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2. Medicinal Plants as Effective Antiviral Agents and Their Potential Benefits.

Author

Atampugbire, Gabriel, Adomako, Eureka Emefa Ahadjie, and Quaye, Osbourne

Subjects
PLANT products, PLANT extracts, MEDICINAL plants, NATURAL products, VIRUS diseases, ANTIVIRAL agents
Abstract

This paper explores a diverse field of medicinal plants as potential antiviral agents, and delves into utilization of plant medicine for combating viral infections, emphasizing recent surge in research on natural products from plants as antiviral agents. Specific plant-derived compounds, like phyllanthin and iscador, have been proven to exhibit antiviral properties with great potential for pharmaceutical development. Mechanisms of antiviral action by phytochemicals that are present in medicinal plants, including direct viral inhibition, degradation of viral capsid, and immunomodulation were identified, and a combination therapy of medicinal plants with conventional antiviral drugs were explored. Efficacy of medicinal plants as antiviral agents was critically assessed and revealed that the complexity and variability of herbal formulations, and safety concerns regarding toxicity levels, pose challenges in drug development. However, research on medicinal plants is often hindered by limited understanding of phytochemical mechanisms, the complexity and variability of herbal formulations, and safety concerns regarding toxicity and interactions with other medications. The way forward in harnessing full potential of medicinal plants as antiviral agents underscores the need for further research into developing models that seek to enhance the selectivity of plant extracts in order to minimize toxicity levels. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Global Sourcing of Low-Inorganic Arsenic Rice Grain

Author

Carey, Manus, Meharg, Caroline, Williams, Paul, Marwa, Ernest, Jiujin, Xiao, Farias, Júlia Gomes, De Silva, P. Mangala C. S., Signes-Pastor, Antonio, Lu, Ying, Nicoloso, Fernando Teixeira, Savage, Laurie, Campbell, Katrina, Elliott, Christopher, Adomako, Eureka, Green, Andy J., Moreno-Jiménez, Eduardo, Carbonell-Barrachina, Ángel Antonio, Triwardhani, Eridha Ayu, Pandiangan, Febbyandi Isanda, Haris, Parvez I., Lawgali, Youssef F., Sommella, Alessia, Pigna, Massimo, Brabet, Catherine, Montet, Didier, Njira, Keston, Watts, Michael J., and Meharg, Andrew A.

Published
2020
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4. Rice Grain Cadmium Concentrations in the Global Supply-Chain

Author

Shi, Zhengyu, Carey, Manus, Meharg, Caroline, Williams, Paul N., Signes-Pastor, Antonio J., Triwardhani, Eridha Ayu, Pandiangan, Febbyandi Isnanda, Campbell, Katrina, Elliott, Christopher, Marwa, Ernest M., Jiujin, Xiao, Farias, Júlia Gomes, Nicoloso, Fernando Teixeira, De Silva, P. Mangala C. S., Lu, Ying, Norton, Gareth, Adomako, Eureka, Green, Andy J., Moreno-Jiménez, Eduardo, Zhu, Yongguan, Carbonell-Barrachina, Ángel Antonio, Haris, Parvez I., Lawgali, Youssef F., Sommella, Alessia, Pigna, Massimo, Brabet, Catherine, Montet, Didier, Njira, Keston, Watts, Michael J., Hossain, Mahmud, Islam, M. Rafiqul, Tapia, Yasna, Oporto, Carla, and Meharg, Andrew A.

Published
2020
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5. Variations in levels of arsenic and other potentially toxic trace elements in Ghanaian soils and grains : human health implications for mining-impacted areas

