Comparison of As sequestration in iron plaque and uptake by different genotypes of rice plants grown in As-contaminated paddy soils

Plant and Soil

Volumn 374, Issue 1-2, 2014, Pages 411-422

  Syu, Chien Hui ^a   Lee, Chia Hsing ^a   Jiang, Pei Yu ^a   Chen, Mei Kuei ^a   Lee, Dar Yuan ^a  

^a NATIONAL TAIWAN UNIVERSITY   (Taiwan)

Author keywords

Arsenic; Genotypes; Iron plaque; Paddy soil; Rice

Indexed keywords

ARSENIC; BIOACCUMULATION; BIOLOGICAL UPTAKE; CONCENTRATION (COMPOSITION); GENOTYPE-ENVIRONMENT INTERACTION; IRON; PADDY FIELD; RICE; SEQUESTRATION (CHEMISTRY); SOIL POLLUTION; SPECIATION (CHEMISTRY);

GUANDU PLAIN; TAIWAN;

JAPONICA;

EID: 84890871586     PISSN: 0032079X     EISSN: None     Source Type: Journal    
DOI: 10.1007/s11104-013-1893-8     Document Type: Article

References (46)

1. Abedin MJ, Cresser MS, Meharg AA, Feldmann J, Cotter-Howells J (2002) Arsenic uptake and metabolism in rice (Oryza sativa L.). Environ Sci Technol 36: 962-968.
2. Ahmed ZU, Panaullah GM, Gauch H, McCouch SR, Tyagi W, Kabir MS, Duxbury JM (2011) Genotype and environment effects on rice (Oryza sativa L.) grain arsenic concentration in Bangladesh. Plant Soil 338: 367-382.
3. Arao T, Kawasaki A, Baba K, Matsumoto S (2011) Effects of arsenic compound amendment on arsenic speciation in rice grain. Environ Sci Technol 45: 1291-1297.
4. Bhattacharya P, Samal AC, Majumdar J, Santra SC (2010) Accumulation of arsenic and its distribution in rice plants (Oryza sativa L.) in Gangetic West Bengal, India. Paddy Water Environ 8: 63-70.
5. Bogdan K, Schenk MK (2009) Evaluation of soil characteristics potentially affecting arsenic concentration in paddy rice (Oryza sativa L.). Environ Pollut 157: 2617-2621.
6. Chen CC, Dixon JB, Turner FT (1980) Iron coatings on rice roots: morphology and models of development. Soil Sci Soc Am J 44: 1113-1119.
7. Chen Z, Zhu YG, Liu WJ, Meharg AA (2005) Direct evidence showing the effect of root surface iron plaque on arsenite and arsenate uptake into rice (Oryza sativa) roots. New Phytol 165: 91-97.
8. Chiang KY, Lin KC, Lin SC, Chang TK, Wang MK (2010) Arsenic and lead (beudantite) contamination of agricultural rice soils in the Guandu Plain of northern Taiwan. J Hazard Mater 181: 1066-1071.
9. Daus H, Weiss H, Mattusch J, Wennrich R (2006) Preservation of arsenic species in water samples using phosphoric acid-limitations and long-term stability. Talanta 69: 430-434.
10. Fitz WJ, Wenzel WW (2002) Arsenic transformations in the soil-rhizosphere-plant system: fundamentals and potential application to phytoremediation. J Biotechnol 99: 259-278.
11. Gee GW, Bauder JW (1986) Particle-size analysis. In: Klute A (ed) Methods of soil analysis, part 1, 2nd edn. Agron Monogr ASA and SSSA, Madi.
12. Geng CN, Zhu YG, Liu WJ, Smith SE (2005) Arsenate uptake and translocation in seedlings of two genotypes of rice is affected by external phosphate concentrations. Aquat Bot 83: 321-331.
13. Hansel CM, Fendorf S (2001) Characterization of Fe plaque and associated metals on the roots of mine-waste impacted aquatic plants. Environ Sci Technol 35: 3863-3868.
