References
- Andrew, A. S., J. L. Burgess, M. M. Meza, E. Demidenko, M. G. Waugh, J. W. Hamilton, and M. R. Karagas. 2006. Arsenic exposure is associated with decreased DNA repair in vitro and in individuals exposed to drinking water arsenic. Environmental Health Perspectives 114 (8): 1193–1198.
- Baker, A. J. M., and S. N. Whiting. 2002. In search of the holy grail: A further step in understanding metal hyperaccumulation. New Phytologist 155 (1): 1–4.
- Cao, X., L. Q. Ma, and A. Shiralipour. 2003. Effects of compost and phosphate amendments on arsenic mobility in soils and arsenic uptake by the hyperaccumulator Pteris Vittata L. Environmental Pollution 126 (2): 157–167.
- Chen, X. Y., J. Y. Shi, W. D. Zhang, Q. Lin, and G. M. Tian. 2004. EDTA and industrial waste water improving the bioavailability of different forms of Cu forms in contaminated soil. Plant and Soil 261 (1–2): 117–125.
- Deng, H., M. H. Wong, and Z. H. Ye. 2004. Accumulation of lead, zinc, copper, and cadmium by 12 wetland plant species thriving in metal-contaminated sites in China. Environmental Pollution 132 (1): 29–40.
- Dhankher, O. P., Y. Li, B. P. Rosen, S. Jin, D. Salt, J. F. Senecoff, N. A. Sashti, and R. B. Meagher. 2002. Engineered tolerance and hyperaccumulation of arsenic in plants by combining arsenate reductase and γ-glutamylcysteine synthetase expression. Nature Biotechnology 20 (11): 1140–1145.
- Dernoeden, P. H., M. J. Carroll, and J. M. Krouse. 1993. Weed management and tall fescue quality as influenced by mowing, nitrogen, and herbicides. Crop Science 33 (5): 1055–1061.
- Environmental Protection Agency. 1996a. Method 3050B: Acid digestion of sediments, sludges, and soils. Available at http://www.epa.gov/osw/hazard/testmethods/sw846/pdfs/3050b.pdf.
- Environmental Protection Agency. 1996b. Method 3052: Microwave-assisted acid digestion of siliceous and organically based matrices. Available at http://www.epa.gov/epawaste/hazard/testmethods/sw846/pdfs/3052.pdf.
- Environmental Protection Agency. 2001. National primary drinking water regulations: Arsenic and clarifications to compliance and new source contaminants monitoring. Federal Register 66 (14): 6975–7066.
- Gonzaga, M. I. S., J. A. G. Santos, and L. Q. Ma. 2006. Arsenic phytoextraction and hyperaccumulators by fern species. Scientia Agricola 63 (1): 90–101.
- Guo, H. R., S. R. Lipsitz, H. Hu, and R. R. Monson. 1998. Using ecological data to estimate a regression model for individual data: The association between arsenic in drinking water and incidence of skin cancer. Environmental Research 79 (2): 82–93.
- Hoagland, D. R., and D. I. Arnon. 1950. The water culture for growing plants without soil ( California Agriculture Experiment Station Circular 347, revised). Berkeley: University of California.
- Hughes, M. F. 2002. Arsenic toxicity and potential mechanisms of action. Toxicology Letters 133 (1): 1–16.
- Karim, M. R., K. A. Salam, E. Hossain, K. Islam, N. Ali, A. Haque, Z. A. Saud, T. Yeasmin, M. Hossain, H. Miyataki, S. Himeno, and K. Hossain. 2010. Interaction between chronic arsenic exposure via drinking water and plasma lactate dehydrogenase activity. Science of the Total Environment 409 (2): 278–283.
- Lee, D. A., A. Chen, and J. I. Schroeder. 2003. ars1, an Arabidopsis mutant exhibiting increased tolerance to arsenate and increased phosphate uptake. Plant Journal 35 (5): 637–646.
- Liang, F., W. Liu, Y. Li, W. Lu, J. Lin, Y. Li, G. Zhang, and M. Tan. 2010. Total and speciated arsenic levels in rice from China. Food Additives and Contaminants, Part A: Chemistry, Analysis, Control, Exposure, and Risk Assessment 27 (6): 810–816.
- Lorentzen, E. M. L., and H. M. Kingston. 1996. Comparison if microwave-assisted and conventional leaching using EPA method 3050B. Analytical Chemistry 68 (24): 4316–4320.
