References
- Batista, B. L., J. M. O. Souza, S. S. De Souza, and F. BarbosaJr. 2011. Speciation of arsenic in rice and estimation of daily intake of different arsenic species by Brazilians through rice consumption. Journal of Hazardous Materials 191:342–8.
- Bhattacharyya, P., A. K. Ghosh, A. Chakraborty, K. Chakrabarti, S. Tripathy, and M. A. Powell. 2003. Arsenic uptake by rice and accumulation in soil amended with municipal solid waste compost. Communication in Soil Science and Plant Analysis 34:2779–90.
- Brammer, H. 2009. Mitigation of arsenic contamination in irrigated paddy soils in south and south-east Asia. Environmental International 35:856–63.
- Chen, G., and T. Chen. 2014. SPE speciation of inorganic arsenic in rice followed by hydride-generation atomic fluorescence spectrometric quantification. Talanta 119:202–6.
- Codling, E. E. 2009. Effect of flooding lead arsenate-contaminated orchard soil on growth and arsenic and lead accumulation in rice. Communication in Soil Science Plant Analysis 40:2800–15.
- Codling, E. E. 2007. Long-term effects of lime, phosphorus, and iron amendments on water-extractable arsenic, lead and bioaccessible lead from contaminated orchard soils. Soil Science 172:811–9.
- Gee, G. W., and J. W. Bauder. 1986. Particle-size analysis. In Methods of soil analysis, part 1, ed. A. Klute, 2nd ed., 383–411. Madison, WI: American Society of Agronomy.
- Ma, J. F., N. Yamaji, N. Mitani, X. Y. Xu, Y. H. Su, S. P. McGrath, and F. J. Zhao. 2008. Transporters of arsenite in rice and their role in arsenic accumulation in rice grain. PNAS 105:9931–5.
- Meharg, A. A., and M. Rahman. 2003. Arsenic contamination of Bangladesh paddy field soils: Implications for rice contribution to arsenic consumption. Environmental Science Technology 37:229–34.
- Meharg, A. A., P. N. Williams, E. Adomako, Y. Y. Lawgali, C. Deacon, A. Villada, R. C. J. Cambell, G. Sun, Y. G. Zhu, J. Feldmann, A. Raab, F. J. Zhao, R. Islam, S. Hossain, and J. Yanai. 2009. Geographical variation in total and inorganic arsenic content of polished (white) rice. Environmental Science Technology 43:1612–7.
- Peryea, F. J. 1998. Historical use of lead arsenate insecticides, resulting soil contamination and implications for soil remediation. Paper presented at Proceedingsof 16th World Congress of Soil Science, Montpellier, France, August 20–26, pp 1–8.
- SAS. 2008. SAS PROC MIXED, 9.2 ed. Cary, NC: SAS Institute.
- Shacklette, H. T., and J. G. Boerngen. 1984. Element concentrations in soils and other surficial materials of the conterminous United States. USGS Professional Paper 1270, p 1–9.
- Song, W.-Y., T. Yamaki, N. Yamaji, D. Ko, K.-H. Jung, M. F. Kashino, G. An, E. Martinoia, Y. Lee, and J. F. Ma. 2014. A rice ABC transporter, OsABCC1, reduces arsenic accumulation in the grain. PNAS 111:15699–704.
- Steel, R. G., J. H. Dad, and D. J. H. Torrie. 1980. Duncan's New Multiple Range Test. In Principles and procedures of statistics, 187–188. New York: McGraw-Hill.
- Wells, B. R., and J. T. Gilmour. 1977. Sterility in rice cultivars as influenced by MSMA rate and water management. Agronomy Journal 69:451–4.
- Williams, P. N., A. Raab, J. Feldmann, and A. A. Meharg. 2007. Market basket survey shows elevated levels of As in south central U.S. processed rice compared to California: Consequences for human dietary exposure. Environmental Science Technology 41:2178–83.
- Xu, X. Y., S. P. McGrath, A. A. Meharg, and F. J. Zhao. 2008. Growing rice aerobically markedly decreases arsenic accumulation. Environmental Science Technology 42:5574–9.
- Yan, W., R. H. Dilday, T. H. Tai, J. W. Gibbons, R. W. McNew, and J. N. Rutge. 2005. Differential response of rice germplasm to straighthead induced by arsenic. Crop Science 45:1223–8.
- Zavala, Y. J., R. Gerads, H. Gurleyuk, and J. M. Duxbury. 2008. Arsenic in rice: II. Arsenic speciation in USA grain and implications for human health. Environmental Science Technology 42:3861–6.