历红波 副教授

来源:南京大学生物地球化学与环境修复团队发布时间:2016-08-30编辑:陈焱山



历红波

副教授

邮件:hongboli@nju.edu.cn

办公室:钱盘生楼B519

电话:025–89680631



教育背景

2007/09–2012/12    中国科学院城市环境研究所       环境科学                          理学博士(硕博连读)

2003/09–2007/07    北京师范大学                               环境学院环境工程系      工学学士


科研与工作经历

2016/06–至今         南京大学 环境学院    环境科学系    副教授

2015/01–2016/06    南京大学环境学院     环境科学系    副研究员

2013/01–2014/12    南京大学环境学院     环境科学系    博士后


研究方向

多环境介质重金属的人体生物有效性

重金属的人体健康风险评价

铅稳定同位素源解析溯源

环境质量演变

沉积物重金属生物地球化学


主要荣誉

2015年度南京大学优秀博士后研究人员


主持/参与科研项目

[1]  国家自然科学基金青年项目(21507057): 典型污染区室内灰尘中铅砷人体生物有效性预测模型的构建与应用, 2016/012018/12, 24万元, 主持;

[2]  江苏省自然科学基金青年项目(BK20150573): 基于人体胃肠模拟液体外法的典型污染区室内灰尘中铅砷的生物有效性及人体健康风险研究, 2015/072018/06, 20万元, 主持;

[3]  国家重点研发计划(科技部)项目(2016YFD0800807): 设施农业镉砷污染土壤的植物高效萃取修复技术体系研究与示范子课题"土壤砷中轻度污染植物萃取修复技术与集成", 2016/01–2020/12, 50万元, 在研, 主持;

[4]   江苏省博士后基金A类项目(1301006A): 基于同步辐射X射线和Pb稳定同位素比例技术的中国室内灰尘Pb形态、来源及人体生物可利用性研究, 2013/072014/12, 6万元, 主持;

[5]  国家自然科学基金重点项目(21637002): 土壤水稻体系中砷迁移与阻控及其健康风险研究, 2017/012021/12, 291万元, 参与;

[6]  污染控制与资源化国家重点实验室导向性研究课题: 长三角地区重金属的源解析、污染特征与生态效应研究, 2016/082020/07, 80万元, 在研, 参与


发表论文(第一/通讯作者)

[23] Sun, H. J.#; Li, S. W.#; Li, C.; Wang, W. Q.; Li, H. B.*; Ma, L. Q., Thyrotoxicity of arsenate and arsenite on juvenile mice at organism, subcellular, and gene levels under low exposure. Chemosphere 2017,186, 580-587.

[22]  Li, S. W., X. Liu, H. J. Sun, M. Y. Li, D. Zhao, J. Luo , H. B. Li*, and L. Q. Ma. 2017. Effect of phosphate amendment on relative bioavailability and bioaccessibility of lead and arsenic in contaminated soils. Journal of Hazardous Materials. 339: 256263.

[21]  Zhao, D., R. Y. Liu, P. Xiang, A. L. Juhasz, L. Huang, J. Luo, H. B. Li*, and L. Q. Ma. 2017. Applying cadmium relative bioavailability to assess dietary intake from rice to predict cadmium urinary excretion in nonsmokers. Environmental Science & Technology. 51(12): 6756–6764.

[20]  Li, H., X. Dong, E. B. da Silva, L. M. de Oliveira, Y. Chen*, and L. Q. Ma*. 2017. Mechanisms of metal sorption by biochars: Biochar characteristics and modifications. Chemosphere. 178: 466–478.

[19]  Li,  H. B., J. Li,  D. Zhao, C. Li, X. J. Wang, H. J. Sun, A. L. Juhasz, and L. Q. Ma*. 2017. Arsenic relative bioavailability in rice  using a mouse arsenic urinary excretion bioassay and its application to assess human health risk. Environmental Science & Technology. 51(8): 4689–4696.

