TENG YanguoProfessor      

TEL:

E-mail:

Research area:

Environmental Hydrogeochemistry, Groundwater Pollution Control and Remediation

Personal resume

Education Background:

2001, PhD, Chengdu University of Technology


Job experiences:

2001, Postdoc, Beijing Normal University

2003, Associate Professor, Beijing Normal University

2008, Professor, Beijing Normal University

Scientific research

Papers:

2019

[1]      Zuo R, Han KX, Shi RT, Ding F, Liu L, Wang JS, Teng YG. Effect of colloidal silicate on the migration behaviour of strontium in groundwater environment of geological disposal candidate site.Journal of Chemistry, 2019, Article ID 9606121.

[2]      Chen HY, Bai XM, Li YZ, Jing LJ, Teng YG. Source identification of antibiotic resistance genes in a peri-urban river using novel crAssphage marker genes and metagenomic signatures.Water Research, 2019, 167: Article 115098

[3]      Zhu C, Zhang YL, Hu B, Teng YG. A library of BASIC scripts of rate equations for geochemical modeling using PHREEQC.Computer & Geoscience, 2019,333: Article 104316

[4]      LiuLZ, Zhao WH, WuJJ, Liu SS, Teng YG, Yang JH, Han XY. The Impacts of Growth and Environmental Parameters on Solar-induced Chlorophyll Fluorescence at Seasonal and Diurnal Scales.Remote Sensing, 2019, 11(17), 2002.

[5]      Teng YG, Wu J, Zuo R, Zhai YZ, Su J. Risk assessment framework for nitrate contamination in groundwater for regional management.Science of Total Environment, 2019,697: Article 134102.

[6]      Chen RH, Teng YG, Chen HY, Hu B, Yue WF. Groundwater Pollution and Risk Assessment based on Source Apportionment in a typical cold agricultural region in Northeastern China.Science of Total Environment, 2019, 696: Article 133972.

[7]      Chen RH, Chen HY, Song LT, Yao ZP, Meng FS, Teng YG. Characterization and source apportionment of heavy metals in the sediments of Lake Tai (China) and its surrounding soils.Science of Total Environment, 2019, 694: Article 133819.

[8]      ZhaiYZ, Zheng FX, Zhao XB, Xia XL, Teng YG. Identification of hydrochemical genesis and screening of typical groundwater pollutants impacting human health: A case study in Northeast China.Environmental Pollution, 2019, 252: 1201-1215.

[9]      Yin XX, Guo CS, Teng YG, Xu J. Development and application of the analytical method for illicit drugs and metabolites in fish tissues.Chemosphere, 2019, 233: 532-541.

[10]  Zuo R, Chen MH, Lin YH, Yang J, Jin SH, Yue WF, Wang JS, Teng YG*. Effect of a humic acid colloid on the sorption behaviour of Sr onto soil in a candidate high-level radioactive waste geological disposal site.Environmental Science and Pollution Research, 2019, 26: 25235-25246.

[11]  Zuo R, Liu X, Zhang HK, Li J, Teng YG, Yue WF, Wang JS. Distribution, origin and key influencing factors of fluoride groundwater in the coastal area, NE China.Human and Ecological Risk Assessment,2019,25(1-2): 104-119.

[12]  ZuoR, Jin SH, Yang J, Wang JS, Guan X, Meng L, Teng YG, Chen MH. Removal of strontium from aqueous solutions by sodium dodecyl sulfate-modified palygorskite.Journal of Radioanalytical and Nuclear Chemistry, 2019, 321:151-159.

[13]  Chen HY, Bai XM, Li YZ, Jing LJ, Chen RH, Teng YG*. Characterization and source-tracking of antibiotic resistomes in the sediments of a peri-urban river.Science of Total Environment, 2019, 679: 88-96.

[14]  Guo XR, Zuo R, Wang JS, Meng L, Teng YG, Shi RT, Gao X, Ding F. Hydrogeochemical evolution of interaction between surface water-groundwater affected by exploitation.Groundwater, 2019, 57(3): 430-442.