Author

Adomako, Eureka Emefa

Subjects
363.7396
Abstract

Soil, plant and water samples from Ghana were analysed by inductively coupled plasma--mass spectrometry (ICP-MS) to ascertain the impact of gold mining on soil chemistry and grain quality. Principal component analysis (PCA) of soil trace element concentrations showed that while As, Co, Cu and Zn are the main trace elements influencing variability, As poses a more serious pollution threat compared to all other elements considered in this study. Soils from the Anum Valley Irrigation Project (AVIP) site at Odumase, located close to the old Konongo gold mine in the Ashanti region, contained up to 103 mg As/kg and paddy rice from this site recorded the highest grain As content (0.6 mg/kg) for Ghana grown rice. Results from water analysis indicate that surface run-offs from abandoned mine tailings into the paddy irrigation water (River Owerri) constitute the primary source of As pollution at the AVIP-Odumase site. Comparison of soil-shoot-grain As transfer in Ghana and Bangladesh grown rice showed that at equivalent shoot concentrations rice grain As concentration will be higher for Bangladesh grown rice. Both Bangladesh and Ghana grown rice, however, showed an exponential relationship between shoot As and grain/shoot As ratio, thus indicating a strong influence of plant physiological regulation on As transfer to rice grain. Results of regression analyses of soil-shoot-grain As, Cu, Mn and Zn relationships suggest a potential disruption of the trace element content of rice grain as a result of the geochemical and physiological repercussions of elevated As in paddy fields. Market basket surveys of indigenous and imported grains from Ghana showed that mean As content in polished paddy rice from Ghana (0.11 mg/kg) is 10 times higher than in the locally produced maize, sorghum and millet. On the whole, mining communities that depend on As-enriched water for irrigation of farmlands, as well as for drinking and cooking, face higher risks of dietary As exposure.

Published
2008

6. Survey of rice (Oryza sativaL.) production ecosystems in northern Ghana confirms low risk of exposure to potential toxic elements from local grain consumption

Author

Adomako, Eureka E.A., Aboagye-Ghunney, Kow, and Owusu, Prince

Abstract

Expanding local rice production to meet consumer demand is a priority action under the Government of Ghana’s Planting for Food and Jobs initiative. While studies on yield-enhancing interventions abound, fewer studies focus on food safety issues (e.g., the potential toxic element status of the production ecosystems). This study was, therefore, conducted to bridge the knowledge gap. Chemical analyses were conducted on water, soil, and rice grain samples from different production ecosystems in the Northern and Upper East regions of Ghana. Statistical analysis of the data showed that soil and rice grain arsenic concentrations were significantly higher (P< 0.001) in the Upper East region. In the Northern region, mean cadmium concentration in rice grains from the irrigated lowland fields (0.023±0.003 mg/kg) was significantly higher than in grains from the rainfed fields. All recorded concentrations of rice grain arsenic, cadmium, and lead were, however, within permissible limits, indicating a low risk of dietary exposure. The observed differences in concentrations within and between regions suggest that soil texture and other geogenic factors could influence the potential toxic element status of the rice production ecosystems. Regular monitoring is, therefore, recommended to maintain the safety of Ghana’s locally produced rice for human consumption.

Published
2024
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9. Rice Grain Cadmium Concentrations in the Global Supply-Chain

Author

Shi, Zhengyu, Carey, Manus, Meharg, Caroline, Williams, Paul N., Signes-Pastor, Antonio J., Triwardhani, Eridha Ayu, Pandiangan, Febbyandi Isnanda, Campbell, Katrina, Elliott, Christopher, Marwa, Ernest M., Jiujin, Xiao, Farias, Júlia Gomes, Nicoloso, Fernando Teixeira, De Silva, P. Mangala C. S., Lu, Ying, Norton, Gareth, Adomako, Eureka, Green, Andy J., Moreno-Jiménez, Eduardo, Zhu, Yongguan, Carbonell-Barrachina, Ángel Antonio, Haris, Parvez I., Lawgali, Youssef F., Sommella, Alessia, Pigna, Massimo, Brabet, Catherine, Montet, Didier, Njira, Keston, Watts, Michael J., Hossain, Mahmud, Islam, M. Rafiqul, Tapia, Yasna, Oporto, Carla, and Meharg, Andrew A.

Abstract

One of cadmium’s major exposure routes to humans is through rice consumption. The concentrations of cadmium in the global polished (white), market rice supply-chain were assessed in 2270 samples, purchased from retailers across 32 countries, encompassing 6 continents. It was found on a global basis that East Africa had the lowest cadmium with a median for both Malawi and Tanzania at 4.9 μg/kg, an order of magnitude lower than the highest country, China with a median at 69.3 μg/kg. The Americas were typically low in cadmium, but the Indian sub-continent was universally elevated. In particular certain regions of Bangladesh had high cadmium, that when combined with the high daily consumption rate of rice of that country, leads to high cadmium exposures. Concentrations of cadmium were compared to the European Standard for polished rice of 200 μg/kg and 5% of the global supply-chain exceeded this threshold. For the stricter standard of 40 μg/kg for processed infant foods, for which rice can comprise up to 100% by composition (such as rice porridges, puffed rice cereal and cakes), 25% of rice would not be suitable for making pure rice baby foods. Given that rice is also elevated in inorganic arsenic, the only region of the world where both inorganic arsenic and cadmium were low in grain was East Africa.

