Accumulation of platinum nanoparticles by Sinapis alba and Lepidium sativum plants

Water, Air, and Soil Pollution

Volumn 226, Issue 4, 2015, Pages

  Asztemborska, Monika ^a   Steborowski, Romuald ^a   Kowalska, Joanna ^a   Bystrzejewska Piotrowska, Grazyna ^a  

^a UNIVERSITY OF WARSAW   (Poland)

Author keywords

Accumulation; Lepidium sativum; Nanoparticles; Plants; Platinum; Sinapis alba

Indexed keywords

BIOREMEDIATION; HISTOLOGY; MASS SPECTROMETRY; METAL NANOPARTICLES; METAL RECOVERY; NANOPARTICLES; PRECIOUS METALS; SPECTROMETRY; TISSUE;

ABOVEGROUND ORGANS; ACCUMULATION; FUTURE APPLICATIONS; LEPIDIUM SATIVUM; NANOPARTICLE (NPS); PLANTS; PLATINUM NANO-PARTICLES; SINAPIS ALBA;

PLATINUM;

PLATINUM NANOPARTICLE;

ANGIOSPERM; BIOACCUMULATION; BIOLOGICAL UPTAKE; CONCENTRATION (COMPOSITION); PHYTOREMEDIATION; PLATINUM; TRANSLOCATION;

ARTICLE; BIOACCUMULATION; CONCENTRATION (PARAMETERS); GAMMA SPECTROMETRY; IRRADIATION; LEPIDIUM SATIVUM; MASS SPECTROMETRY; METAL TOLERANCE; NANOANALYSIS; NONHUMAN; PARTICLE SIZE; PLANT LEAF; PLANT ROOT; PLANT TISSUE; PLANT TISSUE CULTURE; SHOOT; SINAPIS ALBA; SPECIES COMPARISON; TRANSMISSION ELECTRON MICROSCOPY;

LEPIDIUM SATIVUM; SINAPIS ALBA;

EID: 84926657651     PISSN: 00496979     EISSN: 15732932     Source Type: Journal    
DOI: 10.1007/s11270-015-2381-y     Document Type: Article

References (26)

