| Mobilization of Heavy Metals in Contaminated Soils induced by Bioaugmentation of Shewanella xiamenensis HM14 |
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Walpola, Buddhi Charana
(Department of Crop Science, Faculty of Agriculture, University of Ruhuna)
Arunakumara, K.K.I.U. (Department of Crop Science, Faculty of Agriculture, University of Ruhuna) Song, Jun-Seob (Department of Bio-Environmental Chemistry, College of Agriculture and Life Sciences, Chungnam National University) Lee, Chan-Jung (Mushroom Research Division, National Institute of Horticultural & Herbal Science, RDA) Yoon, Min-Ho (Department of Bio-Environmental Chemistry, College of Agriculture and Life Sciences, Chungnam National University) |
| 1 | Abou-Shanab, R.A.I., P. van Berkum, and J.S. Angle. 2007. Heavy metal resistance and genotypic analysis of metal resistance genes in gram-positive and gram-negative bacteria present in Ni-rich serpentine soil and in the rhizosphere of Alyssum murale. Chemosphere. 68:360-367. DOI ScienceOn |
| 2 | Baum, C., K. Hrynkiewicz, P. Leinweber, and R. Meissner. 2006. Heavy-metal mobilization and uptake by mycorrhizal and nonmycorrhizal willows (Salix dasyclados). J. Plant Nutr. Soil Sci. 169:516-522. DOI ScienceOn |
| 3 | Arunakumara, K.K.I.U. 2011. Use of Crop Plants for Removal of Toxic Metals, pp. 439-457. In Khan MS, Zaidi A, Goel R, and Mussarrat J. (eds.),Bio-management of Metal Contaminated Soils- 2011. Springer, Springer Science + Business Media B.V. |
| 4 | Arunakumara, K.K.I.U., B.C. Walpola, and M.H. Yoon. 2013. Banana peel: A green solution for metal removal from contaminated waters. Korean J. Environ. Agric. 32:108-116. 과학기술학회마을 DOI ScienceOn |
| 5 | Arunakumara, K.K.I.U., B.C. Walpola, and M.H. Yoon. 2013. Agricultural methods for toxicity alleviation in metal contaminated soils. Korean J. Soil Sci. Fert. 46:73-80. 과학기술학회마을 DOI |
| 6 | Belimov, A.A., N. Hontzeas, V.I. Safronova, S.V. Demchinskaya, G. Piluzza, S. Bullitta, and B.R. Glick. 2005. Cadmium-tolerant plant growth-promoting bacteria associated with the roots of Indian mustard (Brassica juncea L. Czern.). Soil Biol. Biochem. 37:241-250. DOI ScienceOn |
| 7 | Belimov, A.A., A.M. Kunakova, V.I. Safronova, V.V. Stepanok, L.Y. Yudkin, Y.V. Alekseev, and A.P. Kozhemyakov. 2004. Employment of rhizobacteria for the inoculation of barley plants cultivated in soil contaminated with lead and cadmium. Microbiology. 73:99-106. DOI |
| 8 | Jing, Y.D., Z.L. He, and X.E. Yang. 2007. Role of soil rhizobacteria in phytoremediation of heavy metal contaminated soils. J. Zhejiang Univ. SC B. 8:192-207. |
| 9 | Kumar, S., K. Tamura, I.B. Jakobsen, and M. Nei. 2001. MEGA2: molecular evolutionary genetics analysis software. Bioinformatics. 17:1244-1245. DOI ScienceOn |
| 10 | Karavoltsos, S., A. Sakellari, M. Dimopoulos, M. Dassenakis, and M. Scoullos. 2002. Cadmium content in foodstuffs from the Greek market. Food Addit. Contam. 19:954-962. DOI ScienceOn |
| 11 | Kayser, G., T. Korckritz, and B. Markert. 2001. Bioleaching for the decontamination of heavy metals. Wasser. Boden. 53:54-58. |
| 12 | Kloepper, J.W. 2003. A review of mechanisms for plant growth promotion by PGPR, pp. 81-92. In Sixth International PGPR Workshop, Calicut, India. |