Published
2024
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10. Global Sourcing of Low-Inorganic Arsenic Rice Grain

Author

Carey, Manus, Meharg, Caroline, Williams, Paul, Marwa, Ernest, Jiujin, Xiao, Farias, Júlia Gomes, De Silva, P. Mangala C. S., Signes-Pastor, Antonio, Lu, Ying, Nicoloso, Fernando Teixeira, Savage, Laurie, Campbell, Katrina, Elliott, Christopher, Adomako, Eureka, Green, Andy J., Moreno-Jiménez, Eduardo, Carbonell-Barrachina, Ángel Antonio, Triwardhani, Eridha Ayu, Pandiangan, Febbyandi Isanda, Haris, Parvez I., Lawgali, Youssef F., Sommella, Alessia, Pigna, Massimo, Brabet, Catherine, Montet, Didier, Njira, Keston, Watts, Michael J., and Meharg, Andrew A.

Abstract

Arsenic in rice grain is dominated by two species: the carcinogen inorganic arsenic (the sum of arsenate and arsenite) and dimethylarsinic acid (DMA). Rice is the dominant source of inorganic arsenic into the human diet. As such, there is a need to identify sources of low-inorganic arsenic rice globally. Here we surveyed polished (white) rice across representative regions of rice production globally for arsenic speciation. In total 1180 samples were analysed from 29 distinct sampling zones, across 6 continents. For inorganic arsenic the global x~was 66 μg/kg, and for DMA this figure was 21 μg/kg. DMA was more variable, ranging from < 2 to 690 μg/kg, while inorganic arsenic ranged from < 2 to 399 μg/kg. It was found that inorganic arsenic dominated when grain sum of species was < 100 μg/kg, with DMA dominating at higher concentrations. There was considerable regional variance in grain arsenic speciation, particularly in DMA where temperate production regions had higher concentrations. Inorganic arsenic concentrations were relatively consistent across temperate, subtropical and northern hemisphere tropical regions. It was only in southern hemisphere tropical regions, in the eastern hemisphere that low-grain inorganic arsenic is found, namely East Africa (x~< 10 μg/kg) and the Southern Indonesian islands (x~< 20 μg/kg). Southern hemisphere South American rice was universally high in inorganic arsenic, the reason for which needs further exploration.

Published
2024
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11. Correction to: Global Sourcing of Low-Inorganic Arsenic Rice Grain

Author

Carey, Manus, Meharg, Caroline, Williams, Paul, Marwa, Ernest, Jiujin, Xiao, Farias, Júlia Gomes, De Silva, P. Mangala C. S., Signes-Pastor, Antonio, Lu, Ying, Nicoloso, Fernando Teixeira, Savage, Laurie, Campbell, Katrina, Elliott, Christopher, Adomako, Eureka, Green, Andy J., Moreno-Jiménez, Eduardo, Carbonell-Barrachina, Ángel Antonio, Triwardhani, Eridha Ayu, Pandiangan, Febbyandi Isanda, Haris, Parvez I., Lawgali, Youssef F., Sommella, Alessia, Pigna, Massimo, Brabet, Catherine, Montet, Didier, Njira, Keston, Watts, Michael J., and Meharg, Andrew A.

Published
2020
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13. Global Sourcing of Low-Inorganic Arsenic Rice Grain

Author

Carey, Manus, primary, Meharg, Caroline, additional, Williams, Paul, additional, Marwa, Ernest, additional, Jiujin, Xiao, additional, Farias, Júlia Gomes, additional, De Silva, P. Mangala C. S., additional, Signes-Pastor, Antonio, additional, Lu, Ying, additional, Nicoloso, Fernando Teixeira, additional, Savage, Laurie, additional, Campbell, Katrina, additional, Elliott, Christopher, additional, Adomako, Eureka, additional, Green, Andy J., additional, Moreno-Jiménez, Eduardo, additional, Carbonell-Barrachina, Ángel Antonio, additional, Triwardhani, Eridha Ayu, additional, Pandiangan, Febbyandi Isanda, additional, Haris, Parvez I., additional, Lawgali, Youssef F., additional, Sommella, Alessia, additional, Pigna, Massimo, additional, Brabet, Catherine, additional, Montet, Didier, additional, Njira, Keston, additional, Watts, Michael J., additional, and Meharg, Andrew A., additional

