Hi, I am Jimmy Kao C.M., My LiveDNA is 886.3378
 
   
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Dr. Jimmy Kao C.M.
 
Highest Degree: Ph.D. in Environmental Science from National Sun Yat-Sen University, Taiwan
 
Institute: National Sun Yat-Sen University, Taiwan
 
Area of Interest: Environmental Sciences
  •   Bioremediation
  •   Environmental Investigation
  •   Environmental Pollution
  •   Water and Wastewater Treatment
 
URL: http://livedna.org/886.3378
 
My SELECTED Publications
1:   Borden, R.C. and C.M. Kao, 1992. Evaluation of groundwater extraction for remediation of petroleum contaminated aquifers. Water Environ. Res., 64: 28-36.
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2:   Borden, R.C., R.T. Goin and C.M. Kao, 1997. Control of BTEX migration using a biologically enhanced permeable barrier. Ground Water Monit. Rem., 17: 70-80.
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3:   Chao, C., S.W. Chen, T.Y. Chen, C.M. Kao, Y.C. Lai and C.E. Lin, 2006. Application of water quality modeling on river basin management. WSEAS Trans. Math., 5: 1078-1083.
4:   Chen, C.F., C.M. Kao, C.D. Dong and C.W. Chen, 2010. Butyltin contamination in sediments and seawater from Kaohsiung Harbor, Taiwan. Environ. Monitor. Assess., 169: 75-87.
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5:   Chen, C.F., C.W. Chen, C.D. Dong and C.M. Kao, 2013. Assessment of toxicity of polycyclic aromatic hydrocarbons in sediments of Kaohsiung Harbor, Taiwan. Sci. Total Environ., 463-464: 1174-1181.
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6:   Chen, C.T., C.W. Chen, C.F. Chen, C.D. Dong, M.S. Ko and C.M. Kao, 2012. Evaluation of zinc contamination in the sediments of Salt River mouth, Taiwan. Applied Mech. Mater., 178-181: 893-896.
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7:   Chen, C.T., Z.H. Yang, C.W. Chen, C.D. Dong and C.M. Kao, 2012. Application of biodegradable surfactant washing to remediate total petroleum hydrocarbons-contaminated sediments. Adv. Sci. Lett., 13: 579-583.
8:   Chen, C.T., Z.H., C.W. Chen, C.D. Dong and C.M. Kao, 2012. Application of biodegradable surfactant washing to remediate total petroleum hydrocarbons-contaminated sediments. Adv. Sci. Lett., 13: 584-587.
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9:   Chen, C.W., C.M. Kao, C.F. Chen and C.D. Dong, 2007. Distribution and accumulation of heavy metals in the sediments of Kaohsiung Harbor, Taiwan. Chemosphere, 66: 1431-1440.
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10:   Chen, C.Y., C.M. Kao, S.C. Chen, H.Y. Chien and C.E. Lin, 2007. Application of immobilized cells to the treatment of cyanide wastewater. Wat. Sci. Tech., 56: 99-107.
PubMed  |  
11:   Chen, C.Y., S.C. Chen, M. Fingas and C.M. Kao, 2010. Biodegradation of propionitrile by Klebsiella oxytoca immobilized in alginate and cellulose triacetate gel. J. Hazardous Mater., 177: 856-863.
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12:   Chen, J.Y., C.M. Kao and S.C. Chen, 2008. Application of Klebsiella oxytoca immobilized cells on the treatment of cyanide wastewater. Chemosphere, 71: 133-139.
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13:   Chen, K., L. Wu, C. Kao and C. Yang, 2004. Application of health risk assessment to derive cleanup levels at a fuel-oil spill site. Pract. Period. Hazard. Toxic Radioact. Waste Manage., 8: 99-104.
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14:   Chen, K.F., C.M. Kao and C.W. Chen, 2010. Control of petroleum-hydrocarbon contaminated groundwater by intrinsic and enhanced bioremediation. J. Environ. Sci., 22: 864-871.