14. Hansel CM, La Force MJ, Fendorf S, Sutton S (2002) Spatial and temporal association of As and Fe species on aquatic plant roots. Environ Sci Technol 36: 1988-1994.
15. Huang H, Zhu YG, Chen Z, Yin XX, Sun GX (2012) Arsenic mobilization and speciation during iron plaque decomposition in a paddy soil. J Soils Sediments 12: 402-410.
16. Hu Y, Li JH, Zhu YG, Huang YZ, Hu HQ, Christie P (2005) Sequestration of As by iron plaque on the roots of three rice (Oryza sativa L.) cultivars in a low-P soil with or without P fertilizer. Environ Geochem Health 27: 169-176.
17. Kalbitz K, Wennrich R (1998) Mobilization of heavy metals and arsenic in polluted wetland soils and its dependence on dissolved organic matter. Sci Total Environ 209: 27-39.
18. Lee CH, Hsieh YC, Lin TH, Lee DY (2013) Iron plaque formation and its effect on arsenic uptake by different genotypes of paddy rice. Plant Soil 363: 231-241.
19. Li RY, Stroud JL, Ma JF, McGrath SP, Zhao FJ (2009) Mitigation of arsenic accumulation in rice with water management and silicon fertilization. Environ Sci Technol 43: 3778-3783.
20. Liu WJ, Zhu YG, Hu Y, Williams PN, Gault AG, Meharg AA, Charnock JM, Smith FA (2006) Arsenic sequestration in iron plaque, its accumulation and speciation in mature rice plants (Oryza Sativa L.). Environ Sci Technol 40: 5730-5736.
21. Liu WJ, Zhu YG, Smith FA (2004) Smith SE Do iron plaque and genotypes affect arsenate uptake and translocation by rice seedlings (Oryza sativa L.) grown in solution culture? J Exp Bot 55: 1707-1713.
22. Mckeague JA, Day JH (1966) Dithionite and oxalate extractable Fe and Al as aids in differentiating various classes of soils. Can J Soil Sci 45: 49-62.
23. McLean EO (1982) Soil pH and lime requirement. In: Page AL et al (eds) Method of soil analysis, part 2, 2nd edn. Agron Monogr 9, ASA and SSSA, Madi.
24. Meharg AA, Rahman M (2003) Arsenic contamination of Bangladesh paddy field soils: implications for rice contribution to arsenic consumption. Environ Sci Technol 37: 229-234.
25. Meharg AA, Williams PN, Adomako E, Lawgali YY, Deacon C, Villada A, Cambell RCJ, Sun G, Zhu YG, Feldmann J, Raab A, Zhao FJ, Islam R, Hossain S, Yanai J (2009) Geographical variation in total and inorganic arsenic content of polished (white) rice. Environ Sci Technol 43: 1612-1617.
26. Mehra OP, Jackson ML (1960) Iron oxide removed from soils and clays by a dithionite-citrate system buffered with sodium bicarbonate. Clays Clay Miner 7: 317-327.
27. Mei XQ, Ye ZH, Wong MH (2009) The relationship of root porosity and radial oxygen loss on arsenic tolerance and uptake in rice grains and straw. Environ Pollut 157: 2550-2557.
28. Mondal D, Polya DA (2008) Rice is a major exposure route for arsenic in Chakdaha block, Nadia district, West Bengal, India: a probabilistic risk assessment. Appl Geochem 23: 2987-2998.
29. Nelson DW, Sommers LE (1982) Total carbon, organic, and organic matter. In: Page AL et al (eds) Method of soil analysis, part 2, 2nd edn. Agron Monogr 9, ASA and SSSA, Madi.
