  Critical Review on the Mechanisms of Fe2+ Regeneration in the Electro-Fenton Process: Fundamentals and Boosting Strategies. , 2023, Chemical reviews.

[3]  R. Fu,et al.  Research Progress of Iron-Based Catalysts in Ozonation Wastewater Treatment , 2023, ACS ES&T Water.

[4]  Jialu Xu,et al.  Genomics and nitrogen metabolic characteristics of a novel heterotrophic nitrifying-aerobic denitrifying bacterium Acinetobacter oleivorans AHP123. , 2023, Bioresource technology.

[5]  Shunwen Bai,et al.  Microalgae-based constructed wetland system enhances nitrogen removal and reduce carbon emissions: Performance and mechanisms. , 2023, The Science of the total environment.

[6]  Ning Hou,et al.  Enhanced biodegradation of PAHs by biochar and a TiO2@biochar composite under light irradiation: Photocatalytic mechanism, toxicity evaluation and ecological response , 2023, Chemical Engineering Journal.

[7]  J. Wang,et al.  Application of microbial organic fertilizers promotes the utilization of nutrients and restoration of microbial community structure and function in rhizosphere soils after dazomet fumigation , 2023, Frontiers in Microbiology.

[8]  Wenguang Zhou,et al.  Insight into the formation mechanism of algal biofilm in soy sauce wastewater , 2023, Journal of Cleaner Production.

[9]  T. Ma,et al.  Biological saccharification coupled with anaerobic digestion using corn straw for sustainable methane production. , 2022, Bioresource technology.

[10]  I. Sirés,et al.  State-of-the-art review and bibliometric analysis on electro-Fenton process , 2022, Carbon Letters.

[11]  S. Esenkulova,et al.  Indications that algal blooms may affect wild salmon in a similar way as farmed salmon. , 2022, Harmful algae.

[12]  Yongkui Yang,et al.  Long-term exposure to nanoplastics reshapes the microbial interaction network of activated sludge. , 2022, Environmental pollution.

[13]  Xiaoli Chai,et al.  PHA stimulated denitrification through regulation of preferential cofactor provision and intracellular carbon metabolism at different dissolved oxygen levels by Pseudomonas stutzeri. , 2022, Chemosphere.

[14]  Shunwen Bai,et al.  Successional dynamics of microbial communities in response to concentration perturbation in constructed wetland system. , 2022, Bioresource technology.

[15]  T. Ma,et al.  Efficient conversion of hemicellulose into 2, 3-butanediol by engineered psychrotrophic Raoultella terrigena: mechanism and efficiency. , 2022, Bioresource technology.

[16]  Jian Zhang,et al.  Mechanism and performance of algal pond assisted constructed wetlands for wastewater polishing and nutrient recovery. , 2022, The Science of the total environment.

[17]  Fang Ma,et al.  A review on mycelial pellets as biological carriers: wastewater treatment and recovery for resource and energy. , 2022, Bioresource technology.

[18]  Xinyue Zhao,et al.  Single-cell sorting of microalgae and identification of optimal conditions by using response surface methodology coupled with life-cycle approaches. , 2022, The Science of the total environment.

[19]  J. Islam,et al.  Development of a rational framework for the therapeutic efficacy of fecal microbiota transplantation for calf diarrhea treatment , 2022, Microbiome.

[20]  Zhi-Wu Wang,et al.  Sustainable treatment of nitrate-containing wastewater by an autotrophic hydrogen-oxidizing bacterium , 2022, Environmental science and ecotechnology.

[21]  Chuanping Feng,et al.  High efficient bio-denitrification of nitrate contaminated water with low ammonium and sulfate production by a sulfur/pyrite-based bioreactor. , 2022, Bioresource technology.

[22]  B. Ni,et al.  Perturbation of clopyralid on bio-denitrification and nitrite accumulation: Long-term performance and biological mechanism , 2021, Environmental science and ecotechnology.

[23]  Hui Lin,et al.  Manganese oxides in Phragmites rhizosphere accelerates ammonia oxidation in constructed wetlands. , 2021, Water research.

[24]  Shengtian Yang,et al.  Impacts of storm events on chlorophyll-a variations and controlling factors for algal bloom in a river receiving reclaimed water. , 2021, Journal of environmental management.