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15:   Chen, K.F., C.M. Kao, C.Y. Hsieh, S.C. Chen and Y.L. Chen, 2005. Natural biodegradation of MTBE under different environmental conditions: Microcosm and microbial identification studies. Bull. Environ. Contam. Toxicol., 74: 356-364.
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16:   Chen, K.F., C.M. Kao, J.Y. Wang and C.C. Chien, 2005. Natural attenuation of MTBE at Two Petroleum-Hydrocarbon Spill Sites. J. Hazard. Mater., 125: 10-16.
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17:   Chen, K.F., C.M. Kao, L.C. Wu, R.Y. Surampalli and S.H. Liang, 2009. Methyl Tert-Butyl Ether (MTBE) degradation by ferrous ion-activated persulfate oxidation: Feasibility and kinetics studies. Water Environ. Res., 81: 687-694.
PubMed  |  
18:   Chen, K.F., C.M. Kao, T.Y. Chen, C.H. Weng and C.C. Chien, 2006. Intrinsic bioremediation of MTBE-contaminated groundwater at a petroleum-hydrocarbon spill site. Environ. Geol., 50: 439-446.
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19:   Chen, K.F., C.M. Kao, W.P. Sung, C.C. Lin and T.Y. Yeh, 2011. Enhanced In-situ anaerobic bioremediation of TCE-contaminated groundwater using nanoscale zero-valent iron (nZVI). Mater. Sci. Forum, 694: 3-7.
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20:   Chen, K.F., T.Y. Yeh, C.M. Kao, W.P. Sung and C.C. Lin, 2012. Application of nanoscale zero-valent iron (nZVI) to enhance microbial reductive dechlorination of TCE: A feasibility study. Curr. Nanosci., 8: 55-59.
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21:   Chen, K.F., W.Y. Huang, T.Y. Yeh, C.M. Kao and F. Hou, 2005. Biodegradability of 2,4-dichlorophenol under different redox conditions. Practice Periodical Hazardous Toxic. Radioactive Waste Manage., 9: 141-146.
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22:   Chen, S.C., C.M. Kao, Y.L. Chen, S.P. Huang and T.Z. Liu, 2003. Assessment of genotoxicity of benzidine and its structural analogues to human lymphocytes using comet assay. Toxicol. Sci., 72: 283-288.
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23:   Chen, S.W., C.M. Kao, H.Y. Chien, Y.T. Fu and Y.I. Chang, 2008. Use of a constructed wetland for post-treatment of swine wastewater. Environ. Eng. Sci., 25: 407-417.
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24:   Chen, T.Y., C.M. Kao, C.T. Chai, C.Y. Chen and C.E. Lin, 2007. Development of biobarrier system to control the Petroleum-hydrocarbon plume. WSEAS Trans. Math., 6: 661-666.
25:   Chen, T.Y., C.M. Kao, A. Hong, C.E. Lin and S.H. Liang, 2009. Application of ozone on the decolorization of reactive dyes-Orange-13 and Blue-19. Desalination, 249: 1238-1242.
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26:   Chen, T.Y., C.M. Kao, H.Y. Chiou, Y.T. Yu and W.P. Sung, 2012. Application of oxygen-releasing material to enhance in situ aerobic bioremediation. Adv. Mater. Res., 430-432: 1401-1404.
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27:   Chen, T.Y., C.M. Kao, T.Y. Yeh and A.C. Chao, 2006. Application of a constructed wetland for industrial wastewater treatment: a pilot-scale study. Chemosphere, 64: 497-502.
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28:   Chen, Y.S., S.C. Chen, T.R. Wu, C.M. Kao and Y.L. Chen, 2004. Seroprevalence of anti-flagellin antibody against Burkholderia pseudomallei in Taiwan. Jpn. J. Infect. Dis., 57: 224-225.
PubMed  |  Direct Link  |  
29:   Chien, C.C., C.M. Kao, C.D. Dong, T.Y. Chen and J.Y. Chen, 2007. Effectiveness of AOC removal by advanced water treatment systems: A case study. Desalination, 202: 318-325.
