Arsenic in groundwaters of the Lower Mekong

Increasing incidence and awareness of arsenic in many alluvial aquifers of South-east Asia has raised concern over possible arsenic in the Lower Mekong Basin. Here, we have undertaken new research and reviewed many previous small-scale studies to provide a comprehensive overview of the status of arsenic in aquifers of Cambodia and the Cuu Long Delta of Vietnam. In general natural arsenic originates from the Upper Mekong basin, rather than from the local geology, and is widespread in soils at typical concentrations of between 8 and 16 ppm; (dry weight). Industrial and agricultural arsenic is localised and relatively unimportant compared to the natural alluvial arsenic. Aquifers most typically contain groundwaters of no more than 10 μg L⁻¹, although scattered anomalous areas of 10 to 30 μg L⁻¹ are also quite common. The most serious, but possibly ephemeral arsenic anomalies, of up to 600 μg L⁻¹, are associated with iron and organic-rich flood-plain sediments subject to very large flood-related fluctuations in water level, resulting in transient arsenopyrite dissolution under oxidizing conditions. In general, however, high-arsenic groundwaters result from the competing interaction between sorption and dissolution processes, in which arsenic is only released under reducing and slightly alkaline conditions. High arsenic groundwaters are found both in shallow water-tables, and in deeper aquifers of between 100 and 120 m depth. There is no evidence of widespread arsenicosis, but there are serious localised health-hazards, and some risk of low-level arsenic ingestion through indirect pathways, such as through contaminated rice and aquaculture. An almost ubiquitous presence of arsenic in soils, together with the likelihood of greatly increased groundwater extraction in the future, will require continuing caution in water resources development throughout the region.     

卟啉作为人体早期砷暴露生物标志的研究

采用氢化物发生原子吸收分析了贵州省燃煤污染型砷中毒区和非砷中毒区（对照）居民尿样中砷浓度,采用高效液相色谱法分析了卟啉浓度,考察了燃煤污染造成的人体砷暴露与尿液中卟啉排泄改变的关系,寻求慢性砷中毒早期健康效应的生物标志物.结果显示,与对照组相比,砷暴露组尿卟啉Ⅲ（uroporphyrin-Ⅲ）和粪卟啉Ⅲ（coproporphyrin-Ⅲ）显著增高（P＜0.01,P＜0.01）,粪卟啉Ⅰ（coproporphyrin-Ⅰ）比对照组增高,但不显著;不同性别组间比较,对照组和暴露组的中龄（20～40岁）群体尿液中,尿卟啉Ⅲ的浓度在男性和女性群体之间呈显著性的差异（P<0.01）,其它年龄组中,这一指标在不同性别群体之间未见显著性差异;不同年龄分层比较,低龄组（＜20岁）尿卟啉Ⅲ和粪卟啉Ⅲ比对照显著增高（P＜0.01,P＜0.01）,中龄组（20～40岁）和高龄组（＞40岁）粪卟啉Ⅲ比对照显著增高（P＜0.05,P＜0.05）;此外,砷暴露组尿液中砷与总粪卟啉和总卟啉呈正相关（r=0.623,r=0.549）.结果表明,人体砷暴露会导致尿液中卟啉排泄的改变,提示卟啉有可能作为慢性砷中毒早期健康效应的生物标志.     

Dietary selenium fortification: a potential solution to chronic arsenic toxicity

Selenium (Se), an important micronutrient and antioxidant, also acts as an antagonist of arsenic (As). Se supplementation of diet was investigated in mitigating chronic As toxicity in mammals. Experiments were conducted to determine whether Se supplementation in As-exposed rats might (i) decrease As-induced lipid peroxidation in liver, (ii) increase blood antioxidant status, and (iii) reverse suppression of the secondary antibody response. Male Wistar rats were exposed to As (40 and 80?ppm) in drinking water and received challenge diets with three different levels of Se (deficient: <0.01?ppm, adequate: 0.15 ppm, and fortified: 0.6?ppm) for 16 weeks. Clinical variables including behavior, body weight, and food and water consumption were recorded weekly, and blood sample was collected monthly. Antioxidant status was assessed through glutathione sulfhydryl (GSH) levels in whole blood. Lipid peroxidation in the liver was evaluated using the malondialdehyde (MDA) assay. The antibody response was measured using keyhole limpet hemocyanin as an immunogen. Se deficiency significantly increased hepatic lipid peroxidation and suppressed antibody production relative to the Se-adequate and -fortified groups, confirming that Se deficiency exacerbates the damage produced by As exposure. Se fortification markedly elevated the blood GSH level in both As-exposed groups, indicating protective effects. At adequate Se levels, rats showed signs of counteracting As-mediated toxicity. However, Se fortification produced more pronounced benefits against As-induced toxicity, a pattern that was particularly notable in the 40?ppm As group.     

