Urban Biology!
Urban Biology!

References - Bioremediation against nuclear radiation

(1) World Nuclear Association (n.d.). Safety of Plants. Retrieved June 29, 2015, from: http://www.world-nuclear.org/info/Safety-and-Security/Safety-of-Plants/.

(2) Ojovan, M. I., & Lee, W. E. (2013). An introduction to nuclear waste immobilisation. Waltham, MA: Elsevier

(3) Lee, K. Y., Kim, K. W., Baek, Y. J., Chung, D. Y., Lee, E. H., Lee, S. Y., & Moon, J. K. (2014). Biosorption of uranium (VI) from aqueous solution by biomass of brown algae Laminaria japonica. Water Science & Technology, 70 (1), 136-143.

(4) Fu, F., & Wang, Q. (2011). Removal of heavy metal ions from wastewaters: A review. Journal of Environmental Management, 92 (3), 407-418.

(5) World Nuclear Association (2014, March). What is Uranium? How does it work? Retrieved June 29, 2015, from: http://www.world-nuclear.org/info/Nuclear-Fuel-Cycle/Introduction/What-is-Uranium--How-Does-it-Work-/.

(6) Prakash, D., Gabani, P., Chandel, A. K., Ronen, Z., & Singh, O. V. (2013). Bioremediation: a genuine technology to remediate radionuclides from the environment. Microbial biotechnology, 6(4), 349-360.

(7) Poschl, M., & Nollet, L. M. (2010). Radionuclide concentrations in food and the environment. Boca Raton, FL: CRC Press.

(8) World health organisation (2012, November). Ionizing radiation, health effects and protective measures. Retrieved June 29, 2015, from: http://www.who.int/mediacentre/factsheets/fs371/en/.

(9) United Nations. Scientific Committee on the Effects of Atomic Radiation. (2000). Sources and effects of ionizing radiation: sources (Vol. 1). New York, NY: United Nations Publications.

(10) O'Brien, R. D., & Wolfe, L. S. (2013). Radiation, Radioactivity, and Insects: Prepared Under the Direction of the American Institute of Biological Sciences for the Division of Technical Information, United States Atomic Energy Commission. Burlington: Elsevier Science.

(11) Misra, C. S., Mukhopadhyaya, R., & Apte, S. K. (2014). Harnessing a radiation inducible promoter of Deinococcus radiodurans for enhanced precipitation of uranium. Journal of biotechnology, 189, 88-93.

(12) Slade, Dea, and Miroslav Radman. "Oxidative stress resistance in Deinococcus radiodurans." Microbiology and Molecular Biology Reviews 75.1 (2011): 133-191.

(13) Krisko, A., & Radman, M. (2013). Biology of extreme radiation resistance: the way of Deinococcus radiodurans. Cold Spring Harbor perspectives in biology,5(7), a012765.

(14) Normile, D. (2013). Cooling a hot zone. Science, 339(6123), 1028-1029.

(15) Kumar, A., Bisht, B. S., Joshi, V. D., & Dhewa, T. (2011). Review on Bioremediation of Polluted Environment:: A Management Tool. International journal of environmental sciences, 1(6), 1079.

(16) Lawrence, E. (2011). Henderson’s dictionary of biology. Essex, Harlow: Pearson Education Limited.

(17) Appukuttan, D., Rao, A. S., & Apte, S. K. (2006). Engineering of Deinococcus radiodurans R1 for bioprecipitation of uranium from dilute nuclear waste.Applied and environmental microbiology, 72(12), 7873-7878.

(18) Misra, C. S., Appukuttan, D., Kantamreddi, V. S. S., Rao, A. S., & Apte, S. K. (2012). Recombinant D. radiodurans cells for bioremediation of heavy metals from acidic/neutral aqueous wastes. Bioengineered, 3(1), 44-48.

(19) Roongtanakiat, N., Sudsawad, P., & Ngernvijit, N. (2010). Uranium absorption ability of sunflower, vetiver and purple guinea grass. Kasetsart Journal - Natural Science, 44 (2), 182-190.

(20) Zalewska, M., Nogalska, A. (2014). Phytoextraction potential of sunflower and white mustard plants in zinc-contaminated soil. Chilean Journal of Agricultural Research, 74 (4), 485-489.

(21) Erakhrumen, A., & Agbontalor, A. (2007). Phytoremediation: an environmentally sound technology for pollution prevention, control and remediation in developing countries. Educational Research and Review, 2(7), 151-156.

(22) Ghosh, M., & Singh, S. P. (2005). A review on phytoremediation of heavy metals and utilization of it’s by products. Asian J Energy Environ, 6(4), 18.

(23) Rascio, N., Navari-Izzo, F. (2011). Heavy metal hyperaccumulating plants: How and why do they do it? And what makes them so interesting? Plant Science, 180 (2), 169-181.

(24) Prasad, M. N. V. (2007). Sunflower (Helianthus annuus L.) - A potential crop for environmental industry. Helia, 30 (46), 167-174.

(25) The Watchers (2011, August 18). Sunflower radiation absorption project grows around Fukushima. Retrieved June 29, 2015, from: http://thewatchers.adorraeli.com/2011/08/18/sunflower-radiation-absorption-project-grows-around-japan/.

(26) Vieira, R. H. S. F., & Volesky, B. (2000). Biosorption: a solution to pollution? International Microbiology, 3 (1), 17-24.