Published
2019
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14. Correction to: Global Sourcing of Low-Inorganic Arsenic Rice Grain

Author

Carey, Manus, Meharg, Caroline, Williams, Paul, Marwa, Ernest, Jiujin, Xiao, Farias, Júlia Gomes, De Silva, P. Mangala C. S., Signes-Pastor, Antonio, Lu, Ying, Nicoloso, Fernando Teixeira, Savage, Laurie, Campbell, Katrina, Elliott, Christopher, Adomako, Eureka, Green, Andy J., Moreno-Jiménez, Eduardo, Carbonell-Barrachina, Ángel Antonio, Triwardhani, Eridha Ayu, Pandiangan, Febbyandi Isanda, Haris, Parvez I., Lawgali, Youssef F., Sommella, Alessia, Pigna, Massimo, Brabet, Catherine, Montet, Didier, Njira, Keston, Watts, Michael J., and Meharg, Andrew A.

Abstract

The last column in Table 1, “As air conc.” is not used in the text and was included by mistake.

Published
2024
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15. Lead in rice: Analysis of baseline lead levels in market and field collected rice grains

Author

Norton, Gareth J., primary, Williams, Paul N., additional, Adomako, Eureka E., additional, Price, Adam H., additional, Zhu, Yongguan, additional, Zhao, Fang-Jie, additional, McGrath, Steve, additional, Deacon, Claire M., additional, Villada, Antia, additional, Sommella, Alessia, additional, Lu, Ying, additional, Ming, Lei, additional, De Silva, P. Mangala C.S., additional, Brammer, Hugh, additional, Dasgupta, Tapash, additional, Islam, M. Rafiqul, additional, and Meharg, Andrew A., additional

Published
2014
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17. Inorganic arsenic and trace elements in Ghanaian grain staples

Author

Adomako, Eureka E., Williams, Paul N., Deacon, Claire, Meharg, Andrew A., Adomako, Eureka E., Williams, Paul N., Deacon, Claire, and Meharg, Andrew A.

Abstract

A total of 549 samples of rice, maize, wheat, sorghum and millet were obtained from markets in Ghana, the EU, US and Asia. Analysis of the samples, originating from 21 countries in 5 continents, helped to establish global mean trace element concentrations in grains; thus placing the Ghanaian data within a global context. Ghanaian rice was generally low in potentially toxic elements, but high in essential nutrient elements. Arsenic concentrations in rice from US (0.22 mg/kg) and Thailand (0.15 mg/kg) were higher than in Ghanaian rice (0.11 mg/kg). Percentage inorganic arsenic content of the latter (83%) was, however, higher than for US (42%) and Thai rice (67%). Total arsenic concentration in Ghanaian maize, sorghum and millet samples (0.01 mg/kg) was an order of magnitude lower than in Ghanaian rice, indicating that a shift from rice-centric to multigrain diets could help reduce health risks posed by dietary exposure to inorganic As.

Published
2011

18. Arsenic limits trace mineral nutrition (selenium, zinc, and nickel) in Bangladesh rice grain

Author

Williams, Paul N, Islam, Shofiqul, Islam, Rafiqul, Jahiruddin, M, Adomako, Eureka, Soliaman, A R M, Rahman, G K M M, Lu, Ying, Deacon, Claire, Zhu, Yong-Guan, Meharg, Andrew A, Williams, Paul N, Islam, Shofiqul, Islam, Rafiqul, Jahiruddin, M, Adomako, Eureka, Soliaman, A R M, Rahman, G K M M, Lu, Ying, Deacon, Claire, Zhu, Yong-Guan, and Meharg, Andrew A

Abstract

A reconnaissance of 23 paddy fields, from three Bangladesh districts, encompassing a total of 230 soil and rice plant samples was conducted to identify the extent to which trace element characteristics in soils and irrigation waters are reflected by the harvested rice crop. Field sites were located on two soil physiographic units with distinctly different As soil baseline and groundwater concentrations. For arsenic (As), both straw and grain trends closely fitted patterns observed for the soils and water. Grain concentration characteristics for selenium (Se), zinc (Zn), and nickel (Ni), however, were markedly different. Regressions of shoot and grain As against grain Se, Zn, and Ni were highly significant (P <0.001), exhibiting a pronounced decline in grain trace-nutrient quality with increasing As content. To validate this further, a pot experiment cultivar screening trial, involving commonly cultivated high yielding variety (HYV) rice grown alongside two U.S. rice varieties characterized as being As tolerant and susceptible, was conducted on an As-amended uniform soil. Findings from the trial confirmed that As perturbed grain metal(loid) balances, resulting in severe yield reductions in addition to constraining the levels of Se, Zn, and Ni in the grain.

Published
2009

19. Baseline Soil Variation Is a Major Factor in Arsenic Accumulation in Bengal Delta Paddy Rice

Author

Lu, Ying, Adomako, Eureka, Solaiman, A R M, Islam, Rafiqul M, Deacon, Claire, Williams, Paul, Rahman, G K M M, Meharg, Andrew A., Lu, Ying, Adomako, Eureka, Solaiman, A R M, Islam, Rafiqul M, Deacon, Claire, Williams, Paul, Rahman, G K M M, and Meharg, Andrew A.

Abstract

Factors responsible for paddy soil arsenic accumulation in the tubewell irrigated systems of the Bengal Delta were investigated. Baseline (i.e., nonirrigated) and paddy soils were collected from 30 field systems across Bangladesh. For each field, soil sampled at dry season (Boro) harvest, i.e., the crop cycle irrigated with tubewell water, was collected along a 90 m transect away from the tubewell irrigation source. Baseline soil arsenic levels ranged from 0.8 to 21. mg/kg, with lower values found on the Pliestocene Terrace around Gazipur (average, 1.6 ± 0.2 mg/kg), and higher levels found in Holecene sediment tracts of Jessore and Faridpur (average, 6.6 ± 1.0 mg/kg). Two independent approaches were used to assess the extent of arsenic build-up in irrigated paddy soils. First, arsenic build-up in paddy soil at the end of dry season production (irrigated − baseline soil arsenic) was regressed against number of years irrigated and tubewell arsenic concentration. Years of irrigation was not significant (P = 0.711), indicating no year-on-year arsenic build-up, whereas tubewell As concentration was significant (P = 0.008). The second approach was analysis of irrigated soils for 20 fields over 2 successive years. For nine of the fields there was a significant (P < 0.05) decrease in soil arsenic from year 1 to 2, one field had a significant increase, whereas there was no change for the remaining 10. Over the dry season irrigation cycle, soil arsenic built-up in soils at a rate dependent on irrigation tubewell water, 35* (tubewell water concentration in mg/kg, ≡ mg/L). Grain arsenic rises steeply at low soil/shoot arsenic levels, plateauing out at concentratations. Baseline soil arsenic at Faridpur sites corresponded to grain arsenic levels at the start of this saturation phase. Therefore, variation in baseline levels of soil arsenic leads to a large range in grain arsenic. Where sites have high baseline soil arsenic, further additional arsenic from irrigation water only le

Published
2009

20. Selenium characterization in the global rice supply chain

Author

Williams, Paul N, Lombi, Enzo, Sun, Guo-Xin, Scheckel, Kirk, Zhu, Yong-Guan, Feng, Xinbin, Zhu, Jianming, Carey, Anne-Marie, Adomako, Eureka, Lawgali, Youseff, Deacon, Claire, Meharg, Andrew A, Williams, Paul N, Lombi, Enzo, Sun, Guo-Xin, Scheckel, Kirk, Zhu, Yong-Guan, Feng, Xinbin, Zhu, Jianming, Carey, Anne-Marie, Adomako, Eureka, Lawgali, Youseff, Deacon, Claire, and Meharg, Andrew A