[15]  Wu J, Teng YG*, Wu BB, Su Jie, Wang JS. Comparison of sources and spatial distribution of heavy metals at two peri-urban areas in southeast Shenyang, China.Environmental Engineering and Management Journal, 2019, 18(1): 1815-1823.

[16]  Zhu Y, Zhai YZ, Du QQ, Teng YG, Wang JS, Yang G. The impact of well drawdowns on the mixing process of river water and groundwater and water quality in a riverside well field, Northeast China.Hydrological Processes, 2019, 33(6): 945-961.

[17]  ChenHY, Bai XM, Jing LJ, Chen RH, Teng YG*.Characterization of antibiotic resistance genes in the sediments of an urban river revealed by comparative metagenomics analysis.Science of Total Environment, 2019, 653: 1513-1521.

[18]  Chen HY, Chen RH, Jing LJ, Bai XM, Teng YG*. A metagenomic analysis framework for characterization of antibiotic resistomes in river environment: Application to an urban river in Beijing. Environmental Pollution, 2019,245: 398-407.

[19]  Yin WJ, Hu LT, Han SC, Zhang ML, Teng YG. Reconstructing terrestrial water storage variations from 1980 to 2015 in the Beishan area of China.Geofluids, 2019, Article ID 3874742, 13.

[20]  Hu B, Teng YG, Zhang YL, Zhu C. Review: The projected hydrologic cycle under the scenario of 936 ppm CO2 in 2100.Hydrogeology Journal, 2019, 27:31-53.

[21]  Chen HY, Jing LJ, Yao ZP, Meng FS, Teng YG*. Prevalence, source and risk of antibiotic resistance genes in the sediments of Lake Tai (China) deciphered by metagenomic assembly: A comparison with other global lakes.Environment International, 2019, 127: 267-275.

[22]  Wang JW, Teng YG, Zhang CX, Liao XP, Zhai YZ, Zuo R. Activation of manganese dioxide with bisulfite for enhanced abiotic degradation of typical organophosphorus pesticides: Kinetics and transformation pathway.Chemosphere, 2019, 226: 854-864.

[23]  Zheng XD, Teng YG, Song LT. Iron Isotopic Composition of Suspended Particulate Matter in Hongfeng Lake.Water,2019,11(2), 396.

[24]  Chen RH, Xiong YN, Li J, Teng YG, Chen HY, Yang J. Comparison of multi-criteria analysis methodologies for the prioritization of arsenic-contaminated sites in the southwest of China.Environmental Science and Pollution Research, 2019,26:11781–11792.

[25]  Jiang Y, Zhang JJ, Zhu YG, Du QQ, Teng YG, Zhai YZ. Design and Optimization of a Fully-Penetrating Riverbank Filtration Well Scheme at a Fully-Penetrating River Based on Analytical Methods.Water,2019,11(3), 418.

2018

[26]  Meng L, Zuo R, Wang JS, Yang J, Teng YG, Shi RT, Lin YH, Zhai YZ. Apportionment and evolution of pollution sources in a typical riverside groundwater resource area using PCA-APCS-MLR model.Journal of Contaminant Hydrology, 2018, 218: 70-83.

[27]  Zuo R, Meng L, Wang JS, Guo XR, Yang J, Teng YG, Lin YH, Shi RT. Quantitative source apportionment of groundwater pollution: A case study of alluvial fan groundwater in the Hun River region, NE China.Geochemistry: Exploration, Environment, Analysis, 2018,geochem2018-053.

[28]  Zhou AX, Wang JS, Lin YH, Guan X, Zuo R, Teng YG. Adsorptive removal of trace uranium ions from simulated wastewater with FeCl3-modified attapulgite with sodium alginate beads.Desalination and Water Treatment, 2018, 107: 155-164.

[29]  Zheng FX, Zhai YZ, Xia XL, Yin ZH, Du QQ, Zuo R, Wang JS, Teng YG, Xu M. Simulation of Trinitrogen Migration and Transformation in the Unsaturated Zone at a Desert Contaminant Site (NW China) Using HYDRUS-2D.Water, 2018, 10: 1363.

[30]  Kong HM, Teng YG, Song LT, Wang JS, Zhang L. Lead and strontium isotopes as tracers to investigate the potential sources of lead in soil and groundwater: A case study of the Hun River alluvial fan.Applied Geochemistry, 2018, 97: 291-300.

[31]  Li J, Liu Y, Zuo R, Teng YG, Ai Y, Yang J. Influences of dissolved humic acid on Zn bioavailability and its consequences for thyroid toxicity.Ecotoxicology and Environmental Safety, 2018, 166: 132-137.

[32]  Lin X, Ruan Q, Zhang XR, Duan XJ, Teng YG, Zhang JB. 99mTc labelled complexes with secnidazole xanthate: Synthesis and evaluation as potential radiotracers to target tumor hypoxia.Applied Radiation and Isotopes, 2018, 140: 289-293.

[33]  Lin X, Ruan Q, Lin L, Zhang XR, Duan XJ, Teng YG, Zhang JB. Biological evaluation and SPECT imaging of tumor hypoxia using a novel technetium-99m labeled tracer with 2-nitroimidazole moiety.Journal of Radioanalytical and Nuclear Chemistry, 2018, 317(3): 1463-1468

[34]  Huang Y, Zuo R, Li J, Wu J, Zhai YZ, Teng YG. The spatial and temporal variability of the groundwater vulnerability and human health risk in the Limin District, Harbin, China.Water, 2018,10(6), 686

[35]  Zhang BT, Zhang Y, Teng YG. Electrospun magnetic cobalt–carbon nanofiber composites with axis-sheath structure for efficient peroxymonosulfate activation.Applied Surface Science, 2018, 452: 443-450.

[36]  Teng YG, Hu B, Zheng JQ, Wang JS, Zhai YZ, Zhu C. Water Quality Response to the Interaction between Surface Water and Groundwater along the Songhua River, NE China.Hydrogeology Journal, 2018, 26: 1591-1607.

[37]  Guo XR, Zuo R, Meng L, Wang JS, Teng YG, Liu X, Chen MH. Seasonal and Spatial Variability of Anthropogenic and Natural Factors Influencing Groundwater Quality Based on Source Apportionment.Int. J. Environ. Res. Public Health2018,15, 279; doi:10.3390/ijerph15020279.

[38]  Yin WJ, Zhai YZ, Teng YG. Suitability for developing riverside groundwater sources along Songhua River, Northeast China.Human and Ecological Risk Assessment,2018,24(8): 2088-2100.

[39]  Meng L, Zuo R, Guo XR, Wang JS, Teng YG. Pollution Risk Assessment based on Source Apportionment in a Groundwater Resource Area, NE China.Human and Ecological Risk Assessment, 2018, 24(5): 1197-1215.

[40]  Zuo R, Jin SH, Chen MH, Wang JS, Zhai YZ, Teng YG, Guo XR. In-situ study of migration and transformation of nitrogen in groundwater based on continuous observations at a contaminated desert site.Journal of Contaminant Hydrology, 2018, 211: 39-48.

[41]  Shen Y, Kong DD, Teng YG, Wang YY, Li J. An assessment of the presence and health risks of endocrine disrupting chemicals in the drinking water treatment plant of Wu Chang, China.Human and Ecological Risk Assessment, 2018, 24(4): 1127-1137.

[42]  Chen HY, Jing LJ, Teng YG, Wang JS. Multimedia fate modeling and risk assessment of antibiotics in a water-scarce megacity.Journal of Hazardous Materials, 2018, 348: 75-83.

[43]  Chen HY, Teng YG, Characterization of antibiotics in a large-scale river system of China: Occurrence pattern, spatiotemporal distribution and environmental risks.Science of the Total Environment, 2018, 618: 409-418.

[44]  Zhai YZ, Yin ZH, Zhao XB, Zhang JJ, Zuo R, Wu J, Yang J, Teng YG, Wang JS.Polycyclic aromatic hydrocarbons (PAHs) in the environment of Beijing, China: levels, distribution, trends and sources.Human and Ecological Risk Assessment, 2018, 24(1): 137-157.

[45]  Zuo R, Chen XJ, Wang B, Shan D, Yang J, Li XB, Wang JS, Teng YG. Pollution risk evaluation of regional groundwater based on sources apportionment of pollution.Water Science and Technology: Water Supply, 2018,18(4): 1294-1307.

2017

[46]  Zuo R, Wang LN, Shi RT, Yang J, Wang JS, Teng YG. Factors influencing the sorption and migration behavior of uranium in shale.J RadioanalNuclChem, 2017, 314: 887-896.

[47]  Zuo R, Chen XJ, Shan D, Yang J, Wang JS, Teng YG. Distribution, genesis, and pollution risk of ammonium nitrogen in groundwater in an arid loess plain, northwestern China.Environmental Earth Sciences, 2017, 76(7): 629.

[48]  Zhang BT, Liu J, Yue SZ, Teng YG, Wang ZJ, Li XB, Qu SC, Wang ZG. Hot electron injection: An efficacious approach to charge LaCoO3 for improving the water splitting efficiency.Applied Catalysis B: Environmental, 2017: 219: 432-438.

[49]  Guo XR, Zui R, Shan D, Cao Y, Wang JS, Teng YG, Fu Q, Zheng BH. Source Apportionment of Pollution in Groundwater Source Area using Factor Analysis and Positive Matrix Factorization Methods.Human and Ecological Risk Assessment, 2017, 23:6, 1417-1436.

[50]  Lin X, Fang S, Teng YG, Zhang JB. Preparation and biological evaluation of a technetium-99m labeled 4-nitroimidazole derivative for imaging tumor hypoxia.J RadioanalNuclChem, 2017, 313(1): 39-45

[51]  Zhang BT, Zhang Y, Xiang WX, Teng YG, Wang Y. Comparison of the catalytic performances of different commercial cobalt oxides for peroxymonosulfate activation during dye degradation.Chemical Research in Chinese Universities, 2017, 33(5), 822-827.

[52]  Yang J*, Wu J, Teng YG*. Current status and associated human health risk of vanadium in China Soil.Chemosphere, 2017, 171: 635-643.

[53]  Zhang JJ, Zhai YZ, Xue PW, Wang JS, Teng YG. A GIS-based LVF model for semi-quantitative assessment of groundwater pollution risk: A case study in Shenyang, NE China.Human and Ecological Risk Assessment, 2017, 23(2): 276-298.

[54]  Zhai YZ, Lei Y, Wu J, Teng YG, Wang JS, Zhao XB, Pan XD. Does the groundwater nitrate pollution in China pose a risk to human health? A critical review of published data.Environmental Science and Pollution Research, 2017, 24(4):3640–3653

[55]  Zhai YZ, Zhao XB, Teng YG*, Li X, Zhang JJ, Wu J, Zuo R. Groundwater nitrate pollution and human health risk assessment by using HHRA model in an agricultural area, NE China.Ecotoxicology and Environmental Safety, 2017, 137: 130-142.

2016

[56]  Yang J, Teng YG, Song LT, Zuo R. Tracing sources and contamination assessments of heavy metals in road and foliar dusts in a typical mining city, China.PloS ONE, 2016, 11(12): e0168528. http://dx.doi.org/10.1371/journal.pone.0168528 

[57]  Zuo R, Liu Li, Jiang XY, Teng YG, Wang JS, Factors influencing U(VI) adsorption onto soil from a candidate very low level radioactive waste disposal site in China.Nuclear Technology and Radiation Protection, 2016, 31(3): 268-276.

