Humic acid and free radical in environment of Kaschin-Beck disease areas

The humic acid contents in drinking water and soil in Kaschin-Beck disease areas were found more than that of non-disease areas in this research. Changes of free radical concentration in drinking water were agreed with that of humic acid contents in drinking water of Kaschin-Beck disease areas. A positive correlation of free radical concentration and humic acid content in drinking water has been shown (r=0.913) . The structure of I. R. spectra of humic acid under ultraviolet light has been changed. Thus it indicated that free radical was resulted from benzoqiunonyl groups of humic acid in environment.     

贵州碘缺乏病区环境中碘的特征研究

为探讨贵州碘缺乏病与环境的关系,以及环境中岩石、土壤和水对碘缺乏病分布的影响因素,对贵州碘缺乏病的重病区、轻病区和非病区进行了一定量的岩石、土壤、水及粮食作物(大米和玉米)样品采集,测试碘背景含量,并进行对比分析。结果显示,环境中岩、土及水碘背景与贵州碘缺乏病分布有一定的关系。重病区主要属岩石、土壤和水碘背景含量低的分布区,其岩石类型主要为碳酸盐岩;非病区主要属岩石、土壤和水碘背景含量相对较高的分布区,其岩石类型主要为煤系;轻病区分布的岩石、土壤和水碘背景含量则介于重病区和非病区之间,其岩石类型主要为浅变质岩和碎屑岩。      

微域环境中的硒分布与大骨节病病情程度的关系

作者于1979—1983年,选择陕西省渭北高原两个典型微域环境,研究其硒分布与其中相邻村庄居住的人群患大骨节病病情程度的关系.研究结果表明,微域环境内相邻村庄的居民,其大骨节病的病情程度与微地貌变化影响到土壤硒含量的高低,以及水文地质或地理因素影响到水硒含量的高低有密切关系.     

中国“硒与健康”数据库应用研究

由“硒与健康”数据库数据研究表明,中国26个省市人发含量量均值与长寿水平间存在着大致线性关系,相关系数达到0.71。135种常用食品含硒量与品种有关,鱼肉禽蛋>油料>豆类>粮食>蔬菜>水果。对克山病、大骨节病病区与非病区环境硒样品数据模式识别处理表明。环境硒水平不足是患病的根本原因之一,而主食大米与否不是本质原因。     

利用深层地下水防治大骨节病分析

大骨节病是一种骨关节变形地方性慢性病。该病病因复杂,以生物地球化学和地球化学生态学理论为指导,在研究区进行水文地质环境调查,并对饮水水样分析对比,发现病区饮水水源低矿化度、高腐殖酸是大骨节病患病的重要因素,据此在病区开展改水工程,探讨利用深层地下水改善病区饮水水质和提高居民生活水平的有效性,为大骨节病致病水源假说提供相关的理论依据,同时为病区综合防治大骨节病提供相关经验。     

Soil selenium concentration and Kashin-Beck disease prevalence in Tibet, China

In order to investigate the correlation between the prevalence of Kashin-Back disease (KBD) and Se concentrations, natural soil samples and cultivated soil samples were collected from southeastern Tibet, China; and the soil Se concentrations were measured by atomic fluorescent spectrophotometer. It was found that the mean Se concentrations of natural soil samples in KBD areas, from the first layer to the third layer, were 0.17 mg/kg, 0.11 mg/kg, and 0.10 mg/kg, respectively, and in nondisease areas were 0.21 mg/kg, 0.24 mg/kg, and 0.13mg/kg, respectively. The mean Se concentrations of cultivated soil samples were 0.10 mg/kg in KBD areas and 0.23 mg/kg in non-disease areas, respectively. Soil Se concentrations in KBD areas were lower than that in non-disease areas, and the mean concentrations of soil Se in Tibet were lower than the average of China (0.29 mg/kg). Therefore, there is a close relationship between soil Se concentrations and KBD in Tibet. More studies should be concentrated on the impacts of Se deficiency in soils and its relationship with Se concentrations in food-grain and the human body in Tibet areas.     