Abstract

For up to 1 billion people worldwide, insufficient dietary intake of selenium (Se) is a serious health constraint. Cereals are the dominant Se source for those on low protein diets, as typified by the global malnourished population. With crop Se content constrained largely by underlying geology, regional soil Se variations are often mirrored by their locally grown staples. Despite this, the Se concentrations of much of the world's rice, the mainstay of so many, is poorly characterized, for both total Se content and Se speciation. In this study, 1092 samples of market sourced polished rice were obtained. The sampled rice encompassed dominant rice producing and exporting countries. Rice from the U.S. and India were found to be the most enriched, while mean average levels were lowest in Egyptian rice: approximately 32-fold less than their North American equivalents. By weighting country averages by contribution to either global production or export, modeled baseline values for both were produced. Based on a daily rice consumption of 300 g day(-1), around 75% of the grains from the production and export pools would fail to provide 70% of daily recommended Se intakes. Furthermore, Se localization and speciation characterization using X-ray fluorescence (micro-XRF) and X-ray absorption near edge structure (micro-XANES) techniques were investigated in a Se-rich sample. The results revealed that the large majority of Se in the endosperm was present in organic forms.

Published
2009

21. Geographical variation in total and inorganic arsenic content of polished (white) rice

Author

Meharg, Andrew A, Williams, Paul N, Adomako, Eureka, Lawgali, Youssef Y, Deacon, Claire, Villada, Antia, Cambell, Robert C J, Sun, Guoxin, Zhu, Yong-Guan, Feldmann, Joerg, Raab, Andrea, Zhao, Fang-Jie, Islam, Rafiqul, Hossain, Shahid, Yanai, Junta, Meharg, Andrew A, Williams, Paul N, Adomako, Eureka, Lawgali, Youssef Y, Deacon, Claire, Villada, Antia, Cambell, Robert C J, Sun, Guoxin, Zhu, Yong-Guan, Feldmann, Joerg, Raab, Andrea, Zhao, Fang-Jie, Islam, Rafiqul, Hossain, Shahid, and Yanai, Junta

Abstract

An extensive data set of total arsenic analysis for 901 polished (white) grain samples, originating from 10 countries from 4 continents, was compiled. The samples represented the baseline (i.e., notspecifically collected from arsenic contaminated areas), and all were for market sale in major conurbations. Median total arsenic contents of rice varied 7-fold, with Egypt (0.04 mg/kg) and India (0.07 mg/kg) having the lowest arsenic content while the U.S. (0.25 mg/kg) and France (0.28 mg/kg) had the highest content. Global distribution of total arsenic in rice was modeled by weighting each country's arsenic distribution by that country's contribution to global production. A subset of 63 samples from Bangladesh, China, India, Italy, and the U.S. was analyzed for arsenic species. The relationship between inorganic arsenic contentversus total arsenic contentsignificantly differed among countries, with Bangladesh and India having the steepest slope in linear regression, and the U.S. having the shallowest slope. Using country-specific rice consumption data, daily intake of inorganic arsenic was estimated and the associated internal cancer risk was calculated using the U.S. Environmental Protection Agency (EPA) cancer slope. Median excess internal cancer risks posed by inorganic arsenic ranged 30-fold for the 5 countries examined, being 0.7 per 10,000 for Italians to 22 per 10,000 for Bangladeshis, when a 60 kg person was considered.

Published
2009

22. Enhanced transfer of arsenic to grain for Bangladesh grown rice compared to US and EU

Author

Adomako, Eureka E, Solaiman, A R M, Williams, Paul N, Deacon, Claire, Rahman, G K M M, Meharg, Andrew A, Adomako, Eureka E, Solaiman, A R M, Williams, Paul N, Deacon, Claire, Rahman, G K M M, and Meharg, Andrew A

Abstract

A field survey was conducted in arsenic impacted and non-impacted paddies of Bangladesh to assess how arsenic levels in rice (Oryza sativa L.) grain are related to soil and shoot concentrations. Ten field sites from an arsenic contaminated tubewell irrigation region (Faridpur) were compared to 10 field sites from a non-affected region (Gazipur). Analysis of the overall data set found that both grain and shoot total arsenic concentrations were highly correlated (P

Published
2009

23. Selenium characterization in the global rice supply chain

Author

Williams, Paul N., Lombi, Enzo, Sun, Guo-Xin, Scheckel, Kirk, Zhu, Yong-Guan, Feng, Xinbin, Zhu, Jianming, Carey, Anne-Marie, Adomako, Eureka, Lawgali, Youseef, Deacon, Claire, Maharg, Andrew A., Williams, Paul N., Lombi, Enzo, Sun, Guo-Xin, Scheckel, Kirk, Zhu, Yong-Guan, Feng, Xinbin, Zhu, Jianming, Carey, Anne-Marie, Adomako, Eureka, Lawgali, Youseef, Deacon, Claire, and Maharg, Andrew A.

