| Rejinold N S, Thomas R G, Muthiah M, et al. Breast tumor targetable Fe3O4 embedded thermo-responsive nanoparticles for radiofrequency assisted drug delivery[J]. Journal of Biomedical Nanotechnology, 2016, 12(1):43-55 |
| Wan Ibrahim W A, Nodeh H R, Aboul-Enein H Y, et al. Magnetic solid-phase extraction based on modified ferum oxides for enrichment, preconcentration, and isolation of pesticides and selected pollutants[J]. Critical Reviews in Analytical Chemistry, 2015, 45(3):270-287 |
| 刘清凤. 松花江吉林省段表层沉积物中重金属污染研究[D]. 长春:东北师范大学, 2007:13-16 Liu Q F. Research on heavy metal pollution in the surficial sediments of Songhua River, Jilin Province area[D]. Changchun:Northeast Normal University, 2007:13 -16(in Chinese) |
| Förstner U. Sediment-associated contaminants-An overview of scientific bases for developing remedial options[J]. Hydrobiologia, 1987, 149(1):221-246 |
| Lee C, Kim J Y, Lee W I, et al. Bactericidal effect of zero-valent iron nanoparticles on Escherichia coli[J]. Environmental Science & Technology, 2008, 42(13):4927-4933 |
| Diao M H, Yao M S. Use of zero-valent iron nanoparticles in inactivating microbes[J]. Water Research, 2009, 43(20):5243-5251 |
| Xie Y X, Liu D J, Cai C L, et al. Size-dependent cytotoxicity of Fe3O4 nanoparticles induced by biphasic regulation of oxidative stress in different human hepatoma cells[J]. International Journal of Nanomedicine, 2016, 11:3557-3570 |
| Lei C, Zhang L Q, Yang K, et al. Toxicity of iron-based nanoparticles to green algae:Effects of particle size, crystal phase, oxidation state and environmental aging[J]. Environmental Pollution, 2016, 218:505-512 |
| Zhang Y, Zhu L, Zhou Y, et al. Accumulation and elimination of iron oxide nanomaterials in zebrafish (Danio rerio) upon chronic aqueous exposure[J]. Journal of Environmental Sciences, 2015, 30:223-230 |
| Musee N, Oberholster P J, Sikhwivhilu L, et al. The effects of engineered nanoparticles on survival, reproduction, and behaviour of freshwater snail, Physa acuta (Draparnaud, 1805)[J]. Chemosphere, 2010, 81(10):1196-1203 |
| Galloway T, Lewis C, Dolciotti I, et al. Sublethal toxicity of nano-titanium dioxide and carbon nanotubes in a sediment dwelling marine polychaete[J]. Environmental Pollution, 2010, 158(5):1748-1755 |
| Kelly B C, Ikonomou M G, Blair J D, et al. Food web-specific biomagnification of persistent organic pollutants[J]. Science, 2007, 317(5835):236-239 |
| Burton G A Jr. Assessing the toxicity of freshwater sediments[J]. Environmental Toxicology and Chemistry, 1991, 10(12):1585-1627 |
| Dwivedi S, Siddiqui M A, Farshori N N, et al. Synthesis, characterization and toxicological evaluation of iron oxide nanoparticles in human lung alveolar epithelial cells[J]. Colloids and Surfaces B:Biointerfaces, 2014, 122:209-215 |
| Vale G, Mehennaoui K, Cambier S, et al. Manufactured nanoparticles in the aquatic environment-biochemical responses on freshwater organisms:A critical overview[J]. Aquatic Toxicology, 2016, 170:162-174 |
| Organization for Economic Co-operation and Development (OECD). Test No. 233:Sediment-water chironomid life-cycle toxicity test using spiked water or spiked sediment[R]. Paris:OECD, 2010 |
| Salomons W. Sediments and water[J]. Environmental Technology Letters, 2015, 6(1-11):315-326 |