管网水限制性营养元素对微生物再生长的影响

考察C、N、P等饮用水中的限制性营养元素对微生物再生长的影响。结果表明,磷是管网中细菌生长的主要限制因子,饮用水最适合细菌生长的最佳C∶P为100∶5。另外,对于管网微生物而言,乙酸碳等易降解有机物是一种更容易被利用的有机物。因此,在饮用水处理过程中应尽可能地去除原水中磷,使出厂水TP控制在5μg/L以下,同时要防止饮用水被一些有机物特别是小分子易降解有机物污染,以确保饮用水安全。     

饮用水源地非点源风险遥感提取及定量评估

基于高空间分辨率卫星数据,以面向对象分类方法结合人工解译方法获得我国25个典型湖库型饮用水源地保护区的非点源风险空间分布,并基于水源地非点源风险指数(NPPRI)对非点源风险进行定量评价. 结果表明,我国典型水源地一级保护区与二级保护区内居民点、开采用地、农田类用地等非点源风险普遍存在,部分水源地还存在水产养殖、旅游用地、畜禽养殖等风险源. 在监测的25个水源地中,水源地非点源风险隐患为高、较高、偏高、中度、低的比例分别为12%、4%、44%、20%、20%,风险隐患中度及以下的为40%,偏高及以上的为60%,说明水源地中非点源风险隐患总体明显. 另一方面,25个水源地中,非点源风险指数最大为42.0,最小为0.8,表明全国水源地非点源风险现状差异较大,需引起重视. 水源地非点源风险的大小与保护区面积没有正相关关系,各水源地非点源风险程度在全国的空间分布没有明显的空间分布格局,而主要和水源地与城市距离、当地相关部门对水源地重视程度、配套的管理措施及历史状况等因素相关.      

饮用水源水中致嗅物质去除技术研究进展

土臭素和2-甲基异莰醇是饮用水中存在的主要致嗅味物质,活性炭吸附是目前研究最多、应用最广泛的嗅味物质去除技术,文章重点介绍了影响活性炭吸附的各种因素,对化学氧化法和生物降解法去除嗅味物质的研究进展进行了简述。     

云南省典型乡镇集中式饮用水水源地基础环境状况

介绍了云南省典型乡镇饮用水水源地基础信息,对129个水源地达标情况做了评价,并阐述了水源地保护区污染状况。     

饮用水砷污染治理研究进展

简述了饮用水中砷污染的来源和危害,砷在水环境的存在形态和毒性,分析了当前饮用水不同除砷方法的研究进展。     

我国生活饮用水水源保护区的问题研究

我国从 1 984年开始立法建立生活饮用水水源保护区 ,问题很多 ,一方面是现有水源保护区不成功 ,另一方面是水源保护区数量太少。本文运用中外比较研究方法 ,就我国水源保护区的划定划分与政策进行了讨论。     

柴河水库饮用水源地水质现状调查及评价

柴河水库是铁岭市主要饮用水源地之一,年取水量为8370万立方米。但随着工农业的迅猛发展,给柴河水库也带来了不同程度的污染,因此保护好饮用水源,确保群众饮水安全已显得十分重要。本文对铁岭市柴河水库饮用水源地的现状进行调查分析,并提出了防治对策。     

As污染区农民头发中As含量与环境中As含量的关系

为研究As污染区农民头发中As含量与环境中As含量的关系,采用分层整群随机抽样方式,抽取湖北省气型和污灌型As污染区6个村农民头发样660份,同时采集这6个村的饮用水、土壤、食物(大米、小麦、蔬菜、鸡蛋、鸡肉、猪肉)样品,用原子荧光光谱法测定As含量.研究结果表明,两种类型As污染区农民头发中As含量污染区明显高于对照区,农民头发中As含量有随着区域土壤和食品中As含量增高而相应增高的趋势.对不同年龄组研究表明,高龄组头发中砷含量最高,反映出人体慢性暴露As蓄积的现象,而污染区人群男女头发中As含量差异不显著.人发中As含量与饮水中As含量无显著相关性,而与土壤和主要食物(大米、小麦)中As含量有显著正相关.因此人发中As含量作为人体长期暴露生物标记物,可以反映区域环境污染的程度.     

