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Professor
TEL:2189879
Email:honghz@xmu.edu.cn

Brief CV

  • B. S., Biology, Xiamen University (2000)  

  • M. S., Biology, Hong Kong University of Science and Technology (2003)  

  • Ph. D., Environmental Toxicology, University of California at Riverside (2007)  

  • Research Investigator, Department of Biotransformation,Bristol-Myers Squibb (2008-2011)  

  • Associate Professor, Xiamen University (2011.08-2017.08)  

  • Professor, Xiamen University (2017.09-present)

Research Interests

  • Environmental fate and transport of organic pollutants and their impacts on marine ecosystems

  • Physiological and ecological response of marine phytoplankton to global change

Selected Publications

  • Luo Y.-W.*, Shi D.L.*, Kranz S.A., Hopkinson B.M., Hong H.Z.*, Shen R., Zhang F.T. 2019. Reduced nitrogenase efficiency dominates response of the globally important nitrogen fixerTrichodesmium  to ocean acidification. Nature Communications 10:1521

  • Zhang F.T.*, Hong H.Z.*, Kranz S.A., Shen R., Lin W.F., ShiD.L.* 2019. Proteomic responses to ocean acidification of the marine diazotroph Trichodesmium under iron-replete andiron-limited conditions. Photosynthesis Research 142:17–34

  • Chen L.Y., Li X.L., Hong H.Z.*, Shi D.L. 2017.Multigenerational effects of 4-methylbenzylidene camphor (4-MBC) on the survival, development and reproduction ofthe marine copepod Tigriopus japonicas. Aquatic Toxicology194(2018): 94-102.

  • Hong H.Z., Shen R., Zhang F.T., Wen Z.Z., Chang S.W., LinW.F., Kranz S.A., Luo Y.-W., Kao S.-J., Morel F.M.M., Shi D.L.*2017. The complex effects of ocean acidification on theprominent N2-fixing cyanobacterium Trichodesmium.Science doi: 10.1126/science

  • Hong H.Z., Li W.Y., Li X.L., Huang B.Q., Shi D.L.* 2017.Determination of glycolic acid in natural seawater by liquid chromatography coupled with triple quadrupole massspectrometry. Limnology and Oceanography: Methods doi:10.1002/lom3.10187

  • Hong H.Z.*, Lv D.M., Liu W.X., Huang L.M., Chen L.Y., ShenR., Shi D.L. 2017. Toxicity and Bioaccumulation of Three Hexabromocyclododecane Diastereoisomers in the MarineCopepod Tigriopus japonicas. Aquatic Toxicology 188: 1-9

  • Hong H.Z., Li D.M., Lin W.F., Li W.Y., Shi D.L.* 2017.Nitrogen nutritional condition affects the response of energy metabolism in diatoms to elevated carbon dioxide. Marine Ecology Progress Series 567: 41-56

  • Shi D.L., Lv D.M., Liu W.X., Shen R., Li D.M., Hong H.Z.* 2017.Accumulation and developmental toxicity of hexabromocyclododecanes (HBCDs) on the marine copepod Tigriopus japonicas. Chemosphere 167: 155-162.

  • Hong H.Z.*, Shen R., Liu W.X., Li D.M., Huang L.M., Shi D.L.*2015.Developmental toxicity of three hexabromocyclododecane diastereoisomers in embryos ofthe marine medaka Oryzias melastigma. Marine Pollution Bulletin 101: 110-118.

  • Shi D.L.*, Li W.Y., Hopkinson B., Hong H.Z., Li D.M., Kao S.J.,Lin W.F. 2015. Interactive effects of light, nitrogen source and carbon dioxide on energy metabolism in the diatom Thalassiosira pseudonana. Limnology and Oceanography 60:1805-1822.

  • Hong H.Z., Li D.M., Shen R., Wang X.H., Shi D.L.* 2014. Mechanisms of hexabromocyclododecanes induced developmental toxicity in marine medaka (Oryzias melastigma) embryos. Aquatic Toxicology 152: 173-185.

Teaching Experience

  • Environmental Toxicology

  • Molecular Ecotoxicology

  • English Seminar


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