| P50 | author | Peter Christie | Q43286072 |
| | Longhua Wu | Q56419558 |
| | Liqiang Zhou | Q98164129 |
| | Yongming Luo | Q110301408 |
| | Jiexue Huang | Q114413405 |
| | Younan Ouyang | Q114413407 |
| | Yujuan Huang | Q114413409 |
| P2093 | author name string | Jing Song | |
| | Zhu Li | |
| | Songfeng Wang | |
| | Cunliang Han | |
| | Pengjie Hu | |
| P2860 | cites work | Mechanisms to cope with arsenic or cadmium excess in plants | Q37509628 |
| | Arsenic behavior in paddy fields during the cycle of flooded and non-flooded periods. | Q42032037 |
| | Rice as the most influential source of cadmium intake among general Japanese population | Q44299242 |
| | Greatly enhanced arsenic shoot assimilation in rice leads to elevated grain levels compared to wheat and barley | Q46223842 |
| | Uptake kinetics of arsenic species in rice plants. | Q47579561 |
| | Suppressive effects of magnesium oxide materials on cadmium uptake and accumulation into rice grains II: Suppression of cadmium uptake and accumulation into rice grains due to application of magnesium oxide materials. | Q50851067 |
| | Arsenic Shoot-Grain Relationships in Field Grown Rice Cultivars | Q57056611 |
| | 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 | Q57056655 |
| | Occurrence and Partitioning of Cadmium, Arsenic and Lead in Mine Impacted Paddy Rice: Hunan, China | Q57056667 |
| | Water management impacts on arsenic speciation and iron-reducing bacteria in contrasting rice-rhizosphere compartments | Q57108029 |
| | Growing rice aerobically markedly decreases arsenic accumulation | Q57116452 |
| | Mitigation of arsenic accumulation in rice with water management and silicon fertilization | Q57127626 |
| | The Role of Irrigation Techniques in Arsenic Bioaccumulation in Rice (Oryza sativa L.) | Q57251601 |
| | Rice is a major exposure route for arsenic in Chakdaha block, Nadia district, West Bengal, India: A probabilistic risk assessment | Q57889961 |
| | Arsenic contamination of Bangladesh paddy field soils: implications for rice contribution to arsenic consumption | Q57938587 |
| | Uptake and translocation of inorganic and methylated arsenic species by plants | Q59004252 |
| | Cadmium accumulation in different rice cultivars and screening for pollution-safe cultivars of rice | Q79997369 |
| | Effects of water management on cadmium and arsenic accumulation and dimethylarsinic acid concentrations in Japanese rice | Q82202309 |
| | A single recessive gene controls cadmium translocation in the cadmium hyperaccumulating rice cultivar Cho-Ko-Koku | Q82356018 |
| | Arsenic release from flooded paddy soils is influenced by speciation, Eh, pH, and iron dissolution | Q83657095 |
| P433 | issue | 6 | |
| P921 | main subject | water management | Q1501619 |
| P304 | page(s) | 767-778 | |
| P577 | publication date | 2013-05-30 | |
| P1433 | published in | Environmental Geochemistry and Health | Q15759070 |
| P1476 | title | Water management affects arsenic and cadmium accumulation in different rice cultivars | |
| P478 | volume | 35 | |