[18]  Wang, N., Z. Z. Chang*, X. X. Xue, J. G. Yu, X. X., Shi, L. Q. Ma, and H. B. Li*. 2017. Biochar decreases nitrogen oxide and enhances methane emissions via altering microbial community composition of anaerobic paddy soil. Science of the Total Environment. 581–582: 689–696.

[17]  Li, S. W., H. J. Sun, G.  Wang, X. Y. Cui, A. L. Juhasz, H. B. Li*, and L. Q. Ma*. 2017.  Lead relative bioavailability in soils based on different endpoints of a mouse  model. Journal of Hazardous Materials. 326: 94–100.

[16]  Wang, N., X. M. Xue, A. L. Juhasz, Z. Z. Chang*, and H. B. Li*. 2017. Biochar increases arsenic release from an anaerobic paddy soil due to enhanced microbial reduction of iron and arsenic. Environmental Pollution. 220: 514–522.

[15]  Sun, H. J., P. Xiang, J. Luo, H. C. Hong, H. J. Lin, H. B. Li*, and L. Q. Ma*. 2016. Mechanisms of arsenic disruption on gonadal, adrenal and thyroid endocrine systems in humans: A review. Environment International. 95: 61–68.

[14]  Li, H. B.D. Zhao, J. Li, S. Li, N. Wang, A. L. Juhasz, Y. Zhu, and L. Q. Ma*. 2016. Using the SBRC assay to predict lead relative bioavailability in urban soils: Contaminant source and correlation model.  Environmental Science & Technology. 50: 4989–4996.

[13]  Zhao, D., J. Li, C. Li, A. L. Juhasz, K. G. Schekel, J. Luo, H. B. Li*, and L. Q. Ma*. 2016. Lead relative bioavailability in lip products and their potential health risk to women. Environmental Science & Technology. 50(11): 6036–6043.

[12]  Li, J., C. Li, H. J. Sun, A. L. Juhasz, J. Luo, H. B. Li*, and L. Q. Ma*. 2016. Arsenic relative bioavailability in contaminated soils: Comparison of animal models, dosing schemes and biological endpoints. Environmental Science & Technology. 50(1): 453461.

[11]  Ma, J.# , Y. Liu# , G. Yu# , H. Li# , S. Yu*, Y. Jiang, G. Li, and J. Lin. 2016. Temporal dynamics of urbanization-driven environmental changes explored by metal contamination in  surface sediments in a restoring urban wetland park. Journal of Hazardous Materials. 309: 228–235. (Co–first authors) 

[10]  Li, J., K. Li, M. Cave, H. B. Li*, and L. Q. Ma*. 2015. Lead bioaccessibility in 12 contaminated soils from China: Correlation to lead relative bioavailability and lead in different fractions. Journal of Hazardous Materials. 295: 55–62. 

[9]  Li, J., K. Li, X. Y. Cui , N. T. Basta, L. P. Li,  H. B. Li*,  and L. Q. Ma*. 2015. In vitro  bioaccessibility and in vivo relative  bioavailability in 12 contaminated soils: Method comparison and method  development. Science of the Total Environment. 532: 812820.

[8]  Li, H. B.K. Chen, A. L. Juhasz, L. Huang*, and L. Q. Ma*. 2015. Childhood lead exposure in an industrial town in China: Coupling stable isotope ratios with  bioaccessible lead. Environmental Science & Technology. 49: 5080–5087.

[7]  Li, H. B. , J. Li, Y. G. Zhu, A. L. Juhasz, and L. Q. Ma*. 2015. Comparison of arsenic bioaccessibility in housedust and contaminated soils  based on four in vitro  assays. Science of the Total Environment. 532: 803–811.

[6]  Li, H. B.J. Li,  A. L. Juhasz, and L. Q. Ma*. 2014. Correlation of in vivo relative  bioavailability to in vitro bioaccessibility for arsenic in household dust from  China and its implication for human exposure assessment. Environmental Science & Technology. 48: 13652–13659.

