The presence of high levels of arsenic (As) in rice fields has negative effects on the health of those consuming rice as their subsistence food. This study determined the variation in total As concentration in local aromatic rice (LAR) (kalijira) and two high-yielding varieties (HYVs) (BRRI dhan 32 and BRRI dhan 28) grown in paddy fields in Matlab, Bangladesh, an As hotspot with elevated As levels in groundwater. Mature rice grain samples and soil samples were collected from different paddy fields, and the As concentrations in both the de-husked grains and the husks of the three rice cultivars were analysed to identify the safest of the three cultivars for human consumption. The results showed that the total As concentration was higher (0.09–0.21 mg As kg−1) in the de-husked grains of LAR than in the husks, while the opposite was found for the HYV rice. Moreover, the As concentration in soil samples was 2 to 5-fold higher for the LAR than for the HYVs, but the As accumulation factor (AF) was lower in the LAR (0.2–0.4%) than in the HYVs (0.9–1%). Thus, LAR can be considered the safest of the three cultivars for human consumption owing to its low AF value. Furthermore, due to the low AF, growing LAR instead of HYVs in soils with slightly elevated As levels could help improve the food safety level in the food chain.
Plants are composed of complex organisms that include morphological, physiological and biochemical segments. A number of environmental factors such as, heavy metals, drought, salinity, heat, and cold cause stress towards plants and impact on their growth and yield values. Heavy metal contamination and drought are considered to be two significant environmental (abiotic) factors that are receiving increased attention due their effects on plants. Many plant species from previously non-drought prone areas now face drought as a new stress factor and must develop their avoidance mechanisms. Comparing drought-related tolerance strategies, plants have developed a number of strategies to fight against heavy metal pollution due to its wide coverage. These heavy metal tolerance strategies include detoxification, compartmentalization, and storage in cell vacuoles in plants. Few similarities have been found in the mechanisms of both drought and heavy metal strategies. The use of beneficial microbes is considered as one of the most promising methods to improve stress tolerance because plant-associated microbes decrease metal accumulation while enhancing nutrient supply and water under such stress. In this review, we summarize how drought and heavy metals contamination effect on plant growth, with particular focus on stress avoidance and tolerance mechanisms, as well as, the role of microbes to enhance stress tolerance. Recommendations including irrigation, fertilization and molecular techniques to increase the plant’s tolerance mechanisms against heavy metal and drought conditions are also discussed.
The presence of high levels of carcinogenic metalloid arsenic (As) in the groundwater system of Bangladesh has been considered as one of the major environmental disasters in this region. Many parts of Bangladesh have extensively reported the presence of high levels of arsenic in the groundwater due to both geological and anthropogenic activities. In this paper, we reviewed the available literature and scientific information regarding arsenic pollution in Bangladesh, including arsenic chemistry and occurrences. Along with using As-rich groundwater as a drinking-water source, the agricultural activities and especially irrigation have greatly depended on the groundwater resources in this region due to high water demands for ensuring food security. A number of investigations in Bangladesh have shown that high arsenic content in both soil and groundwater may result in high levels of arsenic accumulation in different plants, including cereals and vegetables. This review provides information regarding arsenic accumulation in major rice varieties, soil-groundwater-rice arsenic interaction, and past arsenic policies and plans, as well as previously implemented arsenic mitigation options for both drinking and irrigation water systems in Bangladesh. In conclusion, this review highlights the importance and necessity for more in-depth studies as well as more effective arsenic mitigation action plans to reduce arsenic incorporation in the food chain of Bangladesh.
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