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References
Оглавление1. Hayat, S., Khalique, G., Irfan, M., Wani, A.S., Tripathi, B.N., Ahmad, A., Physiological changes induced by chromium stress in plants: an overview. Protoplasma, 249, 599, 2012.
2. Choudhury, S., Role of Chromite Mineralisation in Orissa. Orissa Rev., 57–60, 2006.
3. Mertz, W., Chromium occurance and its function in biological systems. Physiol. Rev., 49, 165, 1969.
4. Anderson, A.J., Mayer, D.R., Mayer, F.K., Heavy metal toxicities: levels of nickel, cobalt and chromium in the soil and plants associated with visual symptoms and variation in growth of an oat crop. Aust J Agric Pest., 89, 47, 1972.
5. Zhitkovich, A., Voitkun, V., Costa, M., Formation of the amino acid-DNA complexes by hexavalent and trivalent chromium in vitro: Importance of trivalent chromium and the phosphate group. Biochem., 35, 7275, 1996.
6. Costa, M., Toxicity and carcinogenicity of Cr(VI) in animal models and humans. Crit. Rev. Toxicol., 27, 431, 1997.
7. Jordão, C.P., Pereira, J.L., Jham, G.N., Chromium contamination in sediment, vegetation and fish caused by tanneries in the State of Minas Gerais, Brazil. Sci. Total Environ., 207, 1, 1997.
8. Khasim, D.I., Kumar, N.V., Hussain, R.C., Environmental contamination of chromium in agricultural and animal products near a chromate industry. Bull. Environ. Contam. Toxicol., 43, 742, 1989.
9. Dhakate, R. and Singh, V.S., Heavy metal contamination in groundwater due to mining activities in Sukinda valley, Orissa - A case study. J. Geogr. Reg. Plann., 1, 58, 2008.
10. Nigam, H., Das, M., Chauhan, S., Pandey, P., Swati, P., Yadav, M., Tiwari, A., Effect of chromium generated by solid waste of tannery and microbial degradation of chromium to reduce its toxicity: A review. Adv. Appl. Sci. Res., 6, 129, 2015.
11. Zeraatkar, A.K., Ahmadzadeh, H., Talebi, A.F., Moheimani, N.R., McHenry, M.P., Potential use of algae for heavy metal bioremediation, a critical review. J. Environ. Manage., 181, 817, 2016.
12. Majhi, P. and Samantaray, S.M., Thermotolerant microalgal diversity in the chromium metal polluted sites of Sukinda mining area. Int. J. Curr. Microbiol. Appl. Sci., 9, 1109, 2020.
13. Jobby, R., Jha, P., Yadav, A.K., Desai, N., Biosorption and biotransformation of hexavalent chromium [Cr(VI)]: A comprehensive review. Chemosphere, 207, 255, 2018.
14. Travieso, L., Canizarez, R.O., Borja, R., Benitez, F., Dominguez, A.R., Dupeyron, R., Valiente, V., Heavy metal removal by microalgae. Bull. Environ. Contam. Toxicol., 62, 144, 1999.
15. Liu, K.J., Jiang, J., Shi, X., Gabrys, H., Walczak, T., Swartz, M., Low-frequency EPR study of chromium (V) formation from chromium(VI) in living plants. Biochem. Biophys. Res. Commun., 206, 829, 1995.
16. Cervantes, C., Garc, J.C., Devars, S., Corona, F.G., Tavera, H.L., Torres-Guzma, J.C., Moreno-Sainchez, R., Interactions of chromium with microorganisms and plants. FEMS Microbiol. Rev., 25, 335, 2001.
17. Corradi, M.G., Gorbi, G., Ricci, A., Torelli, A., Bassi, A.M., Chromiuminduced sexual reproduction gives rise to a Cr-tolerant progeny in Scenedesmus acutus. Ecotoxicol. Environ. Safety, 32, 12, 1995.
18. Wong, P.T. and Trevors, J.T., Chromium toxicity to algae and bacteria, in: Chromium in the Natural and Human Environments, NriaguJO, Nieboer E (eds), vol. 305, John Wiley and Sons, Wiley, New York, 1988.
19. Viamajala, S., Peyton, B.M., Apel, W.A., Petersen, J.N., Chromate reduction in Shewanellaoneidensis MR-1 is an inducible process associated with anaerobic growth. Biotechnol. Prog., 18, 290, 2002.
20. Ahemad, M., Enhancing phytoremediation of chromium stressed soils through plant growth promoting bacteria. J. Genet. Eng. Biotechnol., 13, 51, 2015.
21. Cervantes, C., Garcia, J.C., Nies, D., Silver, S., Molecular Microbiology of heavy metals, vol. 407, Springer-Verlag, Berlin, 2007.
22. Subrahmanyam, D., Effects of chromium toxicity on leaf photosynthetic characteristics and oxidative changes in wheat (Triticum aestivum L.). Photosynthetica, 46, 339, 2008.
23. Vajpayee, P., Tripathi, R.D., Rai, U.N., Ali, M.B., Singh, S.N., Chromium (VI) accumulation reduces chlorophyll biosynthesis, nitrate reductase activity and protein content in Nymphaea alba. Chemosphere, 41, 1075, 2000.
24. Hörcsik, Z., Kovács, L., Láposi, R., Mészáros, I., Lakatos, G., Garab, G., Effect of chromium on photosystem 2 in the unicellular green alga, Chlorella pyrenoidosa. Photosynthetica, 45, 65, 2007.
25. Clijsters, H. and Van Assche, F., Inhibition of photosynthesis by heavy metals. Photosynth. Res., 7, 31, 1985.
26. Bishnoi, N.R., Dua, A., Gupta, V.K., Sawhney, S.K., Effect of chromium on seed germination, seedling growth and yield of peas. Agri. Eco. Environ., 47, 47, 1993.
27. Shankar, A.K., Cervantes, C., Loza-Tavera, H., Avudainayagam, S., Chromium toxicity in plants. Environ. int., 1, 739, 2005. 28. Montes-Holguin, M.O., Peralta Videa, J.R., Meitzner, G., Martinez-Martinez, A., de la Rosa, G., Castillo-Michel, H.A., Gardea-Torresdey, J.L., Biochemical and spectroscopic studies of the response of Convolvulus arvensis L. @ to chromium (III) and chromium (VI) stress. Environ. Toxicol. Chem., 25, 220, 2006.
29. Sinha, S., Saxena, R., Singh, S., Chromium induced lipid peroxidation in the plants of Pistia stratiotes L. role of antioxidants and antioxidant enzymes. Chemosphere, 58, 595, 2005.
30. Schmfger, M.E.V., Phytochelatins: complexation of metals and metalloids, studies on the phytochelatin synthase, PhD Thesis, Munich University of Technology (TUM), Munich, 2001.
31. Boonyapookana, B., Upatham, E.S., Kruatrachue, M., Pokethitiyook, P., Singhakaew, S., Phytoaccumulation and phytotoxicity of cadmium and chromium in duckweed Wolffia globosa. Int. J. Phytorem., 4, 87, 2002.
32. Shanker, A.K., Djanaguiraman, M., Pathmanabhan, G., Sudhagar, R., Avudainayagam, S., Uptake and phytoaccumulation of chromium by selected tree species. Proceedings of the international conference on water and environment held in Bhopal, India, 2003.
33. Nagajyoti, P.C., Lee, K.D., Sreekanth, T.V.M., Heavy metals, occurrence and toxicity for plants: a review. Environ Chem Lett., 8, 199, 2010.
34. Holmes, A.L., Wise, S.S., Wise, J.P., Carcinogenicity of hexavalent chromium. Indian J. Med. Res., 128, 353, 2008.
35. Potential Toxic Effects of Chromium, Chromite Mining and Ferrochrome Production: A Literature Review, Mining Watch Canada, 2012.
36. Lindberg, E. and Hedenstierna, G., Chrome plating: symptoms, findings in the upper airways and effects on lung function. Arch. Environ. Health, 38, 367, 1983.
37. Barceloux, D.G., Chromium. Clin. Toxicol., 37, 173, 1999.
38. Shmitova, L., The course of pregnancy in women engaged in the production of chromium and its compounds. Sverdlovsk, 19, 108, 1978.
39. Shmitova, L., Content of hexavalent chromium in the biological substrates of pregnant women and women in the immediate postnatal period engaged in the manufacture of chromium compounds. Gig. Trud. Prof. Zabol., 2, 32, 1980.
40. Zhang, L., Zhao, L., Yu, Y., Chen, C., Removal of Pb2+ from aqueous solution by non-living Rhizopus nigricans. J. Water Res., 32, 1437, 1998.
41. EPA US, Integrated Risk Information System (IRIS) [online electronic data file], U.S. Environment Protection Agency, Office of research and development, National Center for Environment Assessment. U.S., Last updated December 1, 1996; Available at:http://toxnet.nim.nih.gov 1996, accessed in September, 2009.
42. Danadevi, K., Rozati, R., Reddy, P.P., Grover, P., Semen quality of Indian welders occupationally exposed to nickel and chromium. Reprod. Toxicol., 17, 451, 2003.
43. Junaid, M., Murthy, R.C., Saxena, D.K., Embryo- and fetotoxicity of chromium in pregestationally exposed rats. Bull. Environ. Contam. Toxicol., 57, 327, 1996.
44. Subramanian, S., Rajendiran, G., Sekhar, P., Gowri, C., Govindarajulu, P., Aruldhas, M.M., Reproductive toxicity of chromium in adult bonnet monkeys (Macaca radiata Geoffrey). Reversible oxidative stress in the semen. Toxicol. Appl. Pharmacol., 215, 237, 2006.
45. Aruldhas, M.M., Subramanian, S., Sekar, P., Hasan, G.C., Govindarajulu, P., Akbarsha, M.A., Microcanalization in the epididymis to overcome ductal obstruction caused by chronic exposure to chromium – a study in the mature bonnet monkey (Macaca radiata Geoffroy). Reproduction, 128, 127, 2004.
46. Gupta, V.K. and Rastogi, A., Equilibrium and kinetic modelling of cadmium [II] biosorption by nonliving algal biomass Oedogonium sp. from aqueous phase. J. Hazard. Mater., 153, 759, 396–402, 2008a.
47. Gupta, V.K. and Rastogi, A., Biosorption of lead from aqueous solutions by green algae Spirogyra sp.: kinetics and equilibrium studies. J. Hazard. Mater., 152, 407, 2008b.
48. Elhaddad, E. and Mahmoud, A.M.A., Isotherm studies of removal of Cr (III) and Ni (II) by Spirulina algae. Int. J. Adv. Pharm. Biol. Chem., 4, 247–251, 2015.
49. Khuntia, S., Gorgai, M.K., Das, C., Golder, A., Effect of background ions on reduction of Cr(VI) to Cr(III) using saline water algae. Res. J. Chem. Environ., 15, 450, 2011.
50. Katircioğlu, H., Aslim, B., Tunçeli, A., Chromium(VI) Biosorption from Aqueous Solutions by Free and Immobilized Biomass of Oscillatoria sp. H1 Isolated from Freshwater. ISIJ Int., 52, 1173, 2012.
51. Giloni-lima, D., Delello, M.L.M., Cremonez, M.N., Éler, V.A.L., Assessment of chromium bioaccumulation in Pseudokirchneriellasubcapitata (Korshikov) Hindak by the Central Composite Design (CCD) and Response Surface Methodology (RSM). J. Braz. Soc. Ecotoxicol., 7, 43, 2012.
52. Yaqub, A., Mughal, M.S., Adnan, A., Khan, W.A., Anjum, K.M., Biosorption of hexavalent chromium by Spirogyra sp.: equilibrium, kinetics and thermodynamics. J. Anim. Plant Sci., 22, 408, 2012.
53. Chatterjee, A. and Abraham, J., Biosorption Capacity of Dried Spirogyra on Heavy Metals. Int. J. Chemtech. Res., 8, 382, 2015.
54. Popuri, S.R., Kalyani, S., Kachireddy, R., Krishnaiah, A., Biosorption of hexavalent chromium from aqueous solution by using prawn pond algae (Sphaeroplea). Indian J. Chem. Technol., 46, 284, 2006.
55. Anjana, K., Kaushik, A., Kiran, B., Nisha, R., Biosorption of Cr(VI) by immobilized biomass of two indigenous strains of cyanobacteria isolated from metal contaminated soil. J. Hazard. Mater., 148, 383, 2007.
56. Sbihi, K., Lange-Bertalot, C.O., Bertrand, M., Toxicity and biosorption of chromium from aqueous solutions by the diatom Planothidium lanceolatum (Brébisson). Am. J. Sci. Ind. Res., 3, 27, 2012.
57. Dönmez, G.C., Aksu, Z., Ozturk, A., Kutsal, T., A comparative study on heavy metal biosorption characteristics of some algae. Process Biochem., 34, 885, 1999.
58. Prasanna, R., Jaiswal, P., Kaushik, B.D., Cyanobacteria as potential options for environmental sustainability – promises and challenges. Indian J. Microbiol., 48, 89, 2008.
59. Malik, A., Metal bioremediation through growing cells. Environ. Int., 30, 261, 2004.
60. Nacorda, J.O., Martinez- Goss, M.R., Torreta, N.K., Bioremoval and Bioreduction of Chromium (VI) by the Green Microalgae, Chlorella vulgaris Beij., isolated from Laguna de Bay, Philippines. Philipp. J. Sci., 139, 181, 2010.
1 * Corresponding author: saubhagyasamantaray@yahoo.com