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30:   Chien, C.C., C.M. Kao, C.W. Chen, C.D. Dong and C.Y. Wu, 2008. Application of biofiltration system on AOC removal: Column and field studies. Chemosphere, 71: 1786-1793.
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31:   Chien, C.C., C.M. Kao, C.W. Chen, C.D. Dong and H.Y. Chien, 2009. Evaluation of biological stability and corrosion potential in drinking water distribution systems: A case study. Environ. Monitor. Assess., 153: 127-138.
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32:   Chien, H.Y., C.M. Kao and J.K. Liu, 2010. Clean up of petroleum-hydrocarbon contaminated soils using enhanced bioremediation system: Laboratory feasibility study. J. Environ. Eng., 136: 597-606.
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33:   Chien, H.Y., C.M. Kao, R.Y. Surampalli, W.Y. Huang and F. Hou, 2011. Development of a four-phase remedial scheme to clean up petroleum-hydrocarbon contaminated soils. J. Environ. Eng., 137: 602-610.
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34:   Chiu, H.Y., J.K. Liu, H.Y. Chien, R.Y. Surampalli and C.M. Kao, 2013. Evaluation of enhanced reductive dechlorination of trichloroethylene using gene analysis: pilot-scale study. J. Environ. Eng., 139: 428-437.
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35:   Chu, W.H., J.Y. Wang and C.M. Kao, 2003. A simplified risk-based approach for process screening in municipal wastewater reclamation and reuse. Water Sci. Technol., 47: 257-262.
PubMed  |  
36:   Dai, W.C., T.T. Tsai, C.M. Kao, Y.M. Chang and H.C. His, 2012. Application of minitored natural attenuation and risk-based corrective action at a chlorinated hydrocarbon contaminated site. Res. J. Chem. Environ., 16: 87-97.
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37:   Dong, C.D., C.W. Chen, C.F. Chen and C.M. Kao, 2007. Mathematical modeling and simulation of ocean disposal of harbor dredged materials. Pract. Period. Hazard. Toxic. Radioact. Waste Manage., 11: 207-213.
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38:   Dong, C.D., Y.L. Liao, C.M. Kao, C.W. Chen, H.Y. Lin and C.P. Huang, 2007. Preparation of crystalline nanosized titania by microemulsion: Evaluation of process variables. J. Adv. Oxidation Technol., 10: 399-404.
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39:   Hong, P.K.A., S. Nakra, C.M.J. Kao and D.F. Hayes, 2008. Pressure-assisted ozonation of PCB and PAH contaminated sediments. Chemosphere, 72: 1757-1764.
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40:   Huang, C.J., B.M. Yang, K.S. Chen, C.C. Chang and C.M. Kao, 2011. Application of membrane technology on semiconductor wastewater reclamation: A pilot-scale study. Desalination, 278: 203-210.
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41:   Jeng, S.N., M.K. Shih, C.M. Kao, T.Z. Liu and S.C. Chen, 2000. Antimutagenicity of ethanol extracts of bee glue against environmental mutagens. Food Chemical Toxicol., 38: 893-897.
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42:   Jou, C.J., C.L. Lee, Y.T.V. Fu and C.M. Kao, 2012. Simulation of a long narrow type constructed wetland using the stream model QUAL2K. Sustain. Environ. Res., 22: 255-260.
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43:   Jou, C.J., S.W. Chen, C.M. Kao and C.L. Lee, 2008. Assessing the efficiency of a constructed wetland using a firstorder biokinetic model. Wetlands, 28: 215-219.
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44:   Jou, C.J., S.W. Chen, K.H. Tseng and C.M. Kao, 2009. Efficiency and ecological benefits of purifying Wu-Lo creek with a constructed wetland system. Environ. Eng. Sci., 26: 97-102.
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45:   Kao, C.M. and C.C. Wang, 2000. Control of BTEX migration by intrinsic bioremediation at a gasoline spill site. Water Res., 34: 3413-3423.
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46:   Kao, C.M. and J. Prosser, 1999. Influence of aquifer biogeochemical distribution on BTEX biodegradation under aerobic/anaerobic conditions. J. Chinese Inst. Environ. Eng., 9: 187-197.