30. Norton GJ, Duan GL, Dasgupta T, Islam MR, Lei M, Zhu YG, Deacon CM, Moran AC, Islam S, Zhao FJ, Stroud JL, McGrath SP, Feldmann J, Price AH, Meharg AA (2009) Environmental and genetic control of arsenic accumulation and speciation in rice grain: comparing a range of common cultivars grown in contaminated sites across Bangladesh, China, and India. Environ Sci Technol 43: 8381-8386.
31. Panaullah GM, Alam T, Hossain MB, Loeppert RH, Lauren JG, Meisner CA, Ahmed ZU, Duxbury JM (2009) Arsenic toxicity to rice (Oryza sativa L.) in Bangladesh. Plant Soil 317: 31-39.
32. Raven KP, Jain A, Loeppert RH (1998) Arsenite and arsenate adsorption on ferrihydrite: kinetics, equilibrium, and adsorption envelopes. Environ Sci Technol 32: 344-349.
33. Schoof RA, Yost LJ, Eickhoff J, Crecelius EA, Crgin DW, Meacher DM, Menzel DB (1999) A market basket survey of inorganic arsenic in food. Food Chem Toxicol 37: 839-846.
34. Seyfferth AL, Webb SM, Andrews JC, Fendorf S (2010) Arsenic localization, speciation, and co-occurrence with iron on rice (Oryza sativa L.) roots having variable Fe coatings. Environ Sci Technol 44: 8108-8113.
35. Sheppard SC (1992) Summary of phytotoxic levels of soil arsenic. Water Air Soil Pollut 64: 539-550.
36. Smedley PL, Kinniburgh DG (2002) A review of the source, behavior and distribution of arsenic in natural waters. Appl Geochem 17: 517-568.
37. Su YH, McGrath SP, Zhao FJ (2010) Rice is more efficient in arsenite uptake and translocation than wheat and barley. Plant Soil 328: 27-34.
38. Syu CH, Jiang PY, Huang HH, Chen WT, Lin TH, Lee DY (2013) Arsenic sequestration in iron plaque and its effect on As uptake by rice plants grown in paddy soils with high contents of As, iron oxides, and organic matter. Soil Sci Plant Nutr 59: 463-471.
39. Takahashi Y, Minamikawa R, Hattori KH, Kurishima K, Kihou N, Yuita K (2004) Arsenic behavior in paddy fields during the cycle of flooded and non-flooded periods. Environ Sci Technol 38: 1038-1044.
40. Wang S, Mulligan CN (2006) Effect of natural organic matter on arsenic release from soils and sediments into groundwater. Environ Geochem Hlth 28: 197-214.
41. Williams PN, Raab A, Feldmann J, Meharg AA (2007a) Market basket survey shows elevated levels of as in South Central US processed rice compared to California: consequences for human dietary exposure. Environ Sci Technol 41: 2178-2183.
42. Williams PN, Villada A, Deacon C, Raab A, Figuerola J, Green AJ, Feldmann J, Meharg AA (2007b) Greatly enhanced arsenic shoot assimilation in rice leads to elevated grain levels compared to wheat and barley. Environ Sci Technol 41: 6854-6859.
43. Wu C, Ye ZH, Shu WS, Zhu YG, Wong MH (2011) Arsenic accumulation and speciation in rice are affected by root aeration and variation of genotypes. J Exp Bot 62: 2889-2898.
44. Wu C, Ye ZH, Wu SC, Deng D, Zhu YG, Wang MH (2012) Do radial oxygen loss and external aeration affect iron plaque formation and arsenic accumulation and speciation in rice? J Exp Bot 63(8): 2961-2970.
45. Xu XY, McGrath SP, Meharg AA, Zhao FJ (2008) Growing rice aerobically markedly decreases As accumulation. Environ Sci Technol 42: 5574-5579.
46. Zhao FJ, McGrath SP, Meharg AA (2010) Arsenic as a food chain contaminant: mechanism of plant uptake and metabolism and mitigation strategies. Annu Rev Plant Biol 61: 535-559.