Geoscience Reference
In-Depth Information
Liu, Y., Zhu, Y.G., Chen, B.D., Christie, P. & Li, X.L.: Yield and arsenate uptake of arbuscular mycorrhizal
tomato colonized by Glomus mosseae BEG167 in As spiked soil under glasshouse conditions. Environ.
Int. 31 (2005b), pp. 867-873.
Liu, Y., Christie, P., Zhang, J. & Li, X.: Growth and arsenic uptake by Chinese brake fern inoculated with an
arbuscular mycorrhizal fungus. Environ. Experim. Bot. 66 (2009), pp. 435-441.
Lloyd, J.R. & Oremland, R.S.: Microbial transformation of arsenic in the environment from soda lake to
aquifers. Elements 2 (2006), pp. 85-90.
Lorenzo, V. de.: Systems biology approaches to bioremediation. Curr. Opinion Biotechnol . 19:6 (2008),
pp. 579-589.
Lovley, D.R. & Coates, J.D.: Bioremediation of metal contamination. Curr. Opinion Biotechol. 8 (1997),
pp. 285-287.
Lovley, D.R., Giovannoni, S.J., White, D.C., Champine, J.E., Phillips, E.J.P., Gorby, Y.A. & Goodwin,
S.: Geobacter metallireducens gen. nov. sp. Nov., a microorganism capable of coupling the complete
oxidation of organic compounds to the reduction of iron and other metals. Arch. Microbiol . 159 (1993),
pp. 336-344.
Lu, F.J.: Blackfoot disease: arsenic or humic acid. Lancet 336 (1990), pp. 115-116.
Ma, J.F., Yamaji, N., Mitani, N., Xu, X.Y., Su, Y.H., McGrath, S.P. & Zhao, F.J.: Transporters of arsenite in
rice and their role in arsenic accumulation in rice grain. PNAS 105 (2008), pp. 9931-9935.
Ma, L.Q., Komar, K.M., Tu, C., Zhang, W., Cai, Y. & Kennelley, E.D.: A fern that hyperaccumulates arsenic.
Nature 409 (2001) p. 579.
Macur, R.E., Jackson, C.R., Botero, L.M., McDermott, T.R. & Inskepp, W.P.: Bacterial populations associated
with the oxidation and reduction of arsenic in an unsaturated soil. Environ. Sci. Technol. 38 (2004),
pp. 104-111.
Macur, R.E., Wheeler, J.T. & McDermott, T.R.: Microbial populations associated with the reduction and
enhanced mobilization of arsenic in mine tailings. Environ. Sci. Technol . 35(18) (2001), pp. 3676-3682.
Macy, J.M., Santini, J.M., Panling, B.V., O'Neil A.H. & Sly, L.I.: Two new arsenate/sulfate-reducing bacteria:
Mechanisms of arsenate reduction. Arch. Microbiol . 173 (2000), pp. 49-57.
Maheswari, S. & Murugesan, A.G.: Remediation of arsenic in soil by Aspergillus nidulans isolated from an
arsenic-contaminated site. Environ. Technol. 30:9 (2009), pp. 921-926.
Malajczuk, N. & Cromack, K.: Accumulation of calcium oxalate in the mantle of ectomycorrhizal roots of
Pinus radiate and Eucalyptus marginata . New Phytol. 92 (1982) pp. 527-531.
Marschner, H.: Mineral nutrition of higher plants . 2nd ed., Academic Press, London, UK, 1995.
Mateos, L.M., Ordonez, E., Letek, M. & Gil, J.A.: Corynebacterium glutamicum as a model bacterium for
bioremediation of arsenic. Int. Microbiol . 9 (2006), pp. 207-215.
McBride & Wolfe, R.S.: Biosynthesis of dimethylasrine by a methanobacterium, Biochemistry 10 (1971),
pp. 4312-4317.
McLaren, S.J. & Kim, N.D.: Evidence for a seasonal fluctuation of arsenic in New Zealand's longest river
and the effect of treatment on concentrations in drinking water. Environ. Pollut . 90 (1995), pp. 67-73.
McLoughlin, A.J.: Controlled release of immobilized cells as a strategy to regulate ecological competence
of inocula. In: T. Scheper (ed): Biotechnics/wastewater . Springer, Berlin, Germany, 1994, pp. 1-45.
Meharg, A.A. & Hartley-Whitaker, J.: Arsenic uptake and metabolism in arsenic resistant and nonresistant
plant species. New Phytol. 154 (2002), pp. 29-43.
Meharg, A.A. & Rahman, M.M.: Arsenic contamination of Bangladesh paddy field soils: implications for
rice contribution to arsenic consumption. Environ. Sci. Technol . 37 (2003), pp. 229-234.
Meng, X.-Y., Qin, J., Wang, L.H., Duan, G.L., Sun, G.X., Wu, H.L., Chu, C.C., Ling, H.Q., Rosen, B.P. &
Zhu, Y.G.: Arsenic biotransformation and volatilization in transgenic rice. New Phytol. 19:1 (2011),
pp. 49-56.
Messens, J., Martins, J.C., Brosens, E., Van Belle, K., Jacobs, D.M., Willem, R. & Wyns, L.: Kinetics
and active site dynamics of Staphylococcus aureus arsenate reductase. J. Biol. Inorg. Chem. 7 (2002),
pp. 146-156.
Michalke, K., Wickenheiser, E.B., Mehring, M., Hirner A.V. & Hensel R.: Production of volatile derivatives
of metal(loid)s by microflora involved in anaerobic digestion of sewage sludge. Appl. Environ. Microbiol.
66 (2000), pp. 2791-2796.
Mobley, H.L.T., & Rosen, B.P.: Energetics of plasmidmediated arsenate resistance in Escherichia coli . PNAS
79 (1982), pp. 6119-6122.
Mougel, C., Offre, P., Ranjard, L., Corberand, T., Gamalero, E., Robin, C. & Lemanceau, P.: Dynamic of
the genetic structure of bacterial and fungal communities at different developmental stages of Medicago
truncatula Gaertn. cv. Jemalong line J5 . New Phytol. 170 (2006), pp. 165-175.
Previous Page
Next Page
In-Situ Remediation of Arsenic-Contaminated Sites
Search WWH ::




Custom Search
Home