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47:   Kao, C.M. and J. Prosser, 1999. Intrinsic bioremediation of trichloroethylene and chlorobenzene: Field and laboratory studies. J. Hazard. Mater., 69: 67-79.
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48:   Kao, C.M. and J. Prosser, 2001. Evaluation of natural attenuation rate at a gasoline spill site. J. Hazardous Mater., 82: 275-289.
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49:   Kao, C.M. and L. Yang, 2000. Enhanced bioremediation of trichloroethene contaminated groundwater by a biobarrier system. Water Sci. Tech., 42: 429-434.
50:   Kao, C.M. and M.J. Wu, 2000. Enhanced TCDD degradation by Fenton's reagent preoxidation. J. Hazard. Mater., B74: 197-211.
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51:   Kao, C.M. and M.J. Wu, 2001. Control of non-point source pollution by a natural wetland. Water Sci. Technol., 43: 169-174.
PubMed  |  
52:   Kao, C.M. and R.C. Borden, 1992. Use of biologically active barriers for in situ treatment of contaminated groundwater. Water Sci. Technol., 26: 9-11.
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53:   Kao, C.M. and R.C. Borden, 1997. Enhanced TEX biodegradation in nutrient briquet-peat barrier system. J. Environ. Eng., 123: 18-24.
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54:   Kao, C.M. and R.C. Borden, 1997. Site-specific variability in BTEX biodegradation under denitrifying conditions. Ground Water, 35: 305-311.
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55:   Kao, C.M. and S.E. Lai, 1999. Using a peat biobarrier to remediate PCE/TCE contaminated aquifers. Water Res., 34: 835-845.
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56:   Kao, C.M. and Y.S. Wang, 2001. Field investigation of the natural attenuation and intrinsic biodegradation rates at an underground storage tank site. Environ. Geol., 40: 622-631.
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57:   Kao, C.M., C.C. Lin, J.K. Liu, Y.L. Chen and S.C. Chen, 2004. Biodegradation of the metal-cyano complex tetracyanonickelate (II) by Klebsiella oxytoca. Enzyme Microbial Technol., 35: 405-410.
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58:   Kao, C.M., C.S. Chen, F.Y. Tsa, K.H. Yang and C.C. Chien et al., 2010. Application of real-time PCR, DGGE fingerprinting, and culture-based method to evaluate the effectiveness of intrinsic bioremediation on the control of petroleum-hydrocarbon plume. J. Hazard. Mater., 178: 409-416.
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59:   Kao, C.M., C.T. Chai , J.K. Liu, T.Y. Yeh, K.F. Chen and S.C. Chen, 2004. Evaluation of natural and enhanced PCP biodegradation at a former pesticide manufacturing plant. Water Res., 38: 663-672.
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60:   Kao, C.M., C.Y. Chen, S.C. Chen, H.Y. Chien and Y.L. Chen, 2008. Application of in situ biosparging to remediate a petroleum-hydrocarbon spill site: Field and microbial evaluation. Chemosphere, 70: 1492-1499.
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61:   Kao, C.M., C.Y. Chen, Y.L. Chen, T.Y. Chen and S.C. Chen, 2009. Biodegradation of tetracyanonickelate by Klebsiella oxytoca under anaerobic conditions. Desalination, 249: 1212-1216.
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62:   Kao, C.M., F.C. Wu, K.F. Chen, T.F. Lin, Y.E. Yen and P.C. Chiang, 2003. Pollutant sources investigation and remedial strategies development for the Kaoping River Basin, Taiwan. Water Sci. Technol., 48: 97-103.
PubMed  |  Direct Link  |  
63:   Kao, C.M., H.Y. Chien and R.Y. Surampalli, 2010. Assessing of natural attenuation and intrinsic bioremediation rates at a petroleum-hydrocarbon spill site: Laboratory and field studies. J. Environ. Eng. ASCE, 136: 54-67.
