环境激素污染研究进展及污染防治

环境激素具有类雌激素活性 ,能对生物和人体的内分泌机能造成影响 ;环境激素污染可导致各种生物的生殖功能下降和生殖器免疫力降低 ,并引起各种生理异常。本文对国内外环境重金属激素和有机激素的研究进行了综述 ,并总结了防治环境激素污染的主要技术手段 ;指出环境激素致毒生物化学机理研究、环境激素在环境介质中的迁移 转化 积累的行为研究、环境激素容量分析以及环境激素物质的进一步筛选是国际环境科学领域的重要研究方向和前沿领域。     

Seasonal distribution and contamination levels of total PHCs, PAHs and heavy metals in coastal waters of the Alang-Sosiya ship scrapping yard, Gulf of Cambay, India

Alang-Sosiya situated on the Gulf of Cambay is one of the largest ship breaking yard in the world. The seasonal distribution and contamination levels of dissolved and/or dispersed total petroleum hydrocarbons (PHCs), total polycyclic aromatic hydrocarbons (PAHs) and heavy metals in seawater during high tide are investigated. The concentrations of petroleum hydrocarbons and heavy metals are higher in the winter than in the monsoon and summer. The concentrations of total PHCs and PAHs are about three times higher in the winter and two times in the monsoon or summer at Along-Sosiya and about twice in all seasons at two stations one on either side 5 km away from it as compared to the reference station at Mahuva, 60 km away towards the south. Further, the levels of PHCs are correlated with salinity and compared with those of other regions. The concentration of all metals is the highest in the winter season followed by the monsoon and summer. We carried out the quantitative analysis of the possible relationships among 13 variables such as Al, Fe, Pb, Mn, Cu, Zn, Cd, Cr, Co, pH, NO3-, NO2 and PO4(3-).     

廉价吸附剂处理重金属离子废水的研究进展

随着现代工业的迅速发展，生产过程中排出的有害重金属离子废水日益增加。寻找较为廉价的废水净化材料，对其中有害重金属离子的有效处理已成为环境保护中亟待解决的问题。廉价吸附剂的使用取代了目前成本较高的从溶液中回收重金属离子的方法，同时吸附剂改性会大大提高其吸附量。阐述了壳聚糖、海泡石、膨润土、海藻和泥炭等结构组成、吸附和离子交换性能等，报道廉价吸附剂对一些重金属离子的最大吸附量是：796mgPb／g壳聚糖，1123mgHg／g壳聚糖。92mgcr（Ⅲ）／g壳聚糖，76mgCr（Ⅲ）／g泥炭，41mgPb／g膨润土，558mgCd／g壳聚糖，215mgCd／g海藻。由此展现了廉价吸附剂在重金属离子废水处理过程中的巨大优势和良好的发展前景。     

Poland’s environment - past,present and future state of the environment in the vistula and odra river basins

In the middle of the last century in the case of many river basins, it became obvious that the targets of the Helsinki-Commission (HELCOM) concerning a 50% reduction of nitrogen and phosphorus inputs to the Baltic Sea had not been reached. Such conclusions could be derived from the observed loads. But the measurements regarding the analysis were not sufficient to determine what the reasons for this report were, what has to be done to fulfil this agreement and to evaluate the time at which the targets can be reached. This contribution presents the current state of Polish surface water quality as well as results of modelling nutrient and heavy metal emissions into the two biggest Polish river basins: Vistula and Odra, which both cover approximately 90% of Poland's territory.     

原生质体电诱导融合构建去除重金属的高效菌

研究了采用原生质体电融合技术构建高效的重金属去除菌;对影响电融合效率的几个参数,以及融合子的生长条件、除铬性能和遗传稳定性等方面进行了考察;确定了进行电融合的最佳条件,并选出 1株最好的融合株R32. 实验结果表明:R32不论是在处理低浓度还是高浓度的铬液时,其去除率和还原率都明显高于 2株亲本菌,处理低浓度含铬废水时,去除率和还原率可达到 100%;处理高浓度含铬废水(200mgL-1 )时,还原率仍可达 50%以上. 经过多次传代后,R32的除铬能力保持稳定. 当投菌量>10gL-1 (湿重)时,其去除率和还原率都在 80%以上. 正交实验结果显示,pH和Cu2 浓度对R32的生长影响都不大,这些特点都有利于R32在实际含铬废水处理中的应用. 图 4表 3参 14     

麦饭石对Pb2+离子吸附的动力学研究

本文研究了水溶液中麦饭石对Ｐｂ＾２＋离子去除的反应动力学,考察了ＭＦＳ粒度、溶液ＰＨ值和铅离子的初始浓度对吸附反应的影响。结果表明,ＭＦＳ对Ｐｂ＾２离子具有较强的吸附性能,ＰＨ值是影响吸附的主要因素,Ｐｂ＾２＋离子吸附的最初速率与浓度符合一级反应动力学;吸附过程符合Ｌａｎｇｍｕｉｒ吸附等温式;离子交换和表面络合反应是主要吸附形式。     

Variations in heavy metal contamination of stream water and groundwater affected by an abandoned lead–zinc mine in Korea

This study evaluated variations in heavy metal contamination of stream waters and groundwaters affected by an abandoned lead–zinc mine, where a rockfill dam for water storage will be built 11 km downstream. For these purposes, a total of 10 rounds of stream and groundwater samplings and subsequent chemical analyses were performed during 2002–2003. Results of an exploratory investigation of stream waters in 2000 indicated substantial contamination with heavy metals including zinc (Zn), iron (Fe) and arsenic (As) for at least 6 km downstream from the mine. Stream waters near the mine showed metal contamination as high as arsenic (As) 8,923 μg L⁻¹, copper (Cu) 616 μg L⁻¹, cadmium (Cd) 223 μg L⁻¹ and lead (Pb) 10,590 μg L⁻¹, which greatly exceeded the Korean stream water guidelines. Remediation focused on the mine tailing piles largely improved the stream water qualities. However, there have still been quality problems for the waters containing relatively high concentrations of As (6–174 μg L⁻¹), Cd (1–46 μg L⁻¹) and Pb (2–26 μg L⁻¹). Rainfall infiltration into the mine tailing piles resulted in an increase of heavy metals in the stream waters due to direct discharge of waste effluent, while dilution of the contaminated stream waters improved the water quality due to mixing with metal free rain waters. Levels of As, Cu and chromium (Cr) largely decreased after heavy rain but that of Pb was rather elevated. The stream waters were characterized by high concentrations of calcium (Ca) and sulfate (SO₄), which were derived from dissolution and leaching of carbonate and sulfide minerals. It was observed that the proportions of Ca and SO₄ increased while those of bicarbonate (HCO₃) and sodium and potassium (Na+K) decreased after a light rainfall event. Most interestingly, the reverse was generally detected for the groundwaters. The zinc, being the metal mined, was the most dominant heavy metal in the groundwaters (1758–10,550 μg L⁻¹) near the mine, which far exceeded the Korean standard of 1000 μg L⁻¹ for drinking water. The decreases in the heavy metals contents in the groundwaters associated with reduced rainfall were quite different from the increases observed for the stream waters, which is not clearly understood at this time and warrants further investigation.     

Environmental risk assessment of metals contaminated soils at silvermines abandoned mine site,Co Tipperary,Ireland

A centuries long history of mining and mineral processing has resulted in elevated Cd, Pb and Zn soil concentrations in the vicinity of the Silvermines abandoned mine site (AMS), Co. Tipperary, Ireland. A process for preliminary evaluation of environmental risk was developed and implemented. Potential pathways of metal compound transport and deposition were mapped and used to optimise the subsequent site investigation. Elevated soil metals are shown to be predominantly in areas where metal deposition in soil is associated with water related pathways (surface runoff, seasonal groundwater seepage and floodplains). Extensive areas of soil in the surrounding district are classified as contaminated on the basis of Cd, Pb and Zn concentrations, both total and potential bioavailable (EDTA-extractable). The most affected areas, with metal concentrations in soil comparable with that within the AMS, were floodplains located 2–3 km downstream from the site. Assessment of the sequential effects on grass and grazing animals indicates that Pb poses the greatest risk due to its high toxicity and high concentrations in soil (more than 10 000 mg kg^–1). Within floodplain areas grazing cattle may intake a lethal dose of Pb. On the basis of the investigation an approach to risk assessment was developed which allowed quantified assessment of the risks related to individual metals, areas of contamination and contamination targets.     

Assessment of Groundwater Quality and Contamination from Uranium-Bearing Black Shale in Goesan–Boeun Areas, Korea

This study was initiated to identify the impact of metals and uranium enriched soil and black shale in groundwater quality and contamination. From a Piper diagram, groundwater was classified into four types as (Ca+Mg)–HCO₃ type, (Ca+Mg)–SO₄ type, the mixed type of these two and Na–HCO₃ type, reflecting the complicated nature of geology of the study area. Silicate weathering appeared to be the major water–rock interaction. In groundwater, metals including Cr, Pb, Cu and V, previously identified as being enriched in soils and black shale, were much lower in concentrations than Korean and US EPA drinking water guidelines. Instead, Fe and Mn caused major water-quality problems. In the artesian groundwater from an abandoned uranium mine, the uranium concentration was 21.3 µg L^–1, slightly higher than EPA guidelines of 20 µg L^–1. Heavy metals in groundwater appeared to be controlled mostly by sorptions on to Fe- and Mn-oxyhydroxides. They could be remobilised in groundwater with changes of pH and Eh conditions due to acid mine drainage from black shale or the recharge of fresh water. Uranium would be associated with carbonate and sulphate complexes in groundwater. Because of the remaining water-quality problems in the study area, we suggested containment of identified mine wastes, considering remedial measures for local problems with Fe and Mn, continuous monitoring of groundwater and developing groundwater from deep aquifers.