不同来源的海州香薷和野胡萝卜的铜抗性及铜积累差异

以来自矿区(铜绿山和赤马山铜矿)和非矿区(红安、武汉严西湖)的海州香薷和野胡萝卜种群为对象,通过土培实验,研究了2种植物的铜抗性及铜吸收积累差异.结果显示,来自矿区的海州香薷和野胡萝卜种群的铜抗性都明显高于非矿区种群,但2种植物种群的铜吸收积累特征明显不同:海州香薷植物吸收的Cu主要集中在根中,但矿区种群吸收积累的铜量明显低于非矿区种群;而野胡萝卜吸收的Cu主要集中在地上部分(地上部分的Cu富集量是根的1.5倍),但积累的铜量在矿区和非矿区种群间没有明显的差异.因此,来自矿区的海州香薷可能进化为铜避性对策,而野胡萝卜的铜抗性与其吸收积累的总量没有明显的关系,但有很好的向地上运输能力.     

多维电极法处理高色度活性染料模拟废水影响因素分析

以活性嫩黄K 4G染料模拟废水为处理对象 ,采用多维电极法 ,考查了各种因素对多维电极系统处理活性染料时的脱色率、CODCr降解率的影响 ,结果表明 ,增多活性炭量、增大电流密度、延长电解时间和加入铁屑 ,都能使脱色率和CODCr降解率得到提高 ,电导率的变化对脱色率和CODCr降解率有一定影响。利用正交实验比较了各因素的相对影响大小     

港口地区大气PM2.5中多环芳烃污染特征及来源分析

为探究港口地区污染大气中多环芳烃（PAHs）的污染特征和潜在来源,以青岛港为研究对象,于2018年8月至2019年5月期间采集了4个季节的PM_2.5样品（n=59）,分析了PM_2.5中PAHs的季节变化和组成特征,使用相关性分析探索了气象因素对PAHs浓度的影响,并采用正定矩阵因子分解和潜在来源贡献函数模型对潜在来源进行解析.结果表明,ρ（PAHs）平均值为（8.11±12.31） ng·m^-3,秋冬季节高于春夏季节.PAHs的季节性分子组成相似,以4~5环PAHs （75.43%）为主.荧蒽、苯并［e］芘、苯并［a］蒽、菲、芘和䓛是研究区域PAHs的优势物种,这与船舶尾气中主要化合物组成相似.相关性分析表明,PAHs浓度与温度和相对湿度呈极显著负相关,与大气压和风向呈极显著正相关,与风速的相关性较差.PMF分析提取出6个贡献因子,结果表明,青岛港地区受航运排放（28.83%）影响最大,其次是机动车排放（20.49%）以及原油挥发（13.47%）等,夏季受航运排放影响最大.PSCF结果表明,京津冀、环渤海和鲁北地区是远距离传输的主要来源区域.     

鄱阳湖流域农业生态环境变迁及其启示

鄱阳湖流域农业生态环境变迁史可以概括为:远古至秦汉时期,是生态环境由荒凉向开化发展的阶段;隋唐五代时期,是生态环境平衡发展阶段;宋元时期,是生态环境开始失衡阶段;明清时期,是生态环境逐渐破坏恶化的阶段;近代以来,生态环境呈现进一步恶化的趋势;建国以来生态环境经历了一个恶化——治理——改善的过程。在此,我们可以得出历史的经验教训:农业开发必须适应复杂的自然生态环境条件,只有全面地把握自然生态环境的总体,才能使自然资源和自然条件充分地持续地发挥作用,经济社会才能保持可持续发展。相反,如果不顾自然生态环境的复杂性,掠夺性开发资源,就必然会受到自然界的惩罚。     

松花江表层沉积物中16种多环芳烃空间分布特征及生态风险评价

为揭示松花江干支流表层沉积物中16种PAHs(多环芳烃)的空间分布特征及其生态风险状况,采用气相色谱-质谱联用仪分析了2017年9月松花江干支流26个表层沉积物16种PAHs质量分数特征,并采用比值法对其污染来源进行解析,运用沉积物质量基准法和质量标准法评价其生态风险状况.结果表明:①松花江干支流表层沉积物中w(∑₁₆PAHs)为169. 76～3 769. 19ng/g,以3～6环高环为主,并且支流w(∑₁₆PAHs)(范围为169. 76～3 769. 19 ng/g,平均值为1 598. 41 ng/g)高于干流(范围为459. 92～2 092. 58 ng/g,平均值为1 173. 67 ng/g),呈从上游到下游逐渐降低的趋势.②松花江干支流表层沉积物中w(∑₁₆PAHs)主要来源于生物质燃烧和石油燃烧.③松花江干支流表层沉积物中w(∑₁₆PAHs)总体处于低生态风险水平,个别支流点位(3个)会发产生经常性生态风险.研究显示,松花江流域干支流表层沉积物中w(∑₁₆P...     

