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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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电话:025-89680637 (陆老师)

E-mail: biogeochemnju@163.com

      

2015年(27篇

[27]  Chen, H., B. Gao, L. Y. Yang, and L. Q. Ma*. 2015. Montmorillonite enhanced ciprofloxacin transport in saturated porous media with sorbed ciprofloxacin showing antibiotic activity. Journal of Contaminant Hydrology. 173:1–7.

[26]  Cui,  X. Y.,  S. W. Li, S. J. Zhang, Y. Y. Fan, and L. Q. Ma*. 2015. Toxic metals in childrens toys and jewelry: Coupling bioaccessibility with risk assessment. Environmental Pollution. 200: 7784.

[25]  Chen, Y. S., Y. H. Han, B. Rathinasabapathi, and L. Q. Ma*. 2015. Naming and functions of ACR2, arsenate reductase, and ACR3 arsenite  efflux  transporter in plants (correspondence on: Kumar, S., Dubey, R.S., Tripathi, R.D., Chakrabarty, D., Trivedi, P.K., 2015. Omics and biotechnology of arsenic stress and detoxification in plants: current updates and prospective. Environ Int. 74:221–230.). Environment International. 81: 98–99.
[24]  de Oliveira, L. M., J. T. Lessl, J. K. Gress, R. Tisarum, L. R. G. Guilherme, and L. Q. Ma*. 2015. Chromate and phosphate inhibited each other’s uptake and translocation in arsenic hyperaccumulator Pteris vittata L. Environmental  Pollution. 197: 240–246.

[23]  Ghosh, P., B. Rathinasabapathi, and L. Q. Ma*. 2015. Phosphorus solubilization and plant growth enhancement by arsenic-resistant bacteria. Chemosphere. 134: 1–6.

[22]  Ghosh, P., B. Rathinasabapathi, M. Teplitski, and L. Q. Ma*. 2015. Bacterial ability in AsIII oxidation and AsV reduction: Relation to arsenic tolerance, P uptake, and siderophore production. Chemosphere. 138:995–1000.

[21]  Gress, J. K., L. M. de Oliveira, E. B. da Silva, T. Townsend, P. C. Wilson, and L. Q. Ma*. 2014. Cleaning-induced arsenic mobilization and chromium oxidation from CCA-wood deck: Potential risk to children. Environment International. 82: 35–40.

[20]  Guan, D. X., P. N. Williams, J.  Luo*, J. L. Zheng, H. C. Xu, C. Cai, and L. Q. Ma. 2015. Novel precipitated zirconia-based DGT technique for high-resolution imaging of oxyanions in waters and sediments. Environmental Science & Technology. 49(6): 36533661.

[19]  Lessl, J. T, D. X. Guan, E. Sessa, B. Rathinasabapathi, and L. Q. Ma*. 2015. Transfer of arsenic and phosphorus from soils to the fronds and spores of arsenic hyperaccumulator Pteris vittata and three non-hyperaccumulators. Plant and Soil. 390: 49–60.

[18]  Li, C., X. Y. Cui*, Y. Y. Fan, Y. Teng, Z. R. Nan, and L. Q. Ma. 2015. Tenax as sorption sink for in vitro bioaccessibility measurement of polycyclic aromatic hydrocarbons in soils. Environmental Pollution. 196: 4752.

[17]  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.

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

[15]  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.

[14]  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.

[13]   Li,  K., C. Li, N. Y. Yu, A. L. Juhasz, X.  Y. Cui*,  and L. Q. Ma*. 2015In vivo bioavailability and in  vitro bioaccessibility of perfluorooctanoic acid (PFOA) in food matrices: Correlation analysis and  method development. Environmental  Science & Technology.  49: 150158.

[12]  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.

[11]  Liu, X., G. M. Yang, D. X. Guan, P. Ghosh, and L. Q. Ma*. 2015. Catecholate-siderophore produced by As-resistant bacterium effectively dissolved FeAsO4 and promoted Pteris vittata growth. Environmental  Pollution. 206: 376–381.

[10]  Pan, Y., D. X. Guan, D.  Zhao,  J.  Luo*, H. Zhang, W. Davison, and L. Q. Ma. 2015. Novel speciation method based on diffusive gradients in thin-films for in situ measurement of CrVI in  aquatic  systems. Environmental  Science & Technology. 49(24): 14267–14273.

[9]  Ren, J., P. N. Williams, J.  Luo*, H. Ma, X. Wang. 2015. Sediment  metal bioavailability in Lake Taihu, China: Evaluation of sequential extraction, DGT, and PBET techniques. Environmental Science and Pollution Research. 22(17): 12919–12928.

[8]  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.

[7]  Tisarum, R., J. H. Ren, X. Dong, H. Chen, J. T. Lessl, and L. Q. Ma*. 2015. A new method for antimony speciation in plant tissues and nutrient solutions based on SPE-cartridge. Talanta. 144: 1171–1175.

[6]  Tisarum, R., Y. Chen, X. Dong, J. T. Lessl, and L. Q. Ma*. 2015. Uptake of antimonite and antimonate by arsenic hyperaccumulator Pteris vittata: Effects of chemical analogs and  transporter inhibitor. Environmental  Pollution. 206: 4955.

[5]  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.

[4]  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.

[3]  Wang, X.*, B. Peng, C. Tan, L. Ma, and B. Rathinasabapathi. 2015. Recent advances in arsenic bioavailability, transport, and speciation in rice. Environmental Science and Pollution Research. 22: 5742–5750.

[2]  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.

[1]  Zheng, J. L., D. X. Guan,  J.  Luo*,  H. Zhang, W. Davison, X. Y. Cui,  L. H. Wang, and L. Q. Ma. 2015. Activated charcoal based diffusive gradients in thin-films for in situ monitoring of bisphenols in waters. Analytical  Chemisty. 87: 801807.