氮沉降与生物炭对土壤可溶性有机质的影响

利用盆栽实验,探讨氮沉降与生物炭（BC）施用对杉木幼苗土壤可溶性有机碳（DOC）含量和可溶性有机质（DOM）光谱学特征的短期影响.氮沉降处理为0（对照）、40（低氮）和80kgN/（hm²·a）（高氮）,在不同氮沉降下BC施用水平分别为0（对照）、12（低量BC）和36t/hm²（高量BC）.结果表明：相比对照处理,单独低氮与单独高氮处理3个月后土壤pH值分别下降了0.06和0.09（P<0.05）,但单独施用BC和氮沉降背景下施用BC处理的土壤pH值均呈上升趋势,增加了0.32~0.94（P<0.05）.与对照处理相比,单独低氮处理的土壤DOC含量显著降低,单独高氮处理的则显著升高且DOM结构趋于简单;单独施用BC和氮沉降背景下施用BC处理中,低量BC处理的土壤DOC含量无明显变化,但高量BC处理的显著提高了30.1%~95.6%,并且DOM结构趋于复杂.冗余分析发现,土壤pH值是导致不同处理DOM存在差异的关键因素.因此,氮沉降背景下施用高量BC短期内可以减缓土壤酸化,提高土壤DOC含量并使DOM更加稳定.     

Effects of EDTA and plant growth-promoting rhizobacteria on plant growth and heavy metal uptake of hyperaccumulator Sedum alfredii Hