Soil, grain and water chemistry in relation to human selenium-responsive diseases in Enshi District, China

Fordyce, F.M.; Zhang, Guangdi; Green, K.; Liu, Xinping

doi:10.1016/s0883-2927(99)00035-9

Cited by 208 publications

(118 citation statements)

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“…Selenium is an essential trace element for humans and animals (Allan et al, 1999); selenium deficiency can lead or contribute to Keshan disease and Kashin-Beck disease, which have been reported in areas characterized by extremely low selenium content in the soil and food (Fordyce et al, 2000;Williams et al, 2009). Cereals and cereal products are the main source of dietary intake of selenium for populations living in the low selenium areas (Rayman, 2008).…”

Section: Discussionmentioning

confidence: 99%

Effect of selenium fertilization on the accumulation of cadmium and lead in rice plants

et al. 2014

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Background and Aims The accumulation of cadmium and lead in rice (Oryza sativa L.) grains is a potential threat to human health. In this study, the effect of selenium fertilization on the uptake and translocation of cadmium and lead in rice plants was investigated. Methods Rice plants were cultivated using cadmium and lead contaminated soils with selenium addition at three concentrations (0, 0.5 and 1 mg kg −1 ). At maturity, plants were harvested, and element concentrations in rice tissues were analyzed by using ICP-MS.Results Selenium application significantly increased seleniumaccumulationinricegrain,andmarkedlydecreased cadmium and lead concentrations in rice tissues. In brown rice grains, selenium application reduced cadmium concentrations by 44.4%, but had nosignificant effect onlead accumulation. Selenium application significantly decreased metal mobility in soils, at 0.5 mg kg −1 treatment, the translocation factor of cadmium and lead from soil to ironplaquedecreased by71and 33% respectively. Conclusions The mechanism of selenium mitigating of heavy metal accumulation in rice could be decreasing metal bioavailability in soil. Selenium fertilization could be an effective and feasible method to enrich selenium and reduce cadmium levels in brown rice.

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Section: Discussionmentioning

confidence: 99%

Effect of selenium fertilization on the accumulation of cadmium and lead in rice plants

et al. 2014

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“…Assuming a cigarette contains 1 g tobacco and that all the selenium is inhaled, a person smoking 20 cigarettes could intake 1.6 µg Se day -1 . The inhalation of locally grown selenium-rich tobacco in seleniferous regions of China may contribute to the loading of the local population (selenium concentration 9.05 mg kg -1 , Fordyce et al, 1998). In general, however, inhalation is a less important exposure route than ingestion.…”

Section: Selenium In Animals and Humansmentioning

confidence: 99%

“…Several different chemical techniques are available to assess bioavailability but one of the most widely accepted indicators is the watersoluble selenium content (Jacobs, 1989;Tan, 1989;Fordyce et al, 2000b). In most soils, only a small proportion of the total selenium is dissolved in solution (0.3 -7%) and water soluble selenium contents are generally < 0.1 mg kg -1 (Table 3) (Jacobs, 1989).…”

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confidence: 99%

Selenium Deficiency and Toxicity in the Environment

Fordyce

2012

Essentials of Medical Geology

387

363

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“…Low soil selenium is associated with sand, sandstone and siltstone as opposed to clay (Hou et al, 1992). Availability is inhibited by adsorption onto organic matter as well as leaching, with low levels typically found on hill slopes (Hou et al, 1992;Fordyce et al, 2000;Wang and Gao, 2001). Sulfur fertilization is also thought to interfere with selenium uptake by plants (Gupta & Gupta, 2002).…”

Section: Introductionmentioning

confidence: 99%

Selenium status in Southern Tasmania

et al. 2007

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Objective: To assess the selenium status of Southern Tasmanians. Design: Cross-sectional. Settings: One thousand and five hundred adults randomly selected from the electoral roll living in the Greater Hobart region of Southern Tasmania, Australia, were invited to participate. Subjects: The overall response rate was 22% (335/1500). Interventions: A venous blood sample was collected and a questionnaire administered (consisting of brief demographic details and health questions) to subjects who granted informed consent. A previously validated assay using magnetic sector ICP-MS was employed for plasma analysis. Results: Total plasma selenium levels for this sample population were normally distributed with a mean level of 110 mg/l (range 67-268 mg/l) indicating that the majority of the subjects were not selenium-depleted (71% with levels greater than 100 mg/l). Adjustment for differential age/gender response rates produced similar values. More women under 50 (42%) and men over 50 (32%) had selenium levels o100 mg/l with the potential for sub-optimal selenoprotein activity. Low education attainment was associated with low total selenium level (Po0.02). Conclusions: The majority of participants were not deficient in selenium. Given the narrow therapeutic window of supplementation, dietary advice to increase foods rich in selenium, particularly to higher risk groups, may be an effective means of increasing plasma selenium toward target levels.

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Soil, grain and water chemistry in relation to human selenium-responsive diseases in Enshi District, China

Cited by 208 publications

References 1 publication

Effect of selenium fertilization on the accumulation of cadmium and lead in rice plants

Effect of selenium fertilization on the accumulation of cadmium and lead in rice plants

Selenium Deficiency and Toxicity in the Environment

Selenium status in Southern Tasmania

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