Treatment of taste and odor causing compounds 2-methyl isoborneol and geosmin in drinking water: A critical review

Problems due to the taste and odor in drinking water are common in treatment facilities around the world. Taste and odor are perceived by the public as the primary indicators of the safely and acceptability of drinking water and are mainly caused by the presence of two semi-volatile compounds – 2-methyl isoborneol (MIB) and geosmin. A review of these two taste and odor causing compounds in drinking water is presented. The sources for the formation of these compounds in water are discussed alongwith the health and regulatory implications. The recent developments in the analysis of MIB/geosmin in water which have allowed for rapid measurements in the nanogram per liter concentrations are also discussed. This review focuses on the relevant treatment alternatives, that are described in detail with emphasis on their respective advantages and problems associated with their implementation in a fullscale facility. Conventional treatment processes in water treatment plants, such as coagulation, sedimentation and chlorination have been found to be ine ective for removal of MIB/geosmin. Studies have shown powdered activated carbon, ozonation and biofiltration to be e ective in treatment of these two compounds. Although some of these technologies are more e ective and show more promise than the others, much work remains to be done to optimize these technologies so that they can be retrofitted or installed with minimal impact on the overall operation and e ectiveness of the treatment system.     

Ammonia pollution characteristics of centralized drinking water sources in China

The characteristics of ammonia in drinking water sources in China were evaluated during 2005-2009. The spatial distribution and seasonal changes of ammonia in different types of drinking water sources of 22 provinces, 5 autonomous regions and 4 municipalities were investigated. The levels of ammonia in drinking water sources follow the order of river > lake/reservoir > groundwater. The levels of ammonia concentration in river sources gradually decreased from 2005 to 2008, while no obvious change was observed in the lakes/reservoirs and groundwater drinking water sources. The proportion of the type of drinking water sources is different in different regions. In river drinking water sources, the ammonia level was varied in different regions and changed seasonally. The highest value and wide range of annual ammonia was found in South East region, while the lowest value was found in Southwest region. In lake/reservoir drinking water sources, the ammonia levels were not varied obviously in different regions. In underground drinking water sources, the ammonia levels were varied obviously in different regions due to the geological permeability and the natural features of regions. In the drinking water sources with higher ammonia levels, there are enterprises and wastewater drainages in the protected areas of the drinking water sources.     

香港某地饮用水中非挥发性有机物致突变性的研究

应用大孔树脂吸附浓集水中有机物的技术,结合Ames致突变试验,研究了香港某地饮用水中非挥发性有机物（NOcs）的致突变性．结果表明,在加与不加代谢活化系统（±S9）条件下,1～2 L水中的非挥发性有机物即可诱发鼠伤寒沙门氏菌（TA98）的回复突变;此外,活性炭可部分吸附水中具致突变作用的有机物     

吹扫捕集—气相色谱／质谱联用测定饮用水中59种挥发性有机物

建立了吹扫捕集一气相色谱／质谱联用测定饮用水中59种挥发性有机物的方法,方法检出限为0．004～0．085μg/L,可满足饮用水中特定有机分析项目的检测要求。     

锡林郭勒盟农村牧区饮用水水质现状

根据锡林郭勒盟环境保护监测站2010年,对全盟13个旗县市区所辖农村牧区的42个饮用水供水点水质监测结果,进行单因子评价和综合评价,研究分析锡盟农村牧区饮用水水质现状及饮用水水质超标的主要原因,提出了相应的改善措施与保护对策。     

我国城市饮用水中N-亚硝基二甲胺的健康风险评估及水质标准制定

亚硝胺类物质,特别是亚硝基二甲胺(NDMA),其高致癌性及在我国饮用水中高检出率引起了国内媒体和管理层的广泛关注.为了评价饮水中NDMA造成的健康风险,进而提出我国饮水标准的建议,本文利用近几年全国饮用水水质调查的NDMA数据,以伤残调整寿命年(DALYs)为风险评价终点,并结合疾病模型,对饮水途径摄入NDMA造成的健康风险进行估算.结果表明,我国城市饮用水中由于NDMA造成的终身癌症发病率为5.69×10~(-6),人均DALYs损失为6.27×10~(-7)人·a~(-1).以WHO所推荐的风险可接受水平(DALYs)(10~(-6)人·a~(-1))来制定饮用水中NDMA浓度安全标准,应为6.12 ng·L~(-1).考虑到我国水厂工艺情况,未来NDMA的安全标准设在6~40 ng·L~(-1)范围内更合理.最终的水质标准仍需进一步考虑其他经济和技术水平等因素.