青藏高原土壤柴油降解菌的筛选及降解实验研究

青藏高原北麓河地区土壤为典型的低温土壤环境,夏季高温季节表层土壤(5 cm处)温度仅为9℃,中层(20 cm处)为7.5℃,而40 cm处仅为4℃左右。土壤高温季节为7月中旬至9月上旬,而10月至来年6月土壤日平均温度下降为0℃以下。针对青藏高原低温土壤环境,在北麓河试验现场进行人工模拟柴油污染,16个月后采集污染土样,进行土著低温菌的复合筛选,柴油菌的筛选驯化温度为10℃。经过4次转接复合培养驯化后,菌液中微生物数量可达2.7×1012CFU/mL。筛选后的柴油降解菌90%以上为杆状菌,长度为2~3μm,少见球菌,其直径约为0.5μm。通过柴油摇瓶模拟降解实验,17 d后柴油去除率可达到62%。研究为青藏高原低温条件下的土壤柴油污染土著微生物修复提供了研究基础。     

微藻生物富集重金属的研究进展

环境中的重金属来源广泛,在环境中有稳定、迁移、累积的特性,已严重危胁到人类健康。控制和消除重金属污染是当今世界环境面临的紧迫问题和巨大挑战。以水环境中的重金属修复为要点,介绍了利用微藻作为吸附材料的创新型生物修复技术在污水修复领域的可行性和优势,根据微藻富集重金属的主要机制,详述了生物富集的过程以及影响吸附行为的主要因素(pH、温度、离子强度、溶解性有机质),并指出了现阶段微藻生物富集重金属的研究重点和趋势。     

On the effect of Fe(III) on proliferation of Microcystis aeruginosa at high nitrate and low chlorophyll condition

The impact of Fe concentrations on the growth of Microcystisaeruginosa in aquatic systems under high nitrate and low chlorophyll conditions was studied. The responses of cell density, total and cell chlorophyll-a intracellular Fe content and organic elemental composition of M. aeruginosa to different concentration gradients of Fe(III) in the solutions were analysed. The results showed that the proliferation speeds of M. aeruginosa were: (1) decelerated when the Fe(III) concentration was lower than 50 μg/L in the solutions, (2) promoted and positively related to the increase of Fe(III) concentration from 100 to 500 μg/L in the solutions over the experimental period, and (3) promoted in the early stage but decelerated in later stages by excess adsorption of Fe by cells when the Fe(III) concentration was higher than 500 μg/L in the solutions. The maximum cell density, total and cell chlorophyll-a were all observed at 500 μg Fe(III)/L concentration. The organic elemental composition of M. aeruginosa was also affected by the concentration of Fe(III) in the solutions, and the molecular formula of M. aeruginosa should be expressed as C_7–7.5H₁₄O_0.8–1.3N_3.5–5 according to the functions for different Fe(III) concentrations. Cell carbon and oxygen content appeared to increase slightly, while cell nitrogen content appeared to decrease as Fe(III) concentrations increased from 100 to 500 μg/L in the solutions. This was attributed to the competition of photosynthesis and nitrogen adsorption under varying cell Fe content.     

Ambient volatile organic compounds pollution in China

Owing to rapid economic and industrial development, China has been suffering from degraded air quality and visibility. Volatile organic compounds (VOCs) are important precursors to the formation of ground-level ozone and hence photochemical smog. Some VOCs adversely affect human health. Therefore, VOCs have recently elicited public concern and given new impetus to scientific interest. China is now implementing a series of polices to control VOCs pollution. The key to formulating policy is understanding the ambient VOCs pollution status. This paper mainly analyzes the species, levels, sources, and spatial distributions of VOCs in ambient air. The results show that the concentrations of ambient VOCs in China are much higher than those of developed countries such as the United States and Japan, especial benzene, which exceeds available standards. At the same time, the ozone formation potential (OFP) and secondary organic aerosol formation potential (SOAFP) of various VOCs are calculated. Aromatics and alkenes have much higher OFPs, while aromatics have higher SOAFP. The OFPs of ambient VOCs in the cities of Beijing, Guangzhou and Changchun are very high, and the SOAFP of ambient VOCs in the cities of Hangzhou, Guangzhou and Changchun are higher.     

环境保护系统参与空间规划的思考与建议

空间规划体系下,环境规划在空间落地性以及精细化程度上存在短板。建议环境规划进一步完善生态保护红线制度,探索环境质量底线、环保负面清单的划定技术思路与技术路线,推动环境保护系统化参与空间规划。     

一种可商业化生产的胶体金快速免疫层析卡:检测大田软海绵酸及其衍生物(DTX1, DTX2)

建立一种胶体金快速免疫层析检测贝类体内腹泻性贝毒主要成分软海绵酸及其衍生物鳍藻毒素的方法。合成偶联抗原OA-OVA,将适当浓度的偶联抗原和HRP标记的羊抗鼠IgG分别包被在试纸条的检测线和控制线上,胶体金标记的抗OA单克隆抗体包被金标垫,优化检测线的最佳包被浓度等条件以得到最低检出限。结果表明:该试纸条的检出限为16 ng/mL（OA,DTX1 & DTX2）,检测时间为10 min。本研究所建立的胶体金免疫层析检测贝类中大田软海绵酸及其衍生物鳍藻毒素的方法可以满足规定的160 μg/kg贝肉的安全阈值,可以应用于实际贝类样品的腹泻性贝毒的半定量检测。     

Increasing the application of gas engines to decrease China’s GHG emissions

This paper employs a review of the technical literature to estimate the potential decrease in greenhouse gas (GHG) emissions that could be achieved by increasing the application of gas engines in China in three sectors: urban public transport vehicle; shipping; and thermal power plants. China’s gas engine development strategies and three types of gas resource are discussed in the study, which indicates that gas engines could decrease GHG emissions by 520 megatonnes (Mt) of carbon dioxide equivalent (CO_2e) by 2020. This would account for 9.7 % of the government’s target for decreasing GHG emissions and is dominated by methane recovery from the use of coal mine gas (CMG) and landfill gas (LFG) for power generation. In the public urban transport vehicle and shipping sectors the low price of natural gas and the increasing demand for the control of harmful emissions could spur the rapid uptake of gas engine vehicles. However, the development of CMG- and LFG-fuelled power plants has been limited by the unwillingness of local enterprises to invest in high-performance gas engine generators and the associated infrastructure. Therefore, further compulsory policies that promote CMG use and LFG recovery should be implemented. Moreover, strict regulations on limiting methane leakage during the production and distribution of gas fuels are urgently needed in China to prevent leakage causing GHG emissions and largely negating the climate benefits of fuel substitution. Strategies for increasing the application of gas engines, promoting gas resources and recovering methane in China are instrumental in global GHG mitigation strategies.     

玉米秸秆生物炭对贵州黄壤持水能力的影响

生物炭具有丰富的微孔结构,能够影响土壤的持水性能,对植物生长和土壤中养分的保持有着重要意义。而土壤水分特征曲线又是表征土壤持水能力的一个重要指标。本文通过压力膜法测定添加不同比例生物炭的黄壤水分特征曲线,并结合van Genuchten模型对实测结果进行拟合,推导水动力学参数。结果表明,随着生物炭施入量的增加(0、5%、10%),土壤的田间持水量增加,凋萎含水量降低,土壤有效含水量增加。生物炭添加能够显著提高土壤的持水能力,增强水分的可利用性。同时,van Genuchten模型拟合结果同实测值高度相似,可以用作预测生物炭改良土壤的水动力学参数。     

短波长X射线衍射技术及在环境工程中的应用展望

介绍了短波长特征X射线衍射无损检测分析原理和方法,无损地测定了预拉伸铝板、高强钢孔挤压件、铝合金搅拌摩擦焊接件等材料部件的内部残余应力、内部物相、内部织构及其分布,并分析讨论了测试结果。该仪器具有体积小,投资少、使用维护方便等优势,展望了该无损检测分析技术在装备环境工程中的应用前景。     

污水净化装置内部流场特性分析研究

针对目前城市污水存在悬浮物和砂粒的问题,为了减少砂粒大量存在给后续单元带来的处理压力,设计了一种可实现在加药、絮凝等处理模块前,完成污水内固相悬浮物及颗粒的新型净化装置.基于计算流体动力学软件Fluent,运用混合相模型(Mixture),对新型污水净化装置内部流场特性及分离性能进行数值模拟分析.模拟结果显示新型污水净化装置内部流场分布均匀,分离性能稳定并呈现出了较好的固相去除效果,其中悬浮物的分离效率达90%以上,固相颗粒分离效率达91%.