[25]  Lili Wei,et al.  Recycling of rural abandoned constructed wetlands: mariculture wastewater treatment , 2021 .

[26]  Ge Liu,et al.  Characterization of the first cultured free-living representative of Candidatus Izemoplasma uncovers its unique biology , 2020, The ISME Journal.

[27]  K. An,et al.  Evaluation of algal chlorophyll and nutrient relations and the N:P ratios along with trophic status and light regime in 60 Korea reservoirs. , 2020, The Science of the total environment.

[28]  Xiaohui Wang,et al.  Successional Dynamics of Molecular Ecological Network of Anammox Microbial Communities under Elevated Salinity. , 2020, Water research.

[29]  Paul Chen,et al.  Auto-flocculation microalgae species Tribonema sp. and Synechocystis sp. with T-IPL pretreatment to improve swine wastewater nutrient removal. , 2020, The Science of the total environment.

[30]  Jianwu Tang,et al.  Restoring wetlands outside of the seawalls and to provide clean water habitat. , 2020, The Science of the total environment.

[31]  Guoping Wang,et al.  Stability of the permafrost peatlands carbon pool under climate change and wildfires during the last 150 years in the northern Great Khingan Mountains, China. , 2020, The Science of the total environment.

[32]  Shaoyong Lu,et al.  Behavior of selected organophosphate flame retardants (OPFRs) and their influence on rhizospheric microorganisms after short-term exposure in integrated vertical-flow constructed wetlands (IVCWs). , 2020, The Science of the total environment.

[33]  N. Ward,et al.  Essentiality of sterol synthesis genes in the planctomycete bacterium Gemmata obscuriglobus , 2019, Nature Communications.

[34]  H. Brix,et al.  Critical Review: Biogeochemical Networking of Iron in Constructed Wetlands for Wastewater Treatment. , 2019, Environmental science & technology.

[35]  In S. Kim,et al.  Effective removal of emerging dissolved cyanotoxins from water using hybrid photocatalytic composites. , 2019, Water research.

[36]  Rui Wang,et al.  Enhanced removal of Microcystis bloom and microcystin-LR using microcosm constructed wetlands with bioaugmentation of degrading bacteria. , 2018, Chemosphere.

[37]  Durga Madhab Mahapatra,et al.  Insights into evolutionary trends in molecular biology tools in microbial screening for biohydrogen production through dark fermentation , 2018, International Journal of Hydrogen Energy.

[38]  F. Muller‐Karger,et al.  Bio-optical characteristics of a red tide induced by Mesodinium rubrum in the Cariaco Basin, Venezuela , 2016 .

[39]  A. Michalak Study role of climate change in extreme threats to water quality , 2016, Nature.

[40]  Hong-Ying Hu,et al.  Soluble Algal Products (SAPs) in large scale cultivation of microalgae for biomass/bioenergy production: A review , 2016 .

[41]  Kalyan C. Mynampati,et al.  Ecogenomics reveals metals and land-use pressures on microbial communities in the waterways of a megacity. , 2015, Environmental science & technology.

[42]  Lirong Song,et al.  Soil-based treatments of mechanically collected cyanobacterial blooms from Lake Taihu: efficiencies and potential risks. , 2012, Environmental science & technology.

[43]  Noah Fierer,et al.  Using network analysis to explore co-occurrence patterns in soil microbial communities , 2011, The ISME Journal.

[44]  Stefan Bertilsson,et al.  Coherent dynamics and association networks among lake bacterioplankton taxa , 2011, The ISME Journal.

[45]  A. Brinker,et al.  Factors influencing the efficiency of constructed wetlands used for the treatment of intensive trout farm effluent , 2009 .

[46]  John R. Miller,et al.  Hyperspectral vegetation indices and novel algorithms for predicting green LAI of crop canopies: Modeling and validation in the context of precision agriculture , 2004 .

[47]  Qiang He,et al.  Impacts of chlorothalonil on denitrification and N2O emission in riparian sediments: Microbial metabolism mechanism. , 2019, Water research.

[48]  Pengfei Sun,et al.  Microorganisms-based methods for harmful algal blooms control: A review. , 2018, Bioresource technology.