鼠李糖脂生物表面活性剂及其在石油污染修复中的应用

文章综述了鼠李糖脂生物表面活性剂的研究进展包括其化学结构、产生茵及其发酵影响因素,特别讨论了鼠李糖脂在石油污染修复中的应用,并对未来鼠李糖脂发酵工艺中低成本生产原料的筛选开发和对其使用所造成的环境影响进行评价的研究方向进行了展望。     

石油污染土壤物化修复前后生物毒性效应

采用作物种子的发芽率作为生态指标对石油污染土壤进行毒性分析,并以蚯蚓为实验生物,研究了石油污染物的生物效应及其对土壤生态系统的影响.结果表明,不同的作物种子对石油污染表现出不同的耐受性,对照清洁土壤,大多数作物种子的萌发都明显受到石油污染的抑制,其中受石油污染影响最严重的是黄豆、蚕豆、玉米.相比之下,在不同石油污染水平下绿豆具有较高的耐受性,且种子发芽率均在90%以上.蚯蚓在受到污染胁迫时,在生理水平上会发生明显的变化,进而影响其存活和生长能力,实验观测到随着石油污染加重蚯蚓存活时间显著下降.在高污染水平石油污染的土壤中(石油污染水平>30 000 mg.kg-1),蚯蚓的耐性降低,仅可以存活5 d左右,说明石油烃对蚯蚓的毒性较大,主要是因为蚯蚓直接与石油接触导致其中毒脱水而死亡.处理后油田污染土,即使在污染水平很低(≈30 mg.kg-1)的情况下,蚯蚓存活时间依然很短(3 d左右),是因为经过石油醚处理过的土壤,其营养物质也随着石油而被处理掉,而土壤中有机质等营养物对蚯蚓的生存具有很大影响.     

Remediation of copper polluted red soils with clay materials

Attapulgite and montmorillonite were utilized to remediate heavy metal polluted red soils in Guixi City, Jiangxi Province, China. The e ects of clay minerals on availability, chemical distribution, and biotoxicity of Cu and Zn were evaluated. The results provided a reference for the rational application of clay materials to remediate heavy metal contaminated soils. From the sorption experiment, the maximum adsorbed Cu2+ by attapulgite and montmorillonite was 1501 and 3741 mg/kg, respectively. After polluted red soil was amended with attapulgite or montmorillonite and cultured at 30 and 60 days, soil pH increased significantly compared to the control. An 8% increase in the amount of montmorillonite in soil and 30 days incubation decreased acid exchangeable Cu by 24.7% compared to the control red soil. Acid exchangeable Cu decreased with increasing amounts of attapulgite and montmorillonite, with best remediation e ect reached at a dose of 8%. Results also showed that the Cu poisoning e ect on earthworms was reduced with the addition of attapulgite and montmorillonite. Montmorillonite showed the best e ect, with the addition of a 2% dose the mortality of earthworms decreased from 60% to zero compared to the control. Our results indicated that the bioavailability of Cu in soils was reduced more e ectively with the application of montmorillonite than attapulgite.     

煤炭井工开采项目中土地整治评价内容的协调

通过典型案例,阐述了环境影响评价、水土保持方案和土地复垦方案三个咨询成果在对煤矿土地整治工程中的矛盾与不协调,并提出了协调思路与方法。     

土壤铜污染的影响因素及其修复技术研究

铜污染引起的生态和环境问题已受到人们的高度重视。土壤中铜对生物的毒害作用主要取决于它的赋存形态。土壤组成成分、pH值、土壤中其它污染物以及环境因素都会对铜在土壤中的赋存形态和吸附解吸产生影响,因此,不同土壤对外来铜污染的缓冲能力有一定的差异。已经有学者研究出针对铜污染土壤的几种有效的修复技术,目前主要是植物修复技术。现有修复技术中仍存在一些问题,其引导着今后相关研究的发展方向。     

用于石油污染土壤降解的高效降解菌的筛选及其降解条件优化

经过富集、分离优选出高效石油降解菌L-1,根据形态观察和生理生化特征初步鉴定为琼氏不动杆菌;采用单因素花盆实验模拟微生物原位修复并对其降解条件进行优化。结果表明,将高效石油降解菌应用于修复石油污染土壤,适宜接种量、表面活性剂浓度、CNP比、翻耕频率分别为15%、0.1%、100∶10∶1和1 d 1次;在该降解条件下修复28 d,可达到16.80%的石油降解率,远远高于土著微生物6.92%的降解率。     

低温硝基苯降解菌选育及在土壤修复中的应用

从硝基苯污染地下水中筛选出一株以硝基苯为唯一碳源和氮源的低温、高效降解菌,命名为XJ菌;初步鉴定XJ菌为革兰氏阴性微小短杆细菌、恶臭假单胞菌属,降解硝基苯遵循部分还原降解途径;在10℃下培养96 h,XJ菌对硝基苯的降解去除率达到91.1%,其中约有67.1%的硝基氮素转变成了氨氮。在10℃下利用XJ菌修复硝基苯污染土壤,修复时间为96 h时,硝基苯去除率达到85.7%,XJ菌密度及微生物脱氢酶活性保持较高的水平。本研究可为低温下硝基苯污染土壤的生物修复提供参考。     

生物炭修复Cd,Pb污染土壤的研究进展

随着矿产开采、冶炼等工业活动以及污水灌溉、施用污泥和劣质化肥等农业活动的进行，Cd，Pb等有害重金属不断进入农业环境中，对农田、菜地等造成污染。生物炭作为重要的土壤改良剂，在对Cd，Pb污染土壤的修复中表现出巨大的潜力。从生物炭的特性及制备、修复效果及其影响因素、修复机理等方面，对近年来国内外有关生物炭修复Cd，Pb污染土壤的研究成果和现状进行了总结，并对生物炭修复Cd，Pb污染土壤的发展前景和未来研究方向进行了展望。     

Innovative applications of subgrade biogeochemical reactors: Three case studies

Subgrade biogeochemical reactors (SBGRs) are an in situ remediation technology shown to be effective in treating contaminant source areas and groundwater hot spots, while being sustainable and economical. This technology has been applied for over a decade to treat chlorinated volatile organic compound source areas where groundwater is shallow (e.g., less than approximately 30 feet below ground surface [ft bgs]). However, this article provides three case studies describing innovative SBGR configurations recently developed and tested that are outside of this norm, which enable use of this technology under more challenging site conditions or for treatment of alternative contaminant classes. The first SBGR case study addresses a site with groundwater deeper than 30 ft bgs and limited space for construction, where an SBGR column configuration reduced the maximum trichloroethene (TCE) groundwater concentration from 9,900 micrograms per liter (μg/L) to <1 μg/L (nondetect) within approximately 15 months. The second SBGR is a recirculating trench configuration that is supporting remediation of a 5.7‐acre TCE plume, which has significant surface footprint constraints due to the presence of endangered species habitat. The third SBGR was constructed with a new amendment mixture and reduced groundwater contaminant concentrations in a petroleum hydrocarbon source area by over 97% within approximately 1 year. Additionally, a summary is provided for new SBGR configurations that are planned for treatment of additional classes of contaminants (e.g., hexavalent chromium, 1,4‐dioxane, dissolved explosives constituents, etc.). A discussion is also provided describing research being conducted to further understand and optimize treatment mechanisms within SBGRs, including a recently developed sampling approach called the aquifer matrix probe.     

农田重金属污染修复新技术展望与探索

目前,土壤重金属污染已成为全球各国共同面临的棘手问题。土壤重金属污染具有隐蔽性、滞后性、积累性、持久性等特点,已严重危害到人类的健康。本文在全面了解国内外重金属污染土壤修复研究动态的基础上,对纳米多孔磁性螯合材料用于农田重金属污染土壤修复的新技术进行展望与探索研究,为国内这一领域的工作开展提供借鉴参考。