[5]  Li, H. B.,  X. Y. Cui, K. Li, J. Li, A. L. Juhasz, and L. Q. Ma*. 2014. Assessment of in vitro lead bioaccessibility in house dust and its relationship to in vivo lead  relative bioavailability. Environmental Science & Technology. 48: 85488555.

[4]  Li, H., S. Yu*, G. Li, H. Deng, B. Xu, J. Ding, J. Gao, Y. Hong, and  M. Wong. 2013. Spatial distribution and historical records of mercury  sedimentation in urban lakes under urbanization impacts. Science of the Total Environment. 445–446: 117–125.

[3]  Li, H., S. Yu*, G. Li, and H. Deng. 2012. Lead contamination and source in Shanghai in the past century using dated sediment  cores from urban park lakes. Chemosphere. 88: 1161–1169.

[2]  Li, H., S. Yu*, G. Li, Y. Liu, G. Yu, H. Deng, S. Wu, and M. Wong. 2012. Urbanization increased metal levels in lake surface sediment and catchment  topsoil of waterscape parks. Science of the Total Environment. 432: 202–209.

[1]  Li, H., S. Yu*, G. Li, H. Deng, and X. Luo. 2011. Contamination and source differentiation of Pb in park soils along an urbanization gradient in Shanghai. Environmental Pollution. 159: 3536–3544.


发表论文(合作论文)

[17]  Han, Y. H., X. Liu, B. Rathinasabapathi, H. B. Li, Y. Chen*, and L. Q. Ma. 2017. Mechanisms of efficient As solubilization in soils and As accumulation by As-hyperaccumulator Pteris vittata.  Environmental Pollution. 227: 569577.   

[16]  Li, S. W., H. Sun, H. B. Li, J. Luo*, and L. Q. Ma*. 2016. Accessment of cadmium bioaccessibility to predict its bioavailability in contaminated soils. Environment International. 94: 600606.

[15]  Li, S. W., H. B. Li, J. Luo, H. M. Li, X. Qian, M.  M. Liu, J. Bi, X. Y. Cui*, L. Q. Ma*. 2016. Influence of pollution control on  lead inhalation bioaccessibility in PM2.5: A case study of 2014 Youth Olympic Games in Nanjing. Environment International. 94: 69–75.

[14]  Wang  C., X. Y. Cui*, Y. Li*, H. Li, L. Huang, J. Bi, J. Luo, L. Q. Ma, W. Zhou, Y.  Cao, B. Wang, and F. Miao*. 2016. A label-free and portable graphene FET aptasensor for children blood lead detection. Scientific Reports. 6: 21711.

[13]  Li, S. W., J. Li, H. B. Li,  R. Naidu, and L. Q. Ma*. 2015. Arsenic bioaccessibility in contaminated soils:  Coupling in vitro assays with sequential and HNO3 extraction. Journal of Hazardous Materials. 295: 145–152.

[12]  Sun, H. J., H. B. Li, P. Xiang, X. Zhang, and L. Q. Ma*. 2015. Short-term exposure of arsenite disrupted thyroid endocrine system and  altered gene transcription in the HPT axis in Zebrafish. Environmental Pollution. 205: 145–152.

[11]  Zhao, D., H. B. Li, J. Y. Xu, J. Luo, and L. Q.  Ma*. 2015. Arsenic extraction and speciation in plants: Method comparison and development. Science of the Total Environment. 523: 138–145.

[10]  Wang, N., Z. Chen, H. B. Li, J. Q. Su, F. Zhao, and Y. G. Zhu*. 2015. Bacterial community composition at anodes of  microbial fuel cells for paddy soils: the effects of soil properties. Journal of Soils and Sediments. 15: 926–936.

[9]  Wang, N., L. J. Ding, H. J. Xu, H. B. Li, J. Q. Su*, and Y. G. Zhu. 2015. Variability in responses of bacterial communities and nitrogen oxide emission to urea fertilization among various  flooded paddy soils. FEMS Microbiology Ecology. 91: 1–11.