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64:   Kao, C.M., H.Y. Chien, R.Y. Surampalli and W.P. Sung, 2009. Application of biopile system for the remediation of petroleum-hydrocarbon contaminated soils. Proceedings of the World Environmental and Water Resources Congress, May 17-21, 2009, Kansas City, Missouri, pp: 2575-2584.
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65:   Kao, C.M., J.K. Liu, C.S. Lin and S.C. Chen, 2003. Biotransformation of cyanide to methane and ammonia by Klebsiella oxytoca. Chemosphere, 50: 1055-1061.
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66:   Kao, C.M., J.K. Liu, Y.L. Chen, C.T. Chai and S.C. Chen, 2005. Factors affecting the biodegradation of PCP by Pseudomonas Mendocina NSYSU. J. Hazardous Mater., 124: 68-73.
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67:   Kao, C.M., J.Y. Wang and M.J. Wu, 2001. Evaluation of atrazine removal processes in a wetland. Water Sci. Technol., 44: 539-544.
PubMed  |  Direct Link  |  
68:   Kao, C.M., J.Y. Wang, H.Y. Lee and C.K. Wen, 2001. Application of a constructed wetland for non-point source pollution control. Water Sci. Technol., 44: 585-590.
PubMed  |  
69:   Kao, C.M., J.Y. Wang, K.F. Chen, H.Y. Lee and M.J. Wu, 2002. Non-point source pesticide removal by a mountainous wetland. Wat. Sci. Technol., 46: 199-206.
PubMed  |  Direct Link  |  
70:   Kao, C.M., K.D. Huang, J.Y. Wang, T.Y. Chen and H.Y. Chien, 2008. Application of potassium permanganate as an oxidant for in situ oxidation of trichloroethylene-contaminated groundwater: a laboratory and kinetics study. J. Hazard. Mater., 153: 919-927.
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71:   Kao, C.M., K.F. Chen, J.K. Liu, S.M. Chou and S.C. Chen, 2006. Enzymatic degradation of nitriles by Klebsiella oxytoca. Applied Microbiol. Biotechnol., 71: 228-233.
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72:   Kao, C.M., K.F. Chen, Y.L. Chen and T.Y. Chen, 2004. Biobarrier system for remediation of TCE-contaminated aquifers. Bull. Environ. Contamination Toxicol., 72: 87-93.
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73:   Kao, C.M., K.F. Chen, Y.L. Liao and C.W. Chen, 2003. Water quality management in the Kaoping river watershed, Taiwan. Water Sci. Tech., 47: 209-216.
PubMed  |  
74:   Kao, C.M., M.S. Chou, W.L. Fang, B.W. Liu and B.R. Huang, 2001. Regulating colored textile wastewater by 3/31 wavelength ADMI methods in Taiwan. Chemosphere, 44: 1055-1063.
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75:   Kao, C.M., S. Kota, B. Ress, M.A. Barlaz and R.C. Borden, 2001. Effects of subsurface heterogeneity on natural bioremediation at a gasoline spill site. Water Sci. Technol., 43: 341-348.
PubMed  |  
76:   Kao, C.M., S.C. Chen C.K. Liu and M.J. Wu, 2001. Evaluation of TCDD biodegradability under different redox conditions. Chemosphere, 44: 1447-1454.
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77:   Kao, C.M., S.C. Chen and C.K. Liu, 2001. Development of a biobarrier for the remediation of PCE-contaminated aquifer. Chemosphere, 43: 1071-1078.
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78:   Kao, C.M., S.C. Chen and M.C. Su, 2001. Laboratory column studies for evaluating a barrier system for providing oxygen and substrate for TCE biodegradation. Chemosphere, 44: 925-934.
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79:   Kao, C.M., S.C. Chen, J.K. Liu and Y.S. Wang, 2001. Application of microbial enumeration technique to evaluate the occurrence of natural bioremediation. Water Res., 3: 1951-1960.
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80:   Kao, C.M., S.C. Chen, J.Y. Wang, Y.L. Chen and S.Z. Lee, 2003. Remediation of PCE-contaminated aquifer by an in situ two-layer biobarrier: Laboratory batch and column studies. Water Res., 37: 27-38.