- Lu, Y., G. Zhang, Y. Zhao, Y. Wei, and L. Huang. 2011. Assessment of bioaccessibility and exposure risk of arsenic and lead in urban soils of Guangzhou City, China. Environmental Geochemistry and Health 33 (2): 93–102.
- Mazumder, D. N. G., R. Haque, N. Ghosh, B. K. De, A. Santra, D. Chakraborti, and A. H. Smith. 2000. Arsenic in drinking water and the prevalence of respiratory effects in West Bengal, India. International Journal of Epidemiology 29 (6): 1047–1052.
- Nanda Kumar, P. B. A., V. Dushenkov, H. Motto, and I. Raskin.1995. Phytoextraction: The use of plants to remove heavy metals from soils. Environmental Science and Technology 29 (5): 1232–1238.
- Otles, S., and O. Cagindi. 2010. Health importance of arsenic in drinking water and food. Environmental Geochemistry and Health 32 (4): 367–371.
- Patra, M., N. Bhowmik, B. Bandopadhyay, and A. Sharma. 2004. Comparison of mercury, lead, and arsenic with respect to genotoxic effects on plant systems and the development of genetic tolerance. Environmental and Experimental Botany 52 (3): 199–223.
- Peryea, F. J. 1998. Phosphate starter fertilizer temporarily enhances soil arsenic uptake by apple trees grown under field conditions. HortScience 33 (5): 826–829.
- Qu, R. L., D. Li, R. Du, and R. Qu. 2003. Lead uptake by roots of four turfgrass species in hydroponic cultures. Hortscience 38 (4): 623–626.
- Quaghebeur, M., and Z. Rengel. 2003. The distribution of arsenate and arsenite in shoots and roots of Holcus lanatus is influenced by arsenic tolerance and arsenate and phosphate supply. Plant Physiology 132 (3): 1600–1609.
- Raskin, I., R. D. Smith, and D. E. Salt. 1997. Phytoremediation of metals: Using plants to remove pollutants from the environment. Current Opinions in Biotechnology 8 (2): 221–226.
- Römkens, P., C. Draaisma, J. Japenga, and L. Bouwman. 2002. Potentials and drawbacks of chelate-enhanced phytoremediation of soils. Environmental Pollution 116 (1): 109–121.
- Smith, A. H., E. O. Lingas, and M. Rahman. 2000. Contamination of drinking-water by arsenic in Bangladesh: A public health emergency. Bulletin of the World Health Organization 78 (9): 1093–1103.
- Steel, R. G. D., and J. A. Torrie. 1980. Principles and procedures of statistics. New York: McGraw Hill.
- Tao, Y., S. Zhang, W. Jian, C. Yuan, and X. Shan. 2006. Effects of oxalate and phosphate on the release of arsenic from contaminated soils and arsenic accumulation in wheat. Chemosphere 65 (8): 1281–1287.
- Tu, C., and L. Ma. 2003. Effects of arsenate and phosphate on their accumulation by an arsenic-hyperaccumulator Pteris vittata L. Plant and Soil 249 (2): 373–382.
- Tripathi, S., and A. Kumar. 2010. Effect of acute and chronic exposure of sodium arsenite (Na(3)AsO(3)) on total protein, albumin, and globulin in serum of Oryctolagus cuniculus L. Toxicological and Environmental Chemistry 93 (2): 307–313.
- Tripathi, R. D., S. Srivastava, S. Mishra, N. Singh, R. Tuli, D. K. Gupta, and J. M. Maathuis. 2007. Arsenic hazards: Strategies for tolerance and remediation by plants. Trends in Biotechnology 25 (4): 158–165.
- Vahidnia, A., G. B. Van der Voet, and F. A. de Wolf. 2007. Arsenic neurotoxicity: A review. Human and Experimental Toxicology 26 (10): 823–832.
- Wu, L., X. Guo, and G. S. Banuelos. 2003. Selenium and sulfur accumulation and soil selenium dissipation in planting of four herbaceous plant species in soil contaminated with drainage sediment rich in both selenium and sulfur. International Journal of Phytoremediation 5 (1): 25–40.
- Zhang, W., Y. Cai, C. Tu, and L. Q. Ma. 2002. Arsenic speciation and distribution in an arsenic hyperaccumulating plant. Science of the Total Environment 300 (1–3): 167–177.