| Rezaee Ebrahim Saraee K, Abdi M R, Naghavi K, et al. Distribution of heavy metals in surface sediments from the South China Sea ecosystem, Malaysia[J]. Environmental Monitoring and Assessment, 2011, 183(1-4):545-554 |
| Linnik P M, Zubenko I B. Role of bottom sediments in the secondary pollution of aquatic environments by heavy-metal compounds[J]. Lakes and Reservoirs, 2000, 5(1):11-21 |
| Canesi L, Ciacci C, Balbi T. Interactive effects of nanoparticles with other contaminants in aquatic organisms:Friend or foe?[J]. Marine Environmental Research, 2015, 111:128-134 |
| Nel A, Xia T, Mädler L, et al. Toxic potential of materials at the nanolevel[J]. Science, 2006, 311(5761):622-627 |
| 文文. 超小尺寸Fe3O4纳米粒的毒性研究[D]. 镇江:江苏大学, 2020:47-50 Wen W. Research on toxicity of ultra-small Fe3O4 nanoparticles[D]. Zhenjiang:Jiangsu University, 2020:47-50(in Chinese) |
| Kumari J, Kumar D, Mathur A, et al. Cytotoxicity of TiO2 nanoparticles towards freshwater sediment microorganisms at low exposure concentrations[J]. Environmental Research, 2014, 135:333-345 |
| 陶维. 纳米银在湘江水体中的迁移转化及对沉积物重金属的影响研究[D]. 长沙:湖南大学, 2017:29-44 Tao W. Transformation of silver nanoparticles and impact on heavy metals of sediment in the Xiangjiang River[D]. Changsha:Hunan University, 2017:29 -44(in Chinese) |
| Lammel T, Thit A, Cui X J, et al. Trophic transfer of CuO NPs from sediment to worms (Tubifex tubifex) to fish (Gasterosteus aculeatus):A comparative study of dissolved Cu and NPs enriched with a stable isotope tracer (65Cu)[J]. Environmental Science:Nano, 2020, 7(8):2360-2372 |
| Goya G F, Berquó T S, Fonseca F C, et al. Static and dynamic magnetic properties of spherical magnetite nanoparticles[J]. Journal of Applied Physics, 2003, 94(5):3520-3528 |
| 马萍, 杜娟, 罗清, 等. 纳米Fe3O4对小鼠肺细胞的氧化损伤[J]. 生态毒理学报, 2012, 7(1):44-48 Ma P, Du J, Luo Q, et al. Oxidative damage of mouse lung cells induced by Fe3O4 nanoparticles[J]. Asian Journal of Ecotoxicology, 2012, 7(1):44-48(in Chinese) |
| McCarthy J F, Burrus L W, Tolbert V R. Bioaccumulation of benzo(a)pyrene from sediment by fathead minnows:Effects of organic content, resuspension and metabolism[J]. Archives of Environmental Contamination and Toxicology, 2003, 45(3):364-370 |
| Dedeh A, Ciutat A, Treguer-Delapierre M, et al. Impact of gold nanoparticles on zebrafish exposed to a spiked sediment[J]. Nanotoxicology, 2015, 9(1):71-80 |
| 汪冰,陈汉青,周晓艳,等. 四氧化三铁纳米材料暴露对果蝇卵子发生和胚胎发育时序的影响[C]. 广州:中国毒理学会第六届全国毒理学大会, 2013 |
| 姜宇, 阎一林, 朱国兴, 等. 铁过载对斑马鱼成骨影响的机制[J]. 中国骨质疏松杂志, 2016, 22(6):713-717 Jiang Y, Yan Y L, Zhu G X, et al. The effect and mechanism of iron overload on zebra fish osteogenesis[J]. Chinese Journal of Osteoporosis, 2016, 22(6):713-717(in Chinese) |
| 徐金, 刘绍明. 铁离子对大脑毒性的研究进展[J]. 医学综述, 2012, 18(15):2383-2385 Xu J, Liu S M. Research progress of toxicity of iron ion to brain[J]. Medical Recapitulate, 2012, 18(15):2383-2385(in Chinese) |
| Zhang H, Zhabyeyev P, Wang S H, et al. Role of iron metabolism in heart failure:From iron deficiency to iron overload[J]. Biochimica et Biophysica Acta-Molecular Basis of Disease, 2019, 1865(7):1925-1937 |
| Barhoumi L, Dewez D. Toxicity of superparamagnetic iron oxide nanoparticles on green alga Chlorella vulgaris[J]. BioMed Research International, 2013, 2013:647974 |