Effects of nitrite on phosphate uptake in anaerobic-oxic process

An anaerobic-oxic (A/O) biological phosphorus removal reactor was operated to study the effect of nitrite on phosphate uptake. The phosphorus uptake profile was determined under different operating conditions. The results indicated that in addition to oxygen and nitrate (DPB_Na, nitrate denitrifying phosphorus removal), to some extent, nitrite could also serve as an electron acceptor to achieve nitrite denitrifying phosphorus removal (DPB_Ni). The quantity and rate of phosphorus uptake of DPB_Ni, however, were evidently lower than that of DPB_Na. The experiment results revealed that nitrite would bring toxic action to phosphate-accumulating organisms (PAOs) when NO₂ ⁻-N ⩾ 93.7 mg/L. The nitrite existing in the anoxic reactor made no difference to the quantity and rate of denitrifying phosphorus removal, but it could reduce the consumption of nitrate. Moreover, the data showed that the aerobic phosphate uptake of DPB_Ni was lower than that of anaerobic phosphorus-released sludge in a traditional A/O process. However, there was not much difference between these two kinds of sludge in terms of the total phosphorus uptake quantity and the effluent quality. Translated from Environmental Science, 2006, 27(4): 701–703 [译自: 环境科学]     

污泥处理处置技术发展现状及分析

随着我国城市化进程的加快和社会经济的快速发展,污水处理力度逐渐加大,随之而产生的污泥急剧增加。同时因为我国环境标准的提高,污泥急需进行深度处理。本文阐述了现有污泥处理处置技术及国内外研究现状,同时对我国污泥处理处置中存在问题进行了深入分析,为污泥处理处置的改进提供了参考依据。     

Bioaugmentation with a pyridine-degrading bacterium in a membrane bioreactor treating pharmaceutical wastewater

The bacterial strain Paracoccus denitrificans W12, which could utilize pyridine as its sole source of carbon and nitrogen, was added into a membrane bioreactor （MBR） to enhance the treatment of a pharmaceutical wastewater. The treatment efliciencies investigated showed that the removal of chemical oxygen demand, total nitrogen, and total phosphorus were similar between bioaugmented and non-bioaugmented MBRs, however, significant removal of pyridine was obtained in the bioaugmented reactor. When the hydraulic retention time was 60 hr and the influent concentration of pyridine was 250-500 mg/L, the mean effluent concentration of pyridine without adding W12 was 57.2 mg/L, while the pyridine was degraded to an average of 10.2 mg/L with addition of W12. The bacterial community structure of activated sludge during the bioaugmented treatment was analyzed using polymerase chain reaction-denaturing gradient gel electrophoresis （PCR-DGGE）. The results showed that the W12 inoculum reversed the decline of microbial community diversity, however, the similarity between bacterial community structure of the original sludge and that of the sludge after bioaugmentation decreased steadily during the wastewater treatment. Sequencing of the DNA recovered from DGGE gel indicated that sp., Sphingobium sp., Comamonas sp., and Hyphomicrobium sp. were the dominant organisms in time sequence in the bacterial community in the bioaugmented MBR. This implied that the bioaugmentation was affected by the adjustment of whole bacterial community structure in the inhospitable environment, rather than being due solely to the degradation performance of the bacterium added.     

鸭绿江口溶解态P、Si的地球化学研究

初步讨论了鸭绿江口溶解态 Ｐ、 Ｓｉ 的地球化学行为。与我国其他主要河流相比，鸭绿江口中的 Ｓｉ Ｏ２ －３含量较北方河流高，接近于南方河流水平，为９５２ μｍｏｌ／ Ｌ，这主要由上游流域盆地的气候及自然条件所决定。而 Ｐ Ｏ３ －４ 由于上游水库中浮游生物的消耗含量偏低，仅为０２０ μｍｏｌ／ Ｌ。鸭绿江口 Ｓｉ Ｏ２ －３ 的行为是保守的，主要受物理过程的影响； Ｐ Ｏ３ －４ 则表现出明显的再活化     

模糊神经网络用于环境大气质量评价的研究

研究了基于多准则学习的模糊神经网络评价环境大气质量的模型,并以此对某矿区的环境大气质量进行了评价,结果表明该方法简便、实用、客观。