我国部分城市和地区居民尿氟含量与饮用水氟含量的相关性

对中国22个城市、2个直辖市和饮水氟含量极高的河北省霸州地区4个村庄的饮用水氟含量与当地18岁左右居民尿氟含量进行相关性分析。结果表明,全国大部分城市饮用水氟含量处于低水平。而包括氟中毒地区在内的全国部分城市和地区饮用水氟含量与尿氟含量存在正相关关系,表明相对其它摄取氟元素渠道来说,饮用水仍然是中国居民氟的主要摄入来源。     

氟与健康的环境流行病学研究

氟是与机体健康密切相关的微量生命元素,原生环境中氟过量或缺乏均会导致机体产生疾病。氟对人类健康的影响已成为全球性的环境健康问题。综合国内外近年来的相关资料,作者概述了环境生态系物质中氟的含量、分布及化学行为,阐述了氟对机体的健康效应,分析了我国地氟病的现状,并指出了今后在氟与健康研究领域中应关注的问题。     

贵阳和万山地区部分蔬菜中的重金属含量及其健康风险

以贵州省贵阳市和万山地区为例,对购自当地自由市场的部分蔬菜中的重金属Cd、Hg、Pb、Mn、As的含量进行了测定,并以国际放射防护委员会(ICRP,International Commissionon Radiological Protection)给出的限定值为标准,对某些重金属含量超标的蔬菜进行了健康风险评价.结果表明:除个别蔬菜的As和Mn外,万山地区蔬菜中的重金属含量均明显高于贵阳地区;两地蔬菜中的As、Pb含量均低于国家限定值(GB4810-1994、GB14935-1994),而部分蔬菜中的Cd、Hg含量均明显超出国家限定值(GB15201-1994、GB2762-1994).风险评价结果表明贵阳和万山两地的蔬菜可能存在重金属Cd、Hg、Pb的中、轻度污染;存在Cd污染的蔬菜对人体的年致癌风险为3.40×10-7·a-1,非致癌物Hg和Pb对人体的总健康风险分别为3.63×10-7·a-1、1.69×10-6·a-1,均低于ICRP标准.     

中国饮用水中多环芳烃的分布和健康风险评价

饮用水中存在的多环芳烃对人类的身体健康会产生危害。应用固相萃取富集法和气相色谱?质谱联用(GC/MS)分析方法对全国主要城市的80座自来水厂出水中多环芳烃的浓度进行了分析。结果表明:各自来水厂的出水中多环芳烃总量在174.02-658.44ng.L-1之间,其中致癌性多环芳烃的总量为55.08-173.36ng.L-1,致癌性多环芳烃占多环芳烃总量比例最高可达到49.68%。就其组成而言,出水中多环芳烃以3环芳烃(31%-37%)为主,但各环均有检出;通过评价水体健康风险,得到水厂出水中多环芳烃对人体的健康风险值是10-6a-1。     

西北地膜高投入地区土壤与玉米邻苯二甲酸酯(PAEs)含量水平与健康风险评估

在西北地膜高投入的甘肃、新疆和内蒙古等3省(区)选择地膜覆盖面积较大、地膜使用量较高的5个典型县,同步采集玉米产地的土壤和玉米,采用加速溶剂萃取-高效液相色谱串联质谱技术对土壤与玉米籽粒中6种优先控制的领苯二甲酸酯(PAEs)含量进行分析.结果表明,研究区域土壤中∑_6PAEs含量为(0.532±0.175) mg·kg~(-1),区间为0.103—1.117 mg·kg~(-1).新疆∑_6PAEs含量最高.DEP在所有土壤样品中均未检出,其余5种PAEs组分含量依次为DEHP DnBP DMP BBP、DnOP.土壤PAEs均以DEHP和DnBP为主,其中DEHP占35%—65%,DnBP占24%—33%,其余PAEs组分含量和占比较低.研究区域玉米籽粒中∑_6PAEs含量为(0.508±0.105) mg·kg~(-1),区间为0.206—0.966 mg·kg~(-1),玉米对PAEs的BCF为(1.245±0.716).新疆玉米籽粒中∑_6PAEs含量最高.与土壤类似,玉米籽粒中PAEs均以DEHP和DnBP为主,两者合计占PAEs总量的63%—89%,其余PAEs组分含量和占比较低.相关性分析表明,玉米籽粒中PAEs、DnBP及DEHP含量与土壤中对应组分含量的相关性达到了显著性水平.调查区玉米PAEs含量及各组分含量均低于美国和欧洲的建议摄入标准,总体是安全的.成人和儿童的PAEs致癌风险分别为4.67×10~(-6)和1.58×10~(-6),非致癌指数分别为8.46×10~(-2)和7.60×10~(-2),均在可接受范围内.PAEs各组分中,对人体致癌和非致癌总风险贡献最大的均为DEHP.     

