2015
DOI: 10.1016/j.jhazmat.2014.12.052
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Arsenic accumulation and speciation in rice grains influenced by arsenic phytotoxicity and rice genotypes grown in arsenic-elevated paddy soils

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Cited by 78 publications
(29 citation statements)
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“…Additionally, differences in translocation efficiency of both iAs and DMA between the two genotypes also confirmed this assumption. Numerous studies have reported that DMA is the dominant As species in grain (Smith et al,2008;Zheng et al, 2013;Syu et al, 2015). Zheng et al (2013) showed that DMA has greater mobility than inorganic As in both xylem and phloem, and DMA was inclined to accumulate in the caryopsis whilst inorganic As was mainly sequestered in vegetative tissues; Carey et al (2011) reported that DMA was easily transported into rice grain.…”
Section: Discussionmentioning
confidence: 99%
“…Additionally, differences in translocation efficiency of both iAs and DMA between the two genotypes also confirmed this assumption. Numerous studies have reported that DMA is the dominant As species in grain (Smith et al,2008;Zheng et al, 2013;Syu et al, 2015). Zheng et al (2013) showed that DMA has greater mobility than inorganic As in both xylem and phloem, and DMA was inclined to accumulate in the caryopsis whilst inorganic As was mainly sequestered in vegetative tissues; Carey et al (2011) reported that DMA was easily transported into rice grain.…”
Section: Discussionmentioning
confidence: 99%
“…Arsenic concentration in rice grains vary to 6 and 7 folds in different countries, while this concentration varies up to 40-folds in rice varieties within same country. The findings help in hypothesizing that both the genotypes and environmental factors play very important roles to control arsenic accumulation in rice grains [65]. The major factors that influence the arsenic accumulation in rice grain include the type of the rice cultivar, plant physiology, the place where the plant was cultivated, and the method of processing of rice [10].…”
Section: Accumulation Of Arsenic In Rice Grainmentioning
confidence: 94%
“…Conversely, the percentage of As(III) was inversely proportional to tAs (negative correlation, r = À0.361, p < 0.05). Reduction of As(III) in proportion with increased tAs may be because of restricted accumulation and translocation of As(III) in rice grains, while tAs concentration increases (Syu, Huang, Jiang, Lee, & Lee, 2015).…”
Section: Arsenic Speciation In Ricementioning
confidence: 99%