Published
2009

25. Variation in Rice Cadmium Related to Human Exposure

Author

Meharg, Andrew A., primary, Norton, Gareth, additional, Deacon, Claire, additional, Williams, Paul, additional, Adomako, Eureka E., additional, Price, Adam, additional, Zhu, Yongguan, additional, Li, Gang, additional, Zhao, Fang-Jie, additional, McGrath, Steve, additional, Villada, Antia, additional, Sommella, Alessia, additional, De Silva, P. Mangala C. S., additional, Brammer, Hugh, additional, Dasgupta, Tapash, additional, and Islam, M. Rafiqul, additional

Published
2013
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28. Selenium Characterization in the Global Rice Supply Chain

Author

Williams, Paul N., primary, Lombi, Enzo, additional, Sun, Guo-Xin, additional, Scheckel, Kirk, additional, Zhu, Yong-Guan, additional, Feng, Xinbin, additional, Zhu, Jianming, additional, Carey, Anne-Marie, additional, Adomako, Eureka, additional, Lawgali, Youseff, additional, Deacon, Claire, additional, and Meharg, Andrew A., additional

Published
2009
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31. Geographical Variation in Total and Inorganic Arsenic Content of Polished (White) Rice

Author

Meharg, Andrew A., primary, Williams, Paul N., additional, Adomako, Eureka, additional, Lawgali, Youssef Y., additional, Deacon, Claire, additional, Villada, Antia, additional, Cambell, Robert C. J., additional, Sun, Guoxin, additional, Zhu, Yong-Guan, additional, Feldmann, Joerg, additional, Raab, Andrea, additional, Zhao, Fang-Jie, additional, Islam, Rafiqul, additional, Hossain, Shahid, additional, and Yanai, Junta, additional

Published
2009
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33. Baseline Soil Variation Is a Major Factor in Arsenic Accumulation in Bengal Delta Paddy Rice.

Author

YING LU, ADOMAKO, EUREKA E., SOLAIMAN, A. R. M., ISLAM, M. RAFIQUL, DEACON, CLAIRE, WILLIAMS, P. N., RAHMAN, G. K. M. M., and MEHARG, ANDREW A.

Subjects
*ARSENIC, *SOIL composition, *RICE field irrigation, *SOIL testing, *IRRIGATED soils, *IRRIGATION farming
Abstract

Factors responsible for paddy soil arsenic accumulation in the tubewell irrigated systems of the Bengal Delta were investigated. Baseline (i.e., nonirrigated) and paddy soils were collected from 30 field systems across Bangladesh. For each field, soil sampled at dry season (Boro) harvest, i.e., the crop cycle irrigated with tubewell water, was collected along a 90 m transect away from the tubewell irrigation source. Baseline soil arsenic levels ranged from 0.8 to 21. mg/kg, with lower values found on the Pliestocene Terrace around Gazipur (average, 1.6 ± 0.2 mg/kg), and higher levels found in Holecene sediment tracts of Jessore and Faridpur (average, 6.6 ± 1.0 mg/kg). Two independent approaches were used to assess the extent of arsenic build-up in irrigated paddy soils. First arsenic build-up in paddy soil at the end of dry season production (irrigated — baseline soil arsenic) was regressed against number of years irrigated and tubewell arsenic concentration. Years of irrigation was not significant (P = 0.711), indicating no year-on-year arsenic build-up, whereas tubewell As concentration was significant (P= 0.008). The second approach was analysis of irrigated soils for 20 fields over 2 successive years. For nine of the fields there was a significant (P < 0.05) decrease in soil arsenic from year 1 to 2, one field had a significant increase, whereas there was no change for the remaining 10. Over the dry season irrigation cycle, soil arsenic built-up in soils at a rate dependent on irrigation tubewell water, 35* (tubewell water concentration in mg/kg, mg/L). Grain arsenic rises steeply at low soil/shoot arsenic levels, plateauing out at concentratations. Baseline soil arsenic at Faridpur sites corresponded to grain arsenic levels at the start of this saturation phase. Therefore, variation in baseline levels of soil arsenic leads to a large range in grain arsenic. Where sites have high baseline soil arsenic, further additional arsenic from irrigation water only leads to a gradual increase in grain arsenic concentration. [ABSTRACT FROM AUTHOR]