1. Bali, R., Siegele, R., & Harriset, A. T. (2010). Biogenic Pt uptake and nanoparticle formation in Medicago sativa and Brassica juncea. Journal of Nanoparticle Research, 12, 3087-3095.
2. Bhattacharya, R., & Murkherjee, P. (2008). Biological properties of "naked" metal nanoparticles. Advanced Drug Delivery Reviews, 60, 1289-1306.
3. Bystrzejewska-Piotrowska, G., Golimowski, J., & Urban, L. (2009). Nanoparticles: their potential toxicity, waste and environmental management. Waste Management, 29(9), 2587-2595.
4. Bystrzejewska-Piotrowska, G., Asztemborska, M., Steborowski, R., Ryniewicz, J., Polkowska-Motrenko, H., & Danko, B. (2012). Application of neutron activaton for investigation of Fe3O4 nanoparticles accumulation by plants. Nukleonika, 57(3), 427-430.
5. Devi, G. S., & Rao, V. J. (2000). Room temperature synthesis of colloidal platinum nanoparticles. Bulletin of Materials Science, 23(6), 467-470.
6. Environmental Protection Agency, USA, (2000) Introduction to phytoremediation, EPA/600/R-99/10, 2000.
7. Gao, J., Liang, G., Zhang, B., Kuang, Y., Zhang, X., & Xu, B. (2007). FePt@CoS2 yolk-shell nanocrystals as a potent agent to kill HeLa cells. Journal of the American Chemical Society, 129, 1428-1433.
8. Hawienczyk, M., Bystrzejewska-Piotrowska, G., Kowalska, J., & Asztemborska, M. (2005). Platinum bioaccumulation by mustard plants (Sinapis alba L.). Nukleonika, 50, S59-S61.
9. Harris, A. T., & Bali, R. (2008). On the formation and extent of uptake of silver nanoparticles by live plants. Journal of Nanoparticles Research, 10, 691-695.
10. Kaushik, N., Thakkar, M. S., Snehit, S., Mhatre, M. S., Rasesh, Y., & Parikh, M. S. (2010). Biological synthesis of metallic nanoparticles. Nanomedicine: Nanotechnology, Biology and Medicine, 6, 257-262.
11. Kidd, P., Barcelo, J., Bernal, M. P., Navari-Izzo, F., Poschenrieder, C., Shilev, S., Clementec, R., & Monterroso, C. (2009). Trace element behaviour at the root-soil interface: implications in phytoremediation. Environmental and Experimental Botany, 67(1), 243-259.
12. Konishi, Y., Ohno, K., Saitoh, N., Nomura, T., Nagamine, S., Hishida, H., Takahashi, Y., & Uruga, T. (2007). Bioreductive deposition of platinum nanoparticles on the bacterium Shewanella algae. Journal of Biotechnology, 128, 648-653.
13. Kowalska, J., Huszał, S., Sawicki, M. G., Asztemborska, M., Stryjewska, E., Szalacha, E., Golimowski, J., & Gawroński, S. W. (2004a). Voltammetric determination of platinum in plant material. Electroanalysis, 16(15), 1266.
14. Kowalska, J., Asztemborska, M., & Bystrzejewska-Piotrowska, G. (2004b). Platinum uptake by mustard (Sinapis alba L.) and maize (Zea mays L.). Nukleonika, 49, S31-S34.
15. Lee, W., An, Y., Yoon, H., & Kweon, H. (2008). Toxicity and bioavailability of copper nanoparticles to the terrestrial plants mung bean (Phaseolus radiatus) and wheat (Triticum awstivum): plant uptake for water insoluble nanoparticles. Environmental Toxicology and Chemistry, 27(9), 1915-1921.
16. Lin, D., & Xing, B. (2008). Root uptake and phytotoxicity of ZnO nanoparticles. Environmental Science and Technology, 42, 5580-5585.
17. Lin, S., Reppert, J., Hu, Q., Hunson, J. S., Reid, M. L., & Ratnikova, T. (2009). Uptake, translocation and transmission of carbon nanomaterials in rice plants. Small, 5(10), 1128-1132.
18. Luo, X., Morrin, A., Killard, A. J., & Smyth, M. R. (2006). Application of nanoparticles in electrochemical sensors and biosensors. Electroanalysis, 18(4), 319-326.
19. Maynard, A. D., Aitken, R. J., Butz, T., Colvin, V., Donaldson, K., Oberdorster, G., Philbert, M. A., Ryan, J., Seaton, A., Stone, V., Tinkle, S. S., Tran, L., Walker, N. J., & Warheit, D. B. (2006). Safe handling of nanotechnology. Nature, 444, 267-269.
20. Mohanpuria, P., Rana, N. K., & Yadav, S. K. (2008). Biosynthesis of nanoparticles: technological concepts and future applications. Journal of Nanoparticle Research, 10, 507-517.
21. Oberdorster, G., Maynard, A., Donaldson, K., Castranova, V., Fitzpatrick, J., Ausman, K., Carter, J., Karn, B., Kreyling, W., Lai, D., Olin, S., Monteiro-Riviere, N., Warheit, D., & Yang, H. (2005). Principles for characterizing the potential human health effects from exposure to nanomaterials: elements of a screening strategy. Particle and Fibre Toxicology, 2, 8-43.
22. Oughton, D. H., Hertel-Aas, T., Pollicer, E., Mendoza, E., & Joner, E. J. (2008). Neutron activation of engineered nanoparticles as a tool for tracing their environmental fate and uptake in organisms. Environmental Toxicology and Chemistry, 27(9), 1883-1887.
23. Paz-Alberto, A. M., & Sigua, G. C. (2013). Phytoremediation: a green technology to remove environmental pollutants. American Journal of Climate Change, 2, 71-86.
24. Rejeski, D., & Lekas, D. (2008). Nanotechnology field observations: scouting the new industrial west. Journal of Cleaner Production, 16, 1014-1017.
25. Song, J. Y., Kwon, E. Y., & Kim, B. S. (2010). Biological synthesis of platinum nanoparticles using Diospyros kaki leaf extract. Bioprocess and Biosystems Engineering, 33, 159-164.
26. Zhu, H., Han, J., Xiao, J. Q., & Jin, Y. (2008). Uptake, translocation and accumulation of manufactured iron oxide nanoparticles by pumpkin plants. Journal of Environmental Monitoring, 10, 713-717.