| 13 | Lebeau, T., A. Braud, and K. Jezequel. 2008. Performance of bioaugmentation-assisted phytoextraction applied to metal contaminated soils: A review, Environ. Pollut. 153:497-522. DOI ScienceOn |
| 14 | Luo, L., Y. Ma, S. Zhang, D. Wei, and Y.G. Zhu. 2009. An inventory of trace element inputs to agricultural soils in China. J. Environ. Manage. 90:2524-2530. DOI ScienceOn |
| 15 | Marchiol, L., G. Fellet, D. Perosa, and G. Zerbi. 2007. Removal of trace metals by Sorghum bicolor and Helianthus annuus in a site polluted by industrial wastes: a field experience. Plant Physiol. Biochem. 45:379-387. DOI ScienceOn |
| 16 | Nautiyal CS. 1999. An efficient microbiological growth medium for screening of phosphate solubilizing microorganisms. FEMS Microbiol. Lett. 170:265-270. DOI ScienceOn |
| 17 | Chen, B., H. Shen, X. Li, G. Feng, and P. Christie. 2004. Effects of EDTA application and arbuscular mycorrhizal colonization on growth and zinc uptake by maize (Zea mays L.) in soil experimentally contaminated with zinc. Plant Soil. 261:219-229. DOI ScienceOn |
| 18 | Abou-Shanab, R.A.I., J.S. Angle, and R.L. Chaney. 2006. Bacterial inoculants affecting nickel uptake by Alyssum murale from low, moderate and high Ni soils. Soil Biol. Biochem. 38:2882-2889. DOI ScienceOn |
| 19 | Belimov, A.A., V.I. Safronova, T.A. Sergeyeva, T.N. Egorova, V.A. Matveyeva, V.E. Tsyganov, A.Y. Borisov, and I.A. Tikhonovich. 2001. Characterisation of plant growth-promoting rhizobacteria isolated from polluted soils and containing 1-aminocyclopropane-1-carboxylate deaminase. Can. J. Microbiol. 47:642-652. DOI ScienceOn |
| 20 | Boonyapookana, B., P. Parkpian, S. Techapinyawat, R.D. DeLaun, and A. Jugsujinda. 2005. Phytoaccumulation of lead by sunflower (Helianthus annuus), tobacco (Nicotiana tabacum), and vetiver (Vetiveria zizanioides). J. Environ. Sci. Health, Part A. 40:117-137. DOI ScienceOn |
| 21 | Borgmann, U. 2000. Methods for assessing the toxicological significance of metals in aquatic ecosystems: bio-accumulationtoxicity relationships, water concentrations and sediment spiking approaches. Aquat. Ecosyst. Health. 3:277-289. |
| 22 | Braud, A., K. Jezequel, E. Vieille, A. Tritter, and T. Lebeau. 2006. Changes in extractability of Cr and Pb in a polycontaminated soil after bioaugmentation with microbial producers of biosurfactants, organic acids and siderophores. Water Air Soil Poll. 6:261-279. DOI |
| 23 | Cervantes, C., J. Chavez, N.A. Cardova, P. de la Mora, and J.A. Velasco. 1986. Resistance to metal by Pseudomonas aeruginosa clinical isolates. Microbios. 48:159-163. |
| 24 | Chen, Y.E., S. Yuan, Y.Q. Su, and L. Wang. 2010. Comparison of heavy metal accumulation capacity of some indigenous mosses in Southwest China cities: a case study in Chengdu city. Plant Soil Environ. 56:60-66. |
| 25 | Saitou, N., and M. Nei. 1987. The neighbor-joining method: a new method for reconstructing phylogenetic trees. Mol. Biol. Evol. 4:406-425. |
| 26 | Ng, I. S., Chen, T., and Lin, R. 2014. Decolorization of textile azo dye and Congo red by an isolated strain of the dissimilatory manganese-reducing bacterium Shewanella xiamenensis BC01. Appl. Microbiol. Biotechnol. 98:2297-2308. DOI ScienceOn |