[8]  Chen, K., L.  Huang*, B. Yan, H. Li, H. Sun*, and J. Bi. 2014. Effect of lead  pollution control on environmental and childhood blood lead level in Nantong, China: An interventional study. Environmental Science & Technology. 48: 12930–12936.

[7]  Xu, J. Y., H. B. Li, S. Liang,  J. Luo, and L. Q. Ma*. 2014. Arsenic enhanced plant growth and altered rhizosphere characteristics of hyperaccumulator Pteris vittata. Environmental Pollution. 194: 105111.

[6]  Chen, Y. S., S. Yu*, Y. W. Hong, Q. Y. Lin, and H. B. Li. 2013. Pharmaceutical residues in tidal surface sediments of three rivers in southeastern China at detectable and measurable  levels. Environmental Science and Pollution Research. 20: 1–13.

[5]  Wang, N. H. B. Li, J. L. Long, C. Cai, J. L. Dai*, J. Zhang, R. Q. Wang. 2012. Contamination, source, and input route of polycyclic aromatic hydrocarbons in historic wastewater-irrigated agricultural soils. Journal of Environmental Monitoring. 14: 3076–3085.

[4]  Luo, X. S., J. Ding, B. Xu, Y. J. Wang, H. B. Li, and S. Yu*. 2012. Incorporating bioaccessibility into human health risk assessments of heavy  metals in urban park soils. Science of the Total Environment. 424: 88–96.

[3]  Liang, P.,  S. C. Wu, Y. C. Li, H. B. Li, G. B. Yu, S. Yu*, and M. H. Wong*. 2012. The effects of mariculture activities on the adsorption/desorption and chemical  fractionations of mercury on sediments. Marine Pollution Bulletin. 65: 836–843.

[2]  Li, H. J.*, J. J. Peng, H. B. Li. 2012. Diversity and characterization of potential H2-dependent Fe(III)-reducing bacteria in paddy soils. Pedosphere. 22: 673–380.

[1]  Yu, G. B., Y. Liu, S. Yu*, S. C. Wu, A.O.W. Leung, X. S. Luo, B. Xu, H. B. Li, and M. H. Wong. 2011. Inconsistency and  comprehensiveness of risk assessments for heavy metals in urban surface  sediments. Chemosphere. 85: 1080–1087.


参加学术会议

[1]  June 2016, The Fourth Metal Environmental Research Consortium in China  (MERC). Shenzhen, China.

[2]  November 2015. The 8th National Conference on  Environmental Chemistry, Guangzhou, Guangdong, China. Poster Presentation.

[3]  October 2015. 8th International Workshop on Chemical Bioavailability in the  Terrestrial Environment, Nanjing, Jiangsu, China. Conference Sectary.

[4]  July  2015. The 13th International Conference on the Biogeochemistry of Trace Elements  (ICOBTE 2015). Fukuoka, Japan. Oral Presentation.

[5]  September 2013, The Seventh  National Conference on Environmental Chemistry, Guiyang, Guizhou, China. Oral  Presentation.

[6]  October 2012, GeoTrop 2012: The 9th International Conference on  Environmental and Public Health Management: Towards Better Health and  Well-being. Chulalongkorn University, Bangkok, Thailand. Oral Presentation.

[7]  December 2011, Chinese First International Workshop on Environment and Health,  Institute of Urban Environment, CAS, Xiamen, China. Poster Presentation.

[8]  December 2011, International Conference on Deriving Environmental Quality  Standards for the Protection of Aquatic Ecosystems (EQSPAE–2011), the  University of Hong Kong, Hong Kong, China. Poster Presentation.

[9]  September  2011, The Sixth National Conference on Environmental Chemistry, Shanghai, China.  Poster Presentation.

[10]  November, 2010, The Sixth International Conference on  Environmental Geochemistry in Tropics–Urban Issues (GeoTrop 2010), Institute of  Urban Environment, CAS, Xiamen, China. Poster Presentation.

[11]  December 2008,  International Workshop on Urban Wetland Ecology and Restoration, Institute of  Urban Environment, CAS, Xiamen, China. Poster Presentation.