内蒙古自治区河套平原砷中毒高发区作物中砷的检测及健康风险评价

为了研究地方性砷中毒高发区作物中砷含量及其对人体健康的威胁,在内蒙古自治区河套平原4个自然村采集了72个谷物蔬菜水果、81份人体尿样和8个自来水样品。用高效液相色谱-电感耦合等离子体质谱(HPLC-ICP-MS)分析测定采集的样品中各形态砷及其含量;用ICP-MS分析测定消解后的作物样品中砷总量。结果表明,自来水中总砷含量均小于1.0μg·L-1。尿液样品中总砷含量为4.50～319μg·L-1(平均值为56.9μg·L-1),二甲基砷(DMA)是尿砷的主要形态(>70%)。作物中砷的主要形态有无机三价砷As(III)、无机五价砷As(V)和DMA。谷物和蔬菜水果中总砷含量的最大值分别为102和335μg·kg-1。成人和儿童最大日摄入砷量分别为232和205μg。通过分析采样地人体尿砷、作物砷和地方性砷中毒发病率的相关性得出,作物中砷的含量虽未明显超过国家标准,但对人体健康有明显的潜在威胁。政府改水后(饮用水由井水变为达标的自来水),人体的健康风险主要来自作物中的砷,而不是饮用水中的砷。     

Selenium and arsenic content of agricultural soils from Bangladesh and Nepal

Arsenic (As) contamination of the available domestic drinking water from shallow aquifers to villagers in Bangladesh often exceeds the newest WHO standard of <10 µg As L^?1 and the older Bangladeshi standard of <50 µg As L^?1. An estimated 9.2 million shallow tube wells in Bangladesh deliver water to 97% of the rural population, placing an estimated 57 million people at risk for arsenicosis. The contamination of drinking water by As extends to W. Bengal, India and Nepal. The same shallow aquifers used for domestic water are also used to irrigate food crops, particularly rice. Irrigation adds As to soils and increases exposure of the population to additional As via foods consumed. Selenium (Se), an essential trace mineral found in soils, is absorbed by plants, entering the human food chain. It was suggested that a low dietary intake of Se may be contributing to the problem of human arsenicosis in Bangladesh. Dietary Se acts as a natural antidote to As by (1) accelerating As excretion, (2) sequestering As by complexation and (3) as an antioxidant component of the enzyme glutathione peroxidase that may counteract the prooxidant effects of As that contribute to arsenicosis and cancer. Analysis of 70 agricultural soil samples from Bangladesh by fluorimetry, ICP-AES and Neutron Activation Analysis showed the soils analyzed to be high in As (～33 µg g^?1) and biologically low in soluble Se (～0.02 µg g^?1). A low dietary intake of Se related to low soil content and this mineral in foods may be contributing to human arsenicosis in the Ganges–Brahmaputra delta.     

Humic Acids from Endemic Arsenicosis Areas in Inner Mongolia and from the Blackfoot-Disease Areas in Taiwan: A Comparative Study

The physical and chemical properties of humic acids (HA) extracted from drinking waters from the endemic arsenicosis areas in Inner Mongolia and from the Blackfoot disease (BD) areas in Taiwan are studied by using AAS (atomic absorption spectrophotometry), ICP-MS (inductively coupled plasma emission-mass spectrometry), IR (Infrared spectroscopy), FR (fluorescence spectrometry) and TLS (total luminescence spectroscopy) in order to shed light on the pathogenesis of BD with the concern as to whether the disease may eventually occur in arsenicosis-affected areas in the Mainland of China. Ames test and lipid peroxidation experiments were also conducted on these HA samples. It is found that water samples from the two regions are high in arsenic (As) with strong fluorescence and apparent positive correlations between As content, fluorescence, pH and total dissolved solids (TDS). The water samples are similar in fluorescence spectra but differ somewhat in IR and TLS between the two regions. The difference may be a reflection of the difference in radicals and structure of the HA owing to different hydrogeological conditions, and may also be related to the difference in their biological effects, i.e., HA from Inner Mongolia have a stronger ability to cause lipid peroxidation while HA from Taiwan exhibits a more prominent effect of mutation with respect to TA98(±S9).