师资团队
教授名单
其他骨干教师
行政—教辅—博士后



 


毕然


管理个人简历


性别:

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社会兼职:

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传真:

E-mail:rbi@stu.edu.cn

 


学历简介:

2004.09-2005.10 英国De Montfort University (硕士学位)

2006.10-2012.02 英国Teesside University


工作经历:

2012.11 – 2016.07 中国科学院沈阳应用生态研究所

2016.07 – 至今 汕头大学


主要研究兴趣:

1)主要从事海洋生物体内砷吸收和转化的相关研究,重点关注食用类海藻中重金属污染的健康风险,以及海藻中砷的形态与转化机制;

2)重金属污染的植物吸收与生态修复技术


承担项目

1)主持李嘉诚基金会交叉研究项目“不同来源与摄入途径下微塑料的污染机制及健康效应研究”(2020LKSFG04E),2020年7月-2023年6月,235万

2)主持国家自然科学基金面上基金项目“环境条件和养殖模式对大型经济类海藻砷吸收和转化的影响”(41877379),2019年1月 – 2022年12月,62万

3)作为骨干成员参与南方海洋科学与工程广东省实验室重大专项团队项目“基于生态系统连通性的粤东沿海渔业资源生境功能及修复研究”,2019年7月-2022年6月,1350万

4)主持汕头大学卓越人才计划项目 青年优秀人才“大型海藻吸收和转化砷的环境影响因素”,100万

5)主持国家自然科学基金青年基金项目“三氯生及其降解产物对鱼类的长期毒理机制和生物累积效应”(41401582),2015年1月 – 2017年12月,25万

6)主持中国科学院重点实验室开放基金“三氯生和氧苯酮的联合毒性效应机制”,2015年7月 – 2017年6月,6万

7)主持辽宁省博士科研启动基金“电动力学方法处理生物有机肥中的重金属污染”,2014年7月 – 2016年7月,8万

8)参与德国教育与研究部(Federal Ministry of Education and Research)创新研究项目(AGIP)“重金属污染土壤和污泥的电动力结合植物修复研究”2008年1月 – 2011年12月

9)获得德意志学术交流服务中心(DAAD, Deutscher Akademischer Austausch Dienst)欧洲大学研究学者访问交换项目,“电动力学修复技术对土壤生物群落的影响”2008年3月 – 2010年3月


研究成果

Lin Y., Huang Z., Wu L., Zhao P., Wang X., Ma X., Chen W., Bi R.* and Jia Y. (2021) Influence of phosphorus on the uptake and biotransformation of arsenic in Porphyra haitanensis at environmental relevant concentrations. Science of Total Environment 800: 149534

Sanganyado E., Bi R., Teta C., Buruaem L., Yu X., Sun Y., Dalu T., Rajput I. and Liu W. (2021) Toward an integrated framework for assessing micropollutants in marine mammals: Challenges, progress, and opportunities. Critical Reviews in Environmental Science and Technology 51(23):2824–2871

Lin Y., Yu X., Huang L., Sanganyado E., Bi R., Li P. and Liu W. (2021). Risk assessment of potentially toxic elements accumulated in fish to Indo-Pacific humpback dolphins in the South China Sea. Science of The Total Environment 761:143256

Sun Q.1, Bi R.1, Wang T., Su C., Chen Z., Diao J., Zheng Z. and Liu W. (2021). Are there risks induced by novel and legacy poly- and perfluoroalkyl substances in coastal aquaculture base in South China? Science of The Total Environment 779(3):146539

Wu X., Klerks P., Bi R., Liu W., Yuan Z., Ma X., Zhang G., Wang S., Jia Y. (2020). Digestive solubilization of Cd in highly-contaminated sediment by marine deposit feeders: The roles of intestinal surfactants in Cd mobilization and Re-Adsorption processes. Environmental Pollution 2020

Yu X., He Q., Sanganyado E., Liang Y., Bi, R.*, Li P., Liu W., (2020) Chlorinated organic contaminants in fish from the South China Sea: Assessing risk to Indo-Pacific humpback dolphin. Environmental Pollution 263(B): 114346.