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81:   Kao, C.M., S.C. Chen, Y.S. Chen and Y.L. Chen, 2003. Detection of Burkholderia Pseudomallei in rice fields with PCR-based technique. Folia Microbiol., 48: 521-524.
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82:   Kao, C.M., S.H. Li, Y.L. Chen and S.C. Chen, 2005. Utilization of the metal-cyano complex tetracyanonickelate (II) by Azotobacter vinelandii. Lett. Applied Microbiol., 41: 216-220.
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83:   Kao, C.M., W.Y. Huang, L.J. Chang, H.Y. Chien and F. Hou, 2006. Application of monitored natural attenuation to remediate a petroleum-hydrocarbon spill site. Wat. Sci. Tech., 53: 321-328.
PubMed  |  
84:   Kao, C.M., Y.L. Chen, S.C. Chen, T.Y. Yeh and W.S. Wu, 2003. Enhanced PCE dechlorination by biobarrier systems under different redox conditions. Water Res., 37: 4885-4894.
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85:   Khanal, S., R. Surampalli, T. Zhang, R.D. Tyagi and C.M. Kao, 2009. Bioenergy and Biofuels from Waste. American Society of Civil Engineer, USA., ISBN-13: 9780784410899.
86:   Kuo, Y.C., J.K. Liu, H.Y. Chien, C.C. Chen and C.M. Kao, 2012. Remediation of TCE-contaminated groundwater using integrated biosparging and enhanced bioremediation system. Res. J. Chem. Environ., 16: 37-37.
87:   Kuo, Y.C., S.Y. Wang, C.M. Kao, C.W. Chen and W.P. Sung, 2011. Using enhanced landfarming system to remediate diesel oil-contaminated soils. Applied Mech. Mater., 121-126: 554-558.
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88:   Lai, Y.C., C.M. Kao and R.Y. Surampalli, 2010. Developing nonpoint-source suspended solids control strategies using multimedia watershed management modeling. Water Environ. Res., 82: 2205-2218.
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89:   Lai, Y.C., C.P. Yang, C.Y. Hsieh, C.Y. Wu and C.M. Kao, 2011. Evaluation of non-point source pollution and river water quality using a multimedia two-model system. J. Hydrol., 409: 583-595.
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90:   Lai, Y.C., Y.T. Tu, C.P. Yang, R.Y. Surampalli and C.M. Kao, 2013. Development of a water quality modeling system for river pollution index and suspended solid loading evaluation. J. Hydrol., 478: 89-101.
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91:   Lee, M., T. Chen, C. Kao, J. Hung and C. Chen, 2008. Development of watershed management strategies for the Chiang-Chun River Basin, Taiwan. Pract. Period. Hazard. Toxic Radioact. Waste Manage., 12: 47-52.
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92:   Liang, S.H., C.M. Kao, Y.C. Kuo and K.F. Chen, 2011. In situ oxidation of petroleum-hydrocarbon contaminated groundwater using passive ISCO system. Water Res., 45: 2496-2506.
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93:   Liang, S.H., C.M. Kao, Y.C. Kuo and K.F. Chen, 2011. Application of persulfate-releasing barrier to remediate MTBE and benzene contaminated groundwater. J. Hazard. Mater., 185: 1162-1168.
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94:   Liang, S.H., S.C. Chen, C.Y. Chen, C.M. Kao and Y. Jing-Iong et al., 2011. Cadmium-induced earthworm metallothionein-2 correlation to metal accumulation and counteracting oxidative stress. Pedobiologia, .
95:   Lin, C., D.S. Sheu, T.C. Lin, C.M. Kao, D. Grasso, 2012. Thermophilic biodegradation of diesel oil in food waste composting processes without bioaugmentation. Environ. Eng. Sci., 29: 117-123.
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96:   Lin, C.E., C.M. Kao and C.J. Jou, 2010. Preliminary identification of watershed management strategies for the Houjing river in Taiwan. Water Sci. Technol., 62: 1667-1675.
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97:   Lin, C.E., C.M. Kao and Y.C. Lai, 2009. Application of integrated GIS and multimedia modeling on NPS pollution evaluation. Environ. Monitor. Assess., 158: 319-331.
