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地址:江苏省南京市栖霞区仙林大道163号

南京大学仙林校区环境学院A530

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E-mail: biogeochemnju@163.com

      

2016年(24篇

[25] Guan, D. X., P. N. Williams, H. C. Xu,  G. Li, J. Luo*, and L. Q. Ma. 2016. High-resolution measurement and mapping of  tungstate in waters, soils and sediments using the low-disturbance DGT sampling  technique. Journal of Hazardous Materials  . 316: 69–76.   

[24]  Chen, Y.J. W. Fu, Y. H. Han, B. Rathinasabapathi, and L. Q. Ma*. 2016. High As exposure induced substantial arsenite efflux in As-hyperaccumulator Pteris vittata. Chemosphere. 144: 21892194.

[23]  de Oliveria, L. M., J. Gress, J. De, B. Rathinasabapathi, G. Marchi, Y. Chen*, and L. Q. Ma*. 2016. Sulfate and chromate increased each other's uptake and translocation in As-hyperaccumulator Pteris vittata. Chemosphere. 147: 3643.

[22]  Cui, X. Y., P. Xiang, R. W. He, A. L. Juhasz, and L. Q. Ma*. 2016. Advances in in vitro methods to evaluate oral bioaccessibility of PAHs and PBDEs in environmental matrices. Chemosphere. 150: 378–389.

[21]  Gress, J., E. B. Silva, L. M. Oliveira, D. Zhao, G. Anderson, D. Heard, L. D. Stuchal, and L. Q. Ma*. 2016. Potential arsenic exposures in 25 species of zoo animals living in CCA-wood enclosures. Science of the Total Environment. 551–552: 614–621.

[20]  Han, Y. H., J. W. Fu, Y. Chen, B. Rathinasabapathi, and L. Q. Ma*. 2016. Arsenic uptake, arsenite efflux and plant growth in hyperaccumulator Pteris vittata: Role of arsenic-resistant bacteria. Chemosphere. 144: 1937–1942.

[19] Han, Y. H., G. M. Yang, J. W. Fu, D. X. Guan, Y. Chen, and L. Q. Ma*. 2016. Arsenic-induced plant growth of arsenic-hyperaccumulator Pteris vittata: Impact of arsenic and phosphate rock. Chemosphere. 149: 366–372.

[18]  He, R., Y. Li, P. Xiang, C. Li, C. Zhou, S. Zhang, X. Cui*, and L. Q. Ma*. 2016. Organophosphorus flame retardants and phthalate esters in indoor dust from different microenvironments: Bioaccessibility and risk assessment. Chemosphere. 150: 528–535.

[17]  Li, C., H. J. Sun, A. L. Juhasz, X. Cui*, and L. Q. Ma*. 2016. Prediction of DDTr relative bioavailability in historically-contaminated soils using a Tenax-improved  physiologically-based extraction test (TI-PBET). Environmental Science & Technology. 50: 11181125.

[16]  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.

[15]  Li, S. W., H. B. Li, J. Luo, H. M. Li, X. Qian, M.  M. Liu, J. Bi, X. Y. Cui*, and 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]  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.

[13]  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.

[12]  Liang, S.,  D. X. Guan, J. Li, C.Y. Zhou, J. Luo*, and L. Q. Ma*. 2016. Effect of aging on  bioaccessibility of arsenic and lead in soils. Chemosphere. 151: 94100.

[11]  Liu, X., J. W. Fu, D. X. Guan, Y. Cao, J. Luo, B. Rathinasabapathi, Y. Chen*, and L. Q. Ma*. 2016. Arsenic induced phytate exudation, and promoted FeAsO4 dissolution and plant growth in As-hyperaccumulator Pteris vittata. Environmental Science & Technology. 50(17): 9070–9077.

[10]  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 author)

[9]  Sun, H. J., P. Xiang, M. H. Tang, L. Sun, and L. Q. Ma*. 2016. Arsenic impacted the development, thyroid hormone and gene transcription of thyroid hormone receptors in bighead carp larvae (Hypophthalmichthys nobilis). Journal of Hazardous Materials. 303: 76–82.

[8]  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.

[7]  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.

[6]  Xiang, P., R. Y. Liu, H. J. Sun, Y. H. Han, R. W. He, X. Y. Cui, and L. Q. Ma*. 2016. Molecular mechanisms of dust-induced toxicity in human corneal  epithelial cells: Water and organic extract of office and house dust. Environment International. 92–93: 348–356.

[5]  Xiang, P., R. W. He, Y. H. Han, H. J. Sun, X. Y. Cui, and L. Q. Ma*. 2016. Mechanisms of housedust-induced toxicity in primary human corneal epithelial cells: Oxidative stress, pro-inflammatory response and mitochondrial dysfunction. Environment International. 89–90: 30–37.

[4]  Xu, J. Y., Y. H. Han, Y. Chen, L. J. Zhu, and L. Q. Ma*. 2016. Arsenic transformation and plant growth promotion characteristics of  As-resistant endophytic bacteria from As-hyperaccumulator Pteris vittata. Chemosphere. 144: 1233–1240.

[3]  Zhang, K. M., Y. Shen, X. Q. Zhou, Y. M. Fang*, Y. Liu, and L.Q Ma. 2016. Photosynthetic electron-transfer reactions in the gametophyte of Pteris multifida reveal the presence of allelopathic interference from the invasive plant species Bidens pilosa. Journal of Photochemistry and Photobiology B: Biology. 158: 81–88.

[2]  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.

[1]  Zhou, C. Y., D. X. Guan, P. N. Williams, J. Luo*, and L. Q. Ma. 2016. Novel DGT method with tri-metal oxide adsorbent for in situ spatiotemporal flux measurement of fluoride in waters and sediments. Water Research. 99: 200–208.