Ma X., Gomez M., Yuan Z., Bi R., Zhang J., Wang S., Yao S., Kersten M., Jia Y. (2020). Incorporation of trace metals Cu, Zn, and Cd into gypsum: Implication on their mobility and fate in natural and anthropogenic environments. Chemical Geology 541(20): 119574

Ma X., Yao S., Yuan Z., Bi R., Wu X., Zhang J., Wang S., Wang X., Jia Y. (2020). Detoxification and reclamation of hydrometallurgical arsenic- and trace metals-bearing gypsum via hydrothermal recrystallization in acid solution. Chemosphere 250: 126290.

Zhang D., Cao R., Wang S., Wang Y., Bi R. Jia Y. (2020). Fate of arsenic during up to 4.5 years of aging of FeIII-AsV coprecipitates at acidic pH: Effect of reaction media (Nitrate vs. Sulfate), Fe/As molar ratio, and pH. Chemical Engineering Journal 388(15): 124239

Bi R.*, Zhou C., Jia Y., Wang S., Li P., Reichwaldt E., Liu W. (2019). Giving water bodies the treatment they need: A critical review of the application of constructed floating wetlands. Journal of Environmental Management 238: 484 – 489.

Bi R.*, Zeng X., Mu L., Hou L., Liu W., Li P., Chen H., Li D., Bouchez A., Tang J. and Xie L. (2018) Sensitivities of seven algal species to triclosan, fluoxetine and their mixtures. Scientific Reports 2018: 15361.

Li D.1, Bi R.1, Chen H., Mu L., Zhang L., Chen Q., Xie H., Xie L. (2017) The acute toxicity of bisphenol A and lignin-derived bisphenol in algae, daphnids, and Japanese medaka. Environmental Science and Pollution Research, Vol. 24: 23872 – 23879.

Cao, X.1, Bi, R.1, Song, Y. (2017) Toxic responses of cytochrome P450 sub-enzyme activities to heavy metals exposure in soil and correlation with their bioaccumulation in Eisenia fetida. Ecotoxicol Environ Safety, Vol. 144: 158-165.

Li D., Chen H., Bi R., Xie H., Zhou Y., Luo Y., Xie L. (2017) Individual and binary mixture effects of bisphenol A and lignin-derived bisphenol in Daphnia magna under chronic exposure. Chemosphere, Vol. 191: 779 – 786.

Wu, X., Wang, S., Chen, H., Jiang, Z., Chen, H., Gao, M., Bi, R., Klerks, P.L., Wang, H. and Luo, Y. (2017) Assessment of metal contamination in the Hun River, China, and evaluation of the fish Zacco platypus and the snail Radix swinhoei as potential biomonitors. Environmental Science & Pollution Research, 1-11.

Chen, H., Cao, J., Li, L., Wu, X., Bi, R., Klerks, P.L. and Xie, L. (2016) Maternal transfer and reproductive effects of Cr (VI) in Japanese medaka (Oryzias latipes) under acute and chronic exposures. Aquatic Toxicology 171(1), 59.

Wu, X., Gao, M., Wang, L., Luo, Y., Bi, R., Li, L. and Xie, L. (2014) The arsenic content in marketed seafood and associated health risks for the residents of Shandong, China. Ecotoxicology & Environmental Safety 102(1), 168.

Li, L., Chen, H., Bi, R. and Xie, L. (2015) Bioaccumulation, subcellular distribution and acute effects of chromium in Japanese medaka (Oryzias latipes). Environmental Toxicology & Chemistry 34(11), 2611-2617.

Bi. R, Schlaak M., Siefert E., Lord R. and Connolly H. (2011). Influence of electrical fields (AC and DC) on phytoremediation of metal polluted soils with rapeseed (Brassica napus) and tobacco (Nicotiana tabacum). Chemosphere 83: 318 – 326.

Bi R., Schlaak M., Siefert E., Lord R. and Connolly H. (2010). Alternating current electrical field effects on lettuce (Lactuca sativa) growing in hydroponic culture with and with cadmium contamination. J. of Applied Electrochemistry 40: 1217 – 1223.

Aboughalma H., Bi R.* and Schlaak M. (2008). Electrokinetic enhancement on phytoremediation in Zn, Pb, Cu and Cd contaminated soil using potato plants. J. of Environmental Science and Health Part A 43: 926 – 933.