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98:   Lin, C.E., C.M. Kao, R.Y. Surampalli, Y.C. Lai and M.S. Lee, 2010. Integrated water resource management for Kaoping River Basin. Pract. Period. Hazard. Toxic Radioactive Waste Manage., 14: 151-156.
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99:   Lin, C.E., C.T. Chen, C.M. Kao, A. Hong and C.Y. Wu, 2011. Development of the sediment and water quality management strategies for the salt-water river, Taiwan. Mar. Pollut. Bull., 63: 528-534.
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100:   Malone, D.R., C.M. Kao and R.C. Borden, 1993. Dissolution and biorestoration of non-aqueous phase hydrocarbons: model development and laboratory evaluation. Water Resour. Res., 29: 2203-2213.
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101:   Sung, W.P., C.M. Kao and R. Chen, 2012. Frontiers of Mechanical Engineering and Materials Engineering. Trans Tech Publication, USA., ISBN-13: 9783037854419, Pages: 1685.
102:   Surampalli, R., T. Zhang, C.M. Kao and R.D. Tyagi, 2010. Green Technologies for Sustainable Wastewater Treatment. American Society of Civil Engineer, USA.
103:   Tsai, T.T. and C.M. Kao, 2009. Remediation of fuel oil-contaminated soils by a three-stage treatment system. Environ. Eng. Sci., 26: 651-659.
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104:   Tsai, T.T. and C.M. Kao, 2009. Treatment of petroleum-hydrocarbon contaminated soils using hydrogen peroxide oxidation catalyzed by waste basic oxygen furnace slag. J. Hazard. Mater., 170: 466-472.
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105:   Tsai, T.T., C.M. Kao and A. Hong, 2009. Treatment of tetrachloroethylene-contaminated groundwater by surfactant-enhanced persulfate/BOF slag oxidation-A laboratory feasibility study. J. Hazard. Mater., 171: 571-576.
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106:   Tsai, T.T., C.M. Kao and J.Y. Wang, 2011. Remediation of TCE-contaminated groundwater using acid/BOF slag enhanced chemical oxidation. Chemosphere, 83: 687-692.
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107:   Tsai, T.T., C.M. Kao and R.Y. Surampalli, 2010. Treatment of TCE-contaminated groundwater using fenton-like oxidation activated with basic oxygen furnace slag. J. Environ. Eng., 136: 288-294.
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108:   Tsai, T.T., C.M. Kao and T.Y. Yeh, 2007. Chemical oxidation of chlorinated solvents in contaminated groundwater: A review. Pract. Period. Hazard. Toxic. Radioact. Waste Manage., 12: 116-126.
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109:   Tsai, T.T., C.M. Kao, A. Hong, S.H. Liang and H.Y. Chien, 2008. Remediation of TCE-contaminated aquifer by an in situ three-stage treatment train system. Colloids Surf. A: Physicochem. Eng. Aspects, 322: 130-137.
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110:   Tsai, T.T., C.M. Kao, R. Sruampalli, W.Y. Huang and J.P. Rao, 2011. Sensitivity analysis of risk assessment at a petroleum-hydrocarbon contaminated site. J. Hazard. Toxic Radioactive Waste Manage., 15: 89-98.
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111:   Tsai, T.T., C.M. Kao, R.Y. Surampalli and C.H. Weng, 2009. Enhanced bioremediation of fuel-oil contaminated soils: Laboratory feasibility study. J. Environ. Eng., 135: 845-853.
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112:   Tsai, T.T., C.M. Kao, R.Y. Surampalli and S.H. Liang, 2009. Treatment of fuel-oil contaminated soils by biodegradable surfactant washing followed by Fenton-like oxidation. J. Environ. Eng., 135: 1015-1024.
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113:   Tsai, T.T., C.M. Kao, T.Y. Yeh, S.H. Liang and H.Y. Chien, 2009. Application of surfactant enhanced permanganate oxidation and bidegradation of trichloroethylene in groundwater. J. Hazard. Mater., 161: 111-119.