| 27 | Ouzounidou, G. and I. Ilias. 2005. Hormone-induced protection of sunflower photosynthetic apparatus against copper toxicity. Bio. Plantarum.49:223-228. DOI |
| 28 | Pal, A., S. Dutta, P.K. Mukherjee, and A.K. Paul. 2005. Occurrence of heavy metal resistance in microflora from serpentine soil of Andaman. J. Basic Microbiol. 45:207-218. DOI ScienceOn |
| 29 | Prapagdee, B., N. Chumphonwong, and N. Khonsue. 2012. Influence of cadmium resistant bacteria on promoting plant root elongation and increasing cadmium mobilization in contaminated soil. Fresenius Environmental Bulletin. 21:1186-1191. |
| 30 | Prapagdee, B., M. Chanprasert, and S. Mongkolsuk. 2013. Bioaugmentation with cadmium-resistant plant growth-promoting rhizobacteria to assist cadmium phytoextraction by Helianthus annuus. Chemosphere. 92:659-666. DOI ScienceOn |
| 31 | Rajkumar, M., M. Ying, and H. Freitas. 2008. Characterization of metal-resistant plant-growth promoting Bacillus weihenstephanensis isolated from serpentine soil in Portugal. J. basic microbial. 48:500-508. DOI ScienceOn |
| 32 | Ryan, P.R., Y. Dessaux, L.S. Thomashow, and D.M. Weller. 2009. Rhizosphere engineering and management for sustainable agriculture. Plant Soil. 321:363-383. DOI |
| 33 | Sheng X.F., and J.J. Xia. 2006. Improvement of rape (Brassica napus) plant growth and cadmium uptake by cadmiumresistant bacteria. Chemosphere. 64:1036 - 1042 DOI ScienceOn |
| 34 | El-Tayeb, M.A., A.E. El-Enany, and N.L. Ahmed. 2006. Salicylic acid-induced adaptive response to copper stress in sunflower (Helianthus annuus L.). Plant Growth Regul. 50:191-199. DOI |
| 35 | Citterio, S., N. Prato, P. Fumagalli, R. Aina, N. Massa, A. Santagostino, S. Sgorbati, and G. Berta. 2005. The arbuscular mycorrhizal fungus Glomus mosseae induces growth and metal accumulation changes in Cannabis sativa L. Chemosphere. 59:21-29. DOI ScienceOn |
| 36 | Di Gregorio, S., M. Barbafieri, S. Lampis, A.M. Sanangelantoni, E. Tassi, and G. Vallini. 2006. Combined application of Triton X-100 and Sinorhizobium sp. Pb002 inoculum for the improvement of lead phytoextraction by Brassica juncea in EDTA amended soil. Chemosphere. 63:293-299. DOI ScienceOn |
| 37 | Freitas, H., M.N.V. Prasad, and J. Pratas. 2004. Analysis of serpentinophytes from north-east of Portugal for trace metal accumulation-relevance to the management of mine environment. Chemosphere. 54:1625-1642. DOI ScienceOn |
| 38 | Fazal, H. and A. Bano. 2010. The effect of diazotrophs (rhizobium and azatobactor) on growth and biomass of maize in lead (Pb) polluted soil, and accumulation of the lead in different parts of plant. Pak. J. Bot. 42:4363-4370. |
| 39 | Gadd, G.M. 2004. Microbial influence on metal mobility and application for bioremediation. Geoderma. 122:109-119. DOI ScienceOn |
| 40 | Hemambika, B., V. Balasubramanian, V.R. Kannan, and R.A. James. 2013. Screening of chromium-resistant bacteria for plant growth-promoting activities. Soil Sediment Contam. 22:717-736. DOI |
| 41 | Jiang, C.Y., X.F. Sheng, M. Qian, and Q.Y. Wang. 2008. Isolation and characterization of a heavy metal-resistant Burkholderia sp. from heavy metal-contaminated paddy field soil and its potential in promoting plant growth and heavy metal accumulation in metal-polluted soil. Chemosphere. 72:157-164. DOI ScienceOn |