典型汞污染地区食物汞含量及人体汞暴露健康风险

系统采集典型汞污染地区(铅锌冶炼、金矿冶炼和燃煤电厂)食物样品(大米、蔬菜和鱼肉) 409个,测定其总汞含量以评估当地居民食物摄入汞暴露的健康风险。结果显示:铅锌冶炼地区大米总汞含量的几何均值为5.99μg·kg~(-1)(3.02～30.7μg·kg~(-1)),仅有1个样品总汞含量超过我国大米汞限量标准(20μg·kg~(-1)),蔬菜和鱼肉总汞含量分别为0.646～5.44μg·kg~(-1)和1.80～26.4μg·kg~(-1),均未超过我国食品汞限量标准;金矿冶炼地区大米总汞含量的几何均值为4.46μg·kg~(-1)(3.13～8.67μg·kg~(-1)),蔬菜和鱼肉总汞含量分别为0.760～7.83μg·kg~(-1)和1.59～21.9μg·kg~(-1),所有食物均未超过我国食品汞限量标准;燃煤电厂地区大米总汞含量的几何均值为3.63μg·kg~(-1)(1.05～11.4μg·kg~(-1)),蔬菜和鱼肉总汞含量分别为1.12～3.78μg·kg~(-1)和2.24～12.3μg·kg~(-1),所有食物均未超过我国食品汞限量标准。铅锌冶炼、金矿冶炼和燃煤电厂3个地区居民通过食用食物(大米、鱼肉和蔬菜途径)总汞摄入量的均值分别为0.068、0.038和0.031μg·d~(-1)·kg~(-1),均未超出联合国粮农组织和世界卫生组织食品添加剂联合专家委员会(JECFA)推荐的人体安全总汞摄入量0.71μg·d~(-1)·kg~(-1);表明3个研究地区居民汞暴露的风险较低。大米汞摄入量占3个地区居民食物总汞摄入量的比例分别为77.2%、70.8%和71.4%,食用大米是当地居民汞暴露的主要途径。     

华北平原某区农村供水水质与健康风险评估

在饮用水水质的评价中,国标法和综合水质指数(WQI)均以《生活饮用水卫生标准》(GB5749-2006)为评价依据,能够定性、定量反映供水水质的评价方法.健康风险评估则把污染物负荷与人类健康相关联,进而评估饮用水中的污染物对人类健康的潜在危害.通过上述3种方法对华北某区农村饮用水水质进行评估,可从不同维度评估水质供水水...     

保定市区生活饮用水中重金属污染物健康风险初步评价

以保定市3个市区的居民生活饮用水为研究对象,对其中Mn、Cu、Zn、As、Cd、Hg、Pb等重金属离子的含量进行了调查研究,并采用我国《生活饮用水卫生标准》(GB5749—2006)和目前美国环保署(EPA)推荐的健康风险评价模型对各市区饮用水中重金属所引起的健康风险进行了初步评价.结果表明,保定市各市区饮用水中重金属平均浓度范围分别为Mn:5.31—13.7μg·L-1,Cu:3.24—7.46μg·L-1,Zn:96.3—107μg·L-1,As:0.72—0.78μg·L-1,Cd:0.03—0.05μg·L-1,Hg:1.69—1.79μg·L-1,Pb:0.26—1.16μg·L-1,均未超出《生活饮用水卫生标准》.通过饮水途径所致健康风险中,As在北市区所引起的致癌风险最大(5.3×10-6a-1),Cd在新市区的致癌风险最大(1.4×10-7a-1),但均低于国际辐射防护委员会(ICRP)推荐的通过饮水途径最大可接受风险水平(5.0×10-5a-1);在保定市通过饮水途径引起的非致癌健康风险中,Zn的风险最大,Hg次之,但两者风险水平均在10-6—10-8之间,也低于ICRP推荐的最大可接受水平.此外,研究还表明大部分给水管材及其使用年限对水中重金属浓度影响不大.     

博斯腾湖流域地下水重金属污染的人体健康风险评估

在新疆博斯腾湖流域绿洲灌区采集67个浅层地下水样品,测定其中Cu、Mn、Cd、Cr、Ni和Zn等6种重金属元素的含量,采用Nemerow综合污染指数对地下水中重金属污染程度进行评价,借助US EPA健康风险评价模型对地下水中重金属污染的潜在健康风险进行评价。结果表明:(1)地下水中各元素平均含量大小顺序依次为:MnZnCuNi CrCd,各元素平均含量均未超出国家标准的限值;(2)研究区地下水中各重金属元素单项污染指数平均值从大到小依次为:Cd(2.04)、Mn(0.69)、Ni(0.45)、Cr(0.24)、Zn(0.07)、Cu(0.03)。综合污染指数的变化范围在0.23～2.22之间,平均值为0.73,呈现轻微污染;(3)健康风险评价结果表明,地下水中6种重金属对成人的潜在非致癌健康风险HI为7.83E-011,表明暴露的个体不太可能有明显的不良健康影响;对儿童的潜在非致癌健康风险HI为1.05E+011,表明研究区地下水重金属可能对当地儿童的健康产生不利影响,有进一步研究的必要性。     

