ma xiao-金沙检测线路js69

personal information

name: ma xiao

gender: male

date of birth: 1985/12

native place: lishui

academic degree: doctor degree

academic titles: assistant research fellow

email address: maxiao1222@163.com

main research

(1) the regulatory mechanisms of anammox bacteria under stress conditions

(2) the advanced nitrogen removal of ammonium-rich wastewater by anammox processes

(3)mechanism study of accelerating the granulation of activated sludge and enhancing stability of granules

published papers

(1) ma, x.; yan, y.; wang, w.g.; guo, j.h.; wang, y.y. *, metatranscriptomic analysis of adaptive response of anammox bacteria candidatus 'kuenenia stuttgartiensis' to zn(ii) exposure. chemosphere 2020, 246, 125682. if=8.943

(2) ye, j. j.; liu, j. y. *; ye, m.; ma, x. *; li, y.-y., towards advanced nitrogen removal and optimal energy recovery from leachate: a critical review of anammox-based processes. critical reviews in environmental science and technology 2020, 50, (6), 612-653. if=11.75

(3) ma, x.; liu, j. y. *; hu, p. s.; wu, l.; zou, l. p.; qian, g. r-.; li, y.-y., combining ethylene diamine tetraacetic acid and high voltage pulsed discharge pretreatment to enhance short-chain fatty acids and phosphorus release from waste activated sludge via anaerobic fermentation. journal of cleaner production. 2019, 240, 118252. if=11.072

(4) ma, x.; ye, j.j.; jiang, l.; sheng, l.; liu, j.y. *; li, y.-y.; xu, z. p., alkaline fermentation of waste activated sludge with calcium hydroxide to improve short-chain fatty acids production and extraction efficiency via layered double hydroxides. bioresource technology. 2019, 279, 117-123.if=11.889

(5) ma, x.; wang, y. y. *, anammox bacteria exhibit capacity to withstand long-term starvation stress: a proteomic-based investigation of survival mechanisms. chemosphere 2018, 211, 952-961. if=8.943

(6) ma, x.; wang, y. y.*; zhou, s.; yan, y.; lin, x. m.; wu, m., endogenous metabolism of anaerobic ammonium oxidizing bacteria in response to short-term anaerobic and anoxic starvation stress. chemical engineering journal. 2017, 313, 1233-1241. if=16.744

(7) wang, y. y.*; ma, x.; zhou, s.; lin, x. m.; ma, b.; park, h. d.; yan, y., expression of the nirs, hzsa, and hdh genes in response to nitrite shock and recovery in candidatus kuenenia stuttgartiensis. environmental science & technology. 2016, 50, (13), 6940-6947. if=11.357

(8) sheng, l.; ma, x.; pan, f.f.; liu, j.y. *; li, y.-y., calcium peroxide pretreatment of waste activated sludge for enhancement of short chain fatty acids extraction from fermentation liquid by layered double hydroxides. journal of cleaner production. 2020, 246, 119067. if=11.072

(9) lin, x.; wang, y. y. *; ma, x.; yan, y.; wu, m.; bond, p. l.; guo, j. h., evidence of differential adaptation to decreased temperature by anammox bacteria. environmental microbiology. 2018, 20, (10), 3514-3528. if=5.476

(10) zhu, y. j.; wang, y. y.*; zhou, s.; jiang, x. x.; ma, x.; liu, c., robust performance of a membrane bioreactor for removing antibiotic resistance genes exposed to antibiotics: role of membrane foulants. water research. 2018, 130, 139-150. if=13.400

(11) wang, y. y.*; chen, j.; zhou, s.; wang, x. d.; chen, y.; lin, x. m.; yan, y.; ma, x.; wu, m.; han, h. c., 16s rrna gene high-throughput sequencing reveals shift in nitrogen conversion related microorganisms in a canon system in response to salt stress. chemical engineering journal. 2017, 317, 512-521. if=16.744

science projects  

(1) principal investigator of national natural science foundation of china: 2019-2021, the identification of molecular mechanisms and regulatory strategies of anammox-denitrification synergistic systems for advanced nitrogen removal from landfill leachate based on nitrogen and carbon balance analyses (51808331)

(2) principal investigator of china postdoctoral science foundation: 2018-2021, the identification of enhancement mechanisms of anammox processes via hydrazine addition under organics stress conditions when treating landfill leachate (2018m641979)

(3) principal investigator of wenzhou basic scientific research project: 2023-2025, preparation of modified zeolite-polyethylene composite carrier and its application in the advanced nitrogen removal of ammonium-rich wastewater by anammox biofilm processes (s20220007)

(4) participant of national natural science foundation of china: 2013-2017, expression and regulation of the functional gene of key enzymes of anammox bacteria to the environmental stress and its effect on the nutrient removal efficiency (51378370)