[58]  Gao JX, Zheng H, Shi ZJ, Teng YG, Yang XH, Tian MR, Feng CY, Wang Y. The influence of vegetation types on water yields in the Da Hinggan Mountains of China.The Forestry Chronicle, 2016, 92(3): 307-315.

[59]  Kong DD, Wang YF, Wang JS, Teng YG, Li J. Evaluation and characterization of thyroid-disrupting activities in soil samples along the Second Songhua River, China.Ecotoxicology and Environmental Safety, 2016, 133: 475-480.

[60]  Hu B, Teng YG*, Zhai YZ, Zuo R, Li J, Chen HY.Riverbank Filtration in China: A Review and Perspective.Journal of Hydrology,2016, 541, 914-927

[61]  Wang GQ, Fang QQ, Teng YG, Yu JS. Determination of the factors governing soil erodibility using hyperspectral visible and near-infrared reflectance spectroscopy.International Journal of Applied Earth Observation and Geoinformation, 2016, 53: 48-63.

[62]  Yin WJ, Hu LT, Yao LL, Teng YG. Numerical investigation of the influence of underground water injection on the groundwater system in a shale gas reservoir in southwestern China.Environmental Earth Science, 2016, 75:1092.

[63]  Guo YL, Zhai YZ, Wu Q, Teng YG, Jiang GH. Proposed APLIE method for groundwater vulnerability assessment in karst-phreatic aquifer, Shandong Province, China: a case study.Environmental Earth Science, 2016, 75:112.

[64]  Chen HY, Teng YG, Chen RH, Li J, Wang JS. Contamination characteristics and source apportionment of trace metals in soils around Miyun Reservoir.Environmental Science and Pollution Research, 2016, 23:15331-15342.

[65]  Wu J, Teng YG*, Chen HY, Lu SJ, Wang YY. Machine-learning models for on-site estimation of background concentrations in soils using soil formation factors.Journal of Soils and Sediments, 2016, 16:1787-1797

[66]  Xiang WX, Zhang BT, Teng YG, Zhang Y. Oxidation of Dyes by Alkaline-Activated Peroxymonosulfate.Journal of Environmental Engineering, 2016,10.1061/(ASCE)EE.1943-7870.0001084.

[67]  Chen HY, Teng YG, Li J, Wu J, Wang JS. Source apportionment of trace metals in river sediments: A comparison of three methods.Environmental Pollution, 2016, 211: 28-37. (IF4.143)

[68]  Chen HY, Chen RH, Teng YG, Wu J. Contamination characteristics, ecological risk and source identification of trace metals in sediments of the Le'an River (China).Ecotoxicology and Environmental Safety, 2016, 125: 85-92.

[69]  Jiang SJ, Zhai YZ, Leng SY, Wang JS, Teng YG. A HIVE model for regional integrated environmental risk assessment: A case study in China.Human and Ecological Risk Assessment: An International Journal, 2016, 22(4): 1002-1028.

[70]  Feng D, Teng YG, Wang JS, Wu J. The combined effect of Cu, Zn and Pb on enzyme activities in soil from the vicinity of a wellhead protection area.Soil and Sediment Contamination: An International Journal, 2016, 25(3): 279-295.

[71]  Chen HY, Teng YG*, Lu SJ, Wang YY, Wu J, Wang JS. Source apportionment and health risk assessment of trace metals in surface soils of Beijing metropolitan, China.Chemosphere, 2016, 144C: 1002-1011.

[72]  Zhang Z, Teng YG, Guo GL, Li FS, Zhang C. Risk assessment of BTEX in the groundwater of Songyuan region of Songhua River in China.Water Science and Technology: Water Supply, 2016, 16(1): 135-143.

2015

[73]  Li J, Wang YF, Kong DD, Wang JS, Teng YG, Li N. Evaluation and characterization of anti-estrogenic and anti-androgenic activities in soil samples along the Second Songhua River, China.Environmental Monitoring and Assessment, 2015, 187: 724.

[74]  Lu SJ, Wang YY, Teng YG, Yu X. Heavy metal pollution and ecological risk assessment of the paddy soils near a zinc-lead mining area in Hunan.Environmental Monitoring and Assessment, 2015, 187: 627, p12.

[75]  Teng YG*, Li J, Wu J, Lu SJ, Wang YY, Chen HY. Environmental distribution and associated human health risk due to trace elements and organic compounds in soil in Jiangxi Province, China.Ecotoxicology and Environmental Safety, 2015, 122: 406-416.

[76]  Lu SJ, Teng YG*, Wang YY, Wu J, Wang JS. Research on the ecological risk of heavy metals in the soil around a Pb-Zn mine in the Huize County, China.Chinese Journal of Geochemistry, 2015, 34(4): 540-549.

[77]  Teng YG, Feng D, Wu J, Zuo R, Song LT, Wang JS. Distribution, bioavailability, and potential ecological risk of Cu, Pb, and Zn in soil in a potential groundwater source area.Environmental Monitoring and Assessment, 2015, 187(5): 293.

[78]  Li XB, Zuo R, Teng YG, Wang JS, Wang B. Development of Relative Risk Model for Regional Groundwater Risk Assessment: A Case Study in the Lower Liaohe River Plain, China.PLoS ONE, 2015, 10(5): e0128249. doi:10.1371/journal.pone.0128249.

[79]  Jiao XD, Teng YG*, Wu J. Soil heavy metal pollution and risk assessment in Shenyang industrial district, Northeast China.PLoS ONE, 2015, 10(5): e0127736. doi:10.1371/journal.pone.0127736.

[80]  Zheng H, Gao JX, Teng YG, Feng CY, Tian MR. Temporal Variations in Soil Moisture for Three Typical Vegetation Types in Inner Mongolia, Northern China.PLoS ONE, 2015, 10(3): e0118964. doi: 10.1371/journal.pone.0118964.

[81]  Zhai YZ, Lei Y, Zhou J*, Li MZ, Wang JS, Teng YG*. The spatial and seasonal variability of the groundwater chemistry and quality in the exploited aquifer in the Daxing District, Beijing, China.Environmental Monitoring and Assessment, 2015, 187(2): 43.

[82]  Zhang Z, Guo GL, Teng YG, Wang JS, Rhee JS, Wang S, Li FS. Screening and assessment of solidification/stabilization amendments suitable for soils of lead-acid site.Journal of Hazardous Materials, 2015,288:140-146.

[83]  Zhang BT, Zhang Y, Teng YG, Fan MH. Sulfate Radical and its Application in Decontamination Technologies.Critical Reviews in Environmental Science and Technology, 2015, 45: 1756-1800.

[84]  Huan H, Wang JS, Lai DS, Teng YG, Zhai YZ. Assessment of well vulnerability for groundwater source protection based on a solute transport model: a case study from Jilin City, northeast China.Hydrogeology Journal, 2015, 23(3): 581-596.

[85]  Yang J, Fu Q, Guo XS, Chu BL, Yao YW, Teng YG, Wang YY. Concentrations and Seasonal Variation of Ambient PM2.5 and Associated Metals at a Typical Residential Area in Beijing, China.Bull Environ ContamToxicol, 2015, 94: 232-239.

[86]  Yang J, Teng YG*, Zuo R, Song LT. Comparison of bioavailable vanadium in alfalfa rhizosphere soil extracted by an improved BCR procedure and EDTA, HCl, and NaNO3single extractions in a pot experiment with V–Cd treatments.Environmental Science and Pollution Research, 2015, 22(12): 8833-8842.

[87]  Chen HY, Teng YG*, Lu SJ, Wang YY, Wang JS. Contamination features and health risk of soil heavy metals in China.Science of the Total Environment, 2015, 512/513: 143-153.

Teaching experience

Modern Hydrogeochemistry, Seminar of Groundwater Science and Engineering

Social service

Honorary award

Kharaka Award, HouDefeng Award

Others