Ecological and health risks of DDTs and HCHs in surface water from the upper reaches of the Huaihe River

Based on the available toxicity data and the concentrations of DDTs and HCHs in surface water from the upper reaches of the Huaihe River, overlapping areas of probability density and margin of safety (MOS₁₀) were used to estimate the risk levels of DDTs and HCHs to aquatic organisms. The overlapping areas of α-HCH, γ-HCH, p,p′-DDE, p,p′-DDD, and p,p′-DDT were found to be 9.3 × 10^?5, 4.6 × 10^?3, 4.3 × 10^?2, 2.2 × 10^?2, and 4.2 × 10^?2, respectively. The risks from DDTs were higher than those from HCHs, the risk from α-HCH being the smallest. The MOS₁₀ values of α-HCH, γ-HCH, p,p′-DDE, p,p′-DDD, and p,p′-DDT were 2.6 × 10³, 97, 5.9, 15, and 8.6, respectively, i.e. greater than 1.0, indicating limited overlaps between the distributions of exposure concentrations and of toxicity data, and thus minimal ecological risk. Health risk calculations based on incremental lifetime risks for HCHs and DDTs were conducted to evaluate human cancer risk and non-carcinogenic hazard. The total cancer risks from organochlorine pesticides (OCPs) in the studied area were in the range of 10^?8–10^?7, lower than the baseline value of acceptable risk (10^?6). Non-carcinogenic hazard indices of OCPs ranging from 10^?6 to 10^?5 were much lower than the threshold values (1.0). These results suggest that the water from the upper reaches of the Huaihe River does not pose any health risk for local residents using river water as a source for drinking water.     

河流放射性核素水体弥散模型及其应用

随着我国核能及核技术利用产业的迅速发展,放射性物质运输对饮用水水源地的潜在放射性污染健康风险越来越大,阐明事故情况下放射性物质在地表水体中的迁移弥散行为可为居民饮水健康风险防范提供科学依据。针对含钴-60、铯-137、锶-90货包公路运输在事故工况下放射性物质释放造成黄河兰州段河流型饮用水源放射性污染,讨论了河流放射性物质弥散模型和居民饮用水的健康风险。结合国内现有放射源活度水平及国内外放射性物质事故资料,考虑泥沙的影响,设定铯-137不同活度水平、不同流量情形,根据饮用水中铯-137的死亡风险系数和患病风险系数对距离事故点为64 km、114 km的河流下游两个饮用水源地居民饮用受污染自来水存在的健康风险进行评估,同时选择钴-60、锶-90两种核素以30年间河水平均流量偏小值为例进行对比评估。放射性核素在黄河河流的稀释作用下,由饮用受钴-60、铯-137、锶-90污染的水随放射源活度、河水流量及泥沙含量的变化存在不同程度的死亡风险与患病风险。因此,应当对受到放射性污染的水源及时采取适当措施,预防放射性核素造成的风险。     

典型野生食用菌重金属含量及其人体健康风险评价

土壤重金属污染是影响生态环境、食品安全和人体健康的重要因素.云南省土壤重金属背景值较高,且矿产资源丰富、采矿活动频繁,导致土壤重金属含量较高.野生食用菌是高效重金属储积器,云南是中国野生食用菌最大产区.因此,本文以云南省8种典型野生食用菌为研究对象,探究其重金属含量(汞、镉、铅、锌、铜、砷)与分配特征,采用单因子污染指...     

Distribution,enrichment mechanism and risk assessment for fluoride in groundwater: a case study of Mihe-Weihe River Basin,China

● High fluorine is mainly HCO₃·Cl-Na and HCO₃-Na type. ● F⁻ decreases with the increase of depth to water table. ● High fluoride is mainly affected by fluorine-containing minerals and weak alkaline. ● Fluorine pollution is mainly in the north near Laizhou Bay (wet season > dry season). ● Groundwater samples have a high F⁻ health risk (children > adults). Due to the unclear distribution characteristics and causes of fluoride in groundwater of Mihe-Weihe River Basin (China), there is a higher risk for the future development and utilization of groundwater. Therefore, based on the systematic sampling and analysis, the distribution features and enrichment mechanism for fluoride in groundwater were studied by the graphic method, hydrogeochemical modeling, the proportionality factor between conventional ions and factor analysis. The results show that the fluorine content in groundwater is generally on the high side, with a large area of medium-fluorine water (0.5–1.0 mg/L), and high-fluorine water is chiefly in the interfluvial lowlands and alluvial-marine plain, which mainly contains HCO₃·Cl-Na- and HCO₃-Na-type water. The vertical zonation characteristics of the fluorine content decrease with increasing depth to the water table. The high flouride groundwater during the wet season is chiefly controlled by the weathering and dissolution of fluorine-containing minerals, as well as the influence of rock weathering, evaporation and concentration. The weak alkaline environment that is rich in sodium and poor in calcium during the dry season is the main reason for the enrichment of fluorine. Finally, an integrated assessment model is established using rough set theory and an improved matter element extension model, and the level of groundwater pollution caused by fluoride in the Mihe-Weihe River Basin during the wet and dry seasons in the Shandong Peninsula is defined to show the necessity for local management measures to reduce the potential risks caused by groundwater quality.     

Distribution and Risk Assessment of Fluoride in Drinking Water in the West Plain Region of Jilin Province, China

The west plain region of Jilin province of northeast China is one of the typical endemic fluorosis areas caused by drinking water for many years. Investigations of hydrogeological and ecoenvironmental conditions as well as endemic fluorosis were conducted in 1998. Results show that the ground water, especially, the water in the unconfined aquifer is the main source of drinking water for local residents. The fluoride concentration in groundwater in the unconfined aquifers is higher than that in the confined aquifer in the west plain of Jilin province. The fluoride concentration in the unconfined aquifer can be used to classify the plain into fluoride deficient area, optimum area and excess area, which trend from west to east. High fluoride (>1.0 mg L(-1)) in drinking water resulted in dental and skeletal fluorosis in local residents (children and pregnant women). There exists a positive correlation between fluoride concentration in the drinking water and the morbidities of endemic fluorosis disease (r1 = 0.781, r2 = 0.872). Health risks associated with fluoride concentration in drinking water are assessed. It has been determined that fluoride concentration in excess of 1.0 mg L(-1) exposes residents to high health risks based on risk identification. The study area is classified into five health risk classes as shown in Figure 4. The risk indexes of this area more than 1.0 are accounted for 68% of the total west plain region.     

拉萨河流域重金属污染及健康风险评价

在分析拉萨河水体重金属污染现状以及水质理化参数的基础上,对重金属含量进行Pearson相关性分析,并运用水环境健康风险评价模型对其进行了健康风险的初步评价.结果表明Cd、Pb、Cu、Mn、Ni和Zn未超过我国生活饮用水卫生标准（GB 5749—2006）的限值,As和Fe严重超标.8种重金属含量与pH值间均不存在显著相关性,其中Zn、Ni与Pb污染存在一定的同源性,而Ni与Cd来源不同,As、Mn、Fe、Cu之间污染具有多源性.污染物通过皮肤接触途径所造成的危害要远小于饮水途径,致癌物风险比非致癌物高2—8个数量级.其中As对总风险贡献率为99.60%,成为主要的风险污染物.拉萨河水体中污染物引起的总健康风险高于EPA推荐的标准值,具有显著的风险,应引起环境监测和环境管理部门的关注.     

铜仁市土壤-玉米重金属含量及其健康风险

为了解铜仁市玉米地土壤和玉米籽粒重金属的含量分布特征,并评估当地居民通过玉米籽粒摄入重金属的健康风险.于2018年7月采集了铜仁市自然土壤样品65个、玉米地土壤样品122个和玉米样品100个,并分析其Cd、Pb、Cu、Zn、Ni、As、Hg含量,通过重金属摄入量评价居民膳食暴露的健康风险.结果表明,自然土壤Cd、Pb、...     

饮用水细菌内毒素污染的风险识别与分析研究进展

细菌内毒素,又称脂多糖分子或者热原,是革兰氏阴性细菌和某些蓝藻细胞壁组分,主要由菌体死亡解体后释放.内毒素是常见的外源性致热原,属于强免疫刺激剂,与多种人类疾病密切相关.由于饮用水中会滋长微生物,因此内毒素污染在饮用水中普遍存在.近年来,国外研究中饮用水的细菌内毒素污染开始受到关注,成为饮用水微生物安全领域新兴的研究方向.本文概述了细菌内毒素的物化性质和生物活性,分析了细菌内毒素在饮用水中的存在形态,综述了国内外关于地表水源、地下水源、管网末梢水和深度处理水的内毒素污染调查状况,分析了传统水处理技术、深度处理技术和饮用水消毒技术对内毒素的控制效果,探讨了饮用水中内毒素的血液暴露、呼吸暴露和胃肠暴露途径导致机体潜在的健康风险、安全阈值和相关标准,并对饮用水细菌内毒素污染研究方向进行了展望.