多环芳烃对海洋贝类多生物水平毒性效应的研究进展

多环芳烃类化合物(PAHs)是海洋中常见的一类持久性有机污染物,对海洋生态安全及海洋生物健康造成严重威胁。海洋贝类作为海洋生态毒理学研究的模式生物,其滤食性、固着性等生理特点使其对PAHs具有较高的生物蓄积能力,可以在不同生物水平产生一系列的毒性效应。本文综述目前PAHs在海洋贝类多种生物水平所造成的生物毒性效应及其检测方法的研究进展,重点从个体生理特征、组织结构、细胞毒性和基因毒性4个层次展开讨论,为更有效地利用海洋贝类这一模型生物,深入开展PAHs对海洋生物的致毒效应与机制研究提供思路与检测方法参考。     

Toxic effects of orimulsion on rainbow trout <Emphasis Type="Italic">oncorhynchus mykiss</Emphasis>

GOAL, SCOPE AND BACKGROUND: Orimulsion (stable emulsion of natural bitumen and water) is a new imported industrial fuel in Lithuania. No data on its toxicity to fish is freely available. The aim of this study was to investigate sensitivity of rainbow trout (Oncorhynchus mykiss) to acute and chronic toxicity of orimulsion and to estimate the Maximum Acceptable Toxicant Concentration (MATC) of orimulsion to fish. METHODS: Laboratory tests were conducted on rainbow trout in all stages of development (embryos, larvae, adults). Acute toxicity (96-hour duration) and long-term (28 or 60-day duration) tests evaluating the wide range spectrum of biological indices were performed under semi-static conditions. RESULTS AND DISCUSSION: Median lethal concentration (96-hour LC50) values and their 95% confidence intervals derived from the tests were: 0.1 (0.09-0.12) to embryos, 0.06 (0.05-0.07) to larvae and 2.22 (2.02-2.43) to adult fish, and 28-day LC50 to adult fish was found to be 0.26 (0.21-0.32) g/l of total orimulsion respectively. The acute toxicity of orimulsion to rainbow trout can be characterised by a narrow zone of toxic effect and a sharp boundary between lethal and sublethal concentrations. The lowest 'safe' or 'no-effect' concentration values of total orimulsion obtained in long-term tests were equal to 0.09 g/l to adult fish, 0.019 g/l to embryos, and 0.0017 g/l to larvae. Proposed value of 'application factor' for orimulsion was found to be equal to 0.03. Since orimulsion has the property to disperse in all water volume, its toxic effect on fish can be characterised by the combined effects of dispersion and water-soluble-fraction. CONCLUSIONS: Maximum Acceptable Toxicant Concentration (MATC) of 0.0017 g/l of total orimulsion to fish was derived from long-term tests based on the most sensitive parameter of rainbow trout larvae (relative mass increase at the end of the test). According to substance toxicity classification accepted for Lithuanian inland waters, orimulsion can be referred to substances of 'moderate' toxicity to fish. RECOMMENDATIONS AND OUTLOOK: For prediction and evaluation of toxic impact of orimulsion accident spills on fish, some recommendations should be given. Since orimulsion has the property to disperse in all water volume during short time periods, the amounts of both spilled orimulsion and polluted water should be ascertained. Once both parameters are known, the real concentration of orimulsion in the water body must be determined. Then this concentration must be compared with 'safe' concentration to fish. By use of 'application factor' 0.03, approximate MATC for other fish species can be estimated when only acute toxicity data (96-hour LC50 value) is available.     

四氯化碳的生产与应用及其淘汰策略

四氯化碳是一种消耗臭氧层物质，其生产和消费都面临着严峻的淘汰形势。简要叙述了四氯化碳的生产技术，以四氯化碳为原料生产大宗化学品和精细化学品的转化技术，四氯化碳作为化工助剂在我国的应用情况以及相应的淘汰方法和技术进展。     

Humic substances shorten human plasma prothrombin time

The prothrombin time of the normal human pooled plasma was shortened by Aldrich humic acid well water humic substances and lignin at final concentrations ranging from 5 × 10^–3 mg mL^–1 to 5 × 10^–2 mg mL^–1, with a maxmum effect at 1 × 10^–2 mg mL^–1. At this concentration the shortening was 5.5 s, 4.4 s, and 3.5 s by Aldrich humic acid, well water humic substances and lignin respectively. However, monomeric components of humic acid such as syringic acid, protocatechuic acid, pyrogallol, vanillic acid, gallic acid, resorcinol, ferulic acid, catechol, caffeic acid and p-coumaric acid did not have such ability to shorten prothrombin time at the same final concentration ranges. Certain reducing agents such as t-butanol (2.5 × 10^– –2.0 × 10^–2 mg mL^–1), glutathione (8.0 × 10^–2–1 .0 mg mL^–1), ascorbic acid (4.2 × 10^–2–5.0 × 10^–1 mg mL^–1) and dithiothreitol (1.0 × 10^–2–1.7 × 10^–1mg mL^–1) could prevent the shortening effects of humic substances or lignin on prothrombin time. These results suggested that humic substances and lignin with a polymerised structure had an ability to affect activities of some blood coagulating enzymes.     

Photocatalytic oxidation of humic substances with TiO<Subscript>2</Subscript>-coated glass micro-spheres

The photocatalytic oxidation of humic substances in aqueous solutions and natural waters with TiO₂ attached to buoyant, hollow glass micro-spheres was studied. A maximum oxidation efficiency of 3.6 mg W^–1 h^–1 was achieved in neutral or alkaline media at a plane surface concentration of the catalyst attached to the micro-spheres of 25 g m^–2. Proceeding by different mechanisms in acidic and alkaline media, the photocatalytic oxidation efficiency did not benefit from an excessive presence of hydroxyl radical promoters, hydrogen peroxide and alkali.     

三峡库区居民膳食结构与重金属摄入水平研究

采用分层多级整群随机抽样方法,经城乡经济排序,并按公共营养学要求,选取地处三峡库区中心位置的重庆市石柱县549户居民作为调查对象,对库区居民膳食结构进行了调查,同时应用总膳食研究方法,采集了当地12类主要蔬菜、肉类、粮食等样品,测定了铅、砷、镉、汞等4种重金属元素含量,分析了库区居民的重金属摄入水平.结果显示,1)除谷类、豆类、薯类和糖类外,城镇居民对其余各类食物的摄入量均高于农村居民的摄入量,城乡居民对谷类、蔬菜、水果、奶制品的摄入量还存在不足;2)库区食物中铅、镉超标较严重,其中乳类、蛋类铅含量分别为允许限量的4.98、4.54倍,砷、汞超标情况相对较轻;3)库区居民通过食物摄入的铅、砷、镉、汞4种有害重金属元素水平均低于相应的ADI值,但城镇居民、农村居民摄入的镉元素水平分别达到ADI值的86.88%和75.35%,应当引起警惕;4)薯类、谷类和蔬菜类食品是库区居民重金属摄入的主要膳食来源.     

Arsenic and other toxic elemental contamination of groundwater, surface water and soil in Bangladesh and its possible effects on human health

The problems of contamination caused by arsenic (As) and other toxic metals in groundwater, surface water and soils in the Bengal basin of Bangladesh have been studied. Altogether 10 groundwater, seven surface water and 31 soil samples were collected from arsenic-affected areas and analysed chemically. The geologic and anthropogenic sources of As and other toxic metals are discussed in this paper. The chemical results show that the mean As concentrations in groundwater in the Char Ruppur (0.253mg As L^–1), Rajarampur (1.955mg As L^–1) and Shamta areas (0.996mg As L^–1) greatly exceed the WHO recommended value, which is 0.01mg As L^–1. The concentrations of As in groundwater are very high compared to those in surface water and in surface soil in the three (As-affected) areas studied. This indicates that the source of As in groundwater could be bedrock. The relatively high concentrations of Cr, Cu, Ni, Pb and Zn in surface water, compared to world typical value, are due to the solubility of metal ions, organometalic complexes, coprecipitation or co-existance with the colloidal clay fraction. In the soil, the elevated concentrations of As, Cr, Cu, Ni, Pb and Zn are due to their strong affinity to organic matter, hydrous oxides of Fe and Mn, and clay minerals.     

荧光猝灭法测定菲、苊、芘与腐殖酸的结合常数

用荧光猝灭法测定了胡敏酸（Fluka）与苊、菲和芘相互作用的结合常数（KDOC），其lgKDOC值分别为4．4，4．48和4．89．用同样方法测得长江水生FA以及黑龙江水生FA和HA的KDOC之间有显著差别．HA的KDODC一般高于FA．黑龙江水生FA的KDOC高于长江．对同一来源的腐殖酸，三种多环芳烃的KDOC与KOW呈线性相关．     

铬对水栖寡毛类赫德莱顠体虫（Aeolosomaheadleyi）的毒性试验

赫德莱顠体虫（Ａｅｏｌｏｓｏｍａｈｅａｄｌｅｙｉ）为一种小型木栖寡毛类，行无性繁殖，室内培养容易。铬对其急性毒性试验结果为：２４ｈＬＣ＿（５０）为３．５５（３．１６─３．９０）ｍｇ／Ｌ，４８ｈＬＣ＿（５０）为１．８８（１．７７─２．０１）ｍｇ／Ｌ。低浓度慢性试验结果为：无效应浓度（ＮＯＥＣ）为１０１μｇ／Ｌ最大可接受浓度（ＭＡＥＣ）为１０１─１０２μｇ／Ｌ慢性暴露１０ｄ后种群可恢复的最高浓度为２１０ｕｇ／Ｌ．对此种寡毛类作为毒性试验生物的可能性作了简短的讨论。     

铅对泥鳅的致毒效应

铅作为环境重金属激素之一 ,对水生生物泥鳅具有明显的致毒效应。毒性实验揭示 ,铅可导致泥鳅发生各种生理、生殖反应 (甚至死亡 ) ,并诱发泥鳅血红细胞和卵细胞畸形 ,破坏血红细胞和卵细胞的正常生长 ,降低细胞的存活率 ,影响泥鳅的正常生理、生殖功能 ,显示较强的雌激素活性