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114:   Tsai, T.T., J. Sah and C.M. Kao, 2010. Application of iron electrode corrosion enhanced electrokinetic-fenton oxidation to remediate diesel contaminated soils: A laboratory feasibility study. J. Hydrol., 380: 4-13.
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115:   Tyagi, R.D., R.Y. Surampalli, S. Yan, T.C. Zhang, 2009. Sustainable Sludge Management: Production of Value Added Products. American Society of Civil Engineers, USA., ISBN-13: 97800784410516, Pages: 344.
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116:   Wang, J.Y., C.M. Kao, X.Y. Liu and O. Stabnikova, 2006. Digestion of pre-treated food waste in a Hybrid Anaerobic Solid-Liquid (HASL) system. J. Chem. Technol. Biotechnol., 81: 345-351.
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117:   Wang, J.Y., X.J. Huang, J.C.M. Kao and O. Stabnikova, 2006. Removal of heavy metals from Kaolin using an Upward Electrokinetic Soil Remedial (UESR) technology. J. Hazardous Mater., 136: 532-541.
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118:   Wang, J.Y., X.Y. Huang, J.C.M. Kao and O. Stabnikova, 2007. Simultaneous removal of organic contaminants and heavy metals from Kaolin using an upward electrokinetic soil remediation process. J. Hazardous Mater., 144: 292-299.
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119:   Weng, C.W., Y.T. Lin, Y.L. Liao and C.M. Kao, 2007. Enhancement of electrokinetic remediation of hyper-Cr(VI) contaminated clay by Zero-valent iron. J. Hazardous Mater., 149: 292-302.
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120:   Wu, C.Y., C.M. Kao and C.E. Lin, 2010. Using a constructed wetland for non-point source pollution control and river water quality purification: A case study in Taiwan. Water Sci. Technol., 61: 2549-2555.
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121:   Wu, C.Y., J.K. Liu, S.H. Cheng and C.W. Chen, 2010. Constructed wetland for water quality improvement: A case study from Taiwan. Water Sci. Technol., 62: 2408-2418.
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122:   Wu, C.Y., Y.T. Fu, Z.H. Yang, C.M. Kao and Y.T. Tu, 2012. Using multi-function constructed wetland for urban stream restoration. Applied Mech. Mater., 121-126: 3072-3076.
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123:   Yang, B.M., C.M. Kao, C.W. Chen, W.P. Sung and R.Y. Surampalli, 2012. Application of in situ chemical oxidation for the remediation of TPH-contaminated soils. Applied Mech. Mater., 121-126: 196-200.
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124:   Yang, B.M., C.M. Kao, W.P. Sung, C.P. Yang and T.Y. Chen, 2012. Removing of nano-particles from semiconductor wastewater using a hybrid treatment system. Adv. Mater. Res., 528: 71-74.
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125:   Yang, B.M., J.K. Liu, C.C. Chien and C.M. Kao, 2011. Variations in AOC and microbial diversity in an advanced water treatment plant. J. Hydrol., 409: 225-235.
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126:   Yang, C.P., Y.T. Yu and C.M. Kao, 2012. Impact of climate change on kaoping river water quality. Applied Mech. Mater., 212-213: 137-140.
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127:   Yeh, T.Y., C.M. Kao and M.S. Lee, 2005. Field investigation at a chlorinated ethylene contaminated site. Pract. Period. Hazard. Toxic. Radioact. Waste Manage., 10: 207-215.
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128:   Yen, C.H., K.F. Chen, C.M. Kao, S.H. Liang and T.Y. Chen, 2011. Application of persulfate to remediate petroleum hydrocarbon-contaminated soil: Feasibility and comparison with common oxidants. J. Haz. Mat., 186: 2097-2102.
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129:   Zhu, J., C.F. Lin, J.C.M. Kao and P.Y. Yang, 2011. Evaluation of potential integration of entrapped mixed microbial cell and membrane bioreactor processes for biological wastewater treatment/reuse. Clean Technol. Environ. Policy, 13: 153-160.
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