Published
2009
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34. Rice Grain Cadmium Concentrations in the Global Supply-Chain

Author

Katrina Campbell, Youssef F. Lawgali, Febbyandi Isnanda Pandiangan, Paul N. Williams, Alessia Sommella, Yasna Tapia, Didier Montet, Yong-Guan Zhu, Mahmud Hossain, Andrew A. Meharg, P. Mangala C.S. De Silva, Eureka Adomako, Manus Carey, Catherine Brabet, Júlia Gomes Farias, Christopher T. Elliott, Antonio J. Signes-Pastor, Ángel A. Carbonell-Barrachina, Fernando Teixeira Nicoloso, Eridha Ayu Triwardhani, Massimo Pigna, Caroline Meharg, Michael J. Watts, Andy J. Green, Gareth J. Norton, Ying Lu, M. Rafiqul Islam, Carla Oporto, Parvez I. Haris, Keston Njira, Enerst M. Marwa, Eduardo Moreno-Jiménez, Zhengyu Shi, Xiao Jiujin, Shi, Zhengyua, Carey, Manusa, Meharg, Caroline, Williams, Paul N., Signes-Pastor, Antonio J., Triwardhani, Eridha Ayua, Pandiangan, Febbyandi Isnanda, Campbell, Katrina, Elliott, Christopher, Marwa, Ernest M., Jiujin, Xiao, Farias, Júlia Gome, Nicoloso, Fernando Teixeira, De Silva, P. Mangala C. S., Lu, Ying, Norton, Gareth, Adomako, Eureka, Green, Andy J., Moreno-Jiménez, Eduardo, Zhu, Yongguank, Carbonell-Barrachina, Ángel Antoniol, Haris, Parvez I. m, Lawgali, Youssef F., Sommella, Alessia, Pigna, Massimo, Brabet, Catherine, Montet, Didier, Njira, Kestonq, Watts, Michael J. r, Hossain, Mahmud, Islam, M. Rafiqul, Tapia, Yasnat, Oporto, Carlau, and Meharg, Andrew A.

Subjects
inorganic chemicals, Exposure route, Health, Toxicology and Mutagenesis, chemistry.chemical_element, 010501 environmental sciences, 01 natural sciences, Arsenic, chaîne d'approvisionnement alimentaire, Toxicology, SDG 3 - Good Health and Well-being, East africa, European standard, Contamination chimique, Rice cereal, riz, 0105 earth and related environmental sciences, Water Science and Technology, Cadmium, Public Health, Environmental and Occupational Health, food and beverages, Rice grain, 04 agricultural and veterinary sciences, Bioaccumulation, Pollution, chemistry, Q03 - Contamination et toxicologie alimentaires, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, contamination des aliments, Composition (visual arts), Rice
Abstract

Green, Andy J. et al., One of cadmium’s major exposure routes to humans is through rice consumption. The concentrations of cadmium in the global polished (white), market rice supply-chain were assessed in 2270 samples, purchased from retailers across 32 countries, encompassing 6 continents. It was found on a global basis that East Africa had the lowest cadmium with a median for both Malawi and Tanzania at 4.9 μg/kg, an order of magnitude lower than the highest country, China with a median at 69.3 μg/ kg. The Americas were typically low in cadmium, but the Indian sub-continent was universally elevated. In particular certain regions of Bangladesh had high cadmium, that when combined with the high daily consumption rate of rice of that country, leads to high cadmium exposures. Concentrations of cadmium were compared to the European Standard for polished rice of 200 μg/kg and 5% of the global supply-chain exceeded this threshold. For the stricter standard of 40 μg/kg for processed infant foods, for which rice can comprise up to 100% by composition (such as rice porridges, puffed rice cereal and cakes), 25% of rice would not be suitable for making pure rice baby foods. Given that rice is also elevated in inorganic arsenic, the only region of the world where both inorganic arsenic and cadmium were low in grain was East Africa.

Published
2020

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