| 42 | Turgut C., M. Katie Pepe, and T.J. Cutright. 2004. The effect of EDTA and citric acid on phytoremediation of Cd, Cr, and Ni from soil using Helianthus annuus. Environ. Pollut. 131:147-154. DOI ScienceOn |
| 43 | Singh, S., and P.K. Aggarwal. 2006. Effect of heavy metals on biomass and yield of different crop species. Indian J. Agric. Sci. 76:688-691. |
| 44 | Thomas, E.Y., J.A.I., Omueti, and O. Ogundayomi. 2012. The effect of phosphate fertilizer on heavy metal in soils and Amaranthus Caudatu. Agric. Biol. J. N. Am. 3:145-149. DOI |
| 45 | Thompson, J. D., T. J. Gibson, F. Plewniak, F. Jeanmougin, and D. G. Higgins. 1997.The Clustal X windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools. Nucleic Acids Res. 24:4876-4882. |
| 46 | Whiting S. N., M. P. de Souza, and N. Terry. 2001. Rhizosphere Bacteria Mobilize Zn for Hyperaccumulation by Thlaspicaerulescens. Environ. Science & Technol. 35:3144-3150. DOI ScienceOn |
| 47 | Ryan, P.R., Y. Dessaux, L.S. Thomashow, and D.M. Weller. 2009. Rhizosphere engineering and management for sustainable agriculture. Plant Soil. 321: 363-383. DOI |
| 48 | Wani, P.A., M.S. Khan, and Z. Almas. 2007. Synergistic effects of the inoculation with nitrogen-fixing and phosphate-solubilizing rhizobacteria on the performance of field-grown chickpea. J. Plant Nutr. Soil Sci. 170:283-287. DOI ScienceOn |
| 49 | Wang, Y.P., J. Y. Shi, and Q. Lin. 2007. Heavy metal availability and impact on activity of soil microorganisms along a Cu/Zn contamination gradient. J. Environ. Sciences. 19:848-853. DOI ScienceOn |
| 50 | Wu S.C., K.C. Cheung, and Y.M. Luo. 2006. Effects of inoculation of plant growth-promoting rhizobacteria on metal uptake by Brassica juncea. Environ. Pollut.140:124-135. DOI ScienceOn |
| 51 | Egamberdiyeva, D., D. Juraeva, L. Gafurova, and G. Hoflich. 2002. Promotion of plant growth of maize by plant growth promoting bacteria in different temperature and soils. In van Santen, E. (ed.), Making Conservation Tillage Conventional: Building a Future on 25 Years of Research. Proceedings of 25th Annual Southern Conservation Tillage Conference for Sustainable Agriculture. Auburn, AL 24-26 June 2002. Special Report No. 1. Alabama Agricultural Experiment Station and Auburn University, AL 36849, USA. |
| 52 | Yeh, T.Y., and C.T. Pan. 2012. Effect of chelating agents on copper, zinc, and lead uptake by sunflower, Chinese cabbage, cattail, and reed for different organic contents of soils. J. Environ. Anal. Toxicol. 2: doi:10.4172/2161-0525.1000145. DOI |
| 53 | Zaidi S., S. Usmani, and B.R. Singh. 2006. Significance of Bacillus subtilis strain SJ-101 as a bioinoculant for concurrent plant growth promotion and nickel accumulation in Brassica juncea. Chemosphere.64:991-997. DOI ScienceOn |
| 54 | Chen, Y.X., Y.P. Wang, Q. Lin, and Y.M. Luo. 2005. Effect of copper-tolerant rhizosphere bacteria on mobility of copper in soil and copper accumulation by Elsholtzia splendens. Environ. Int. 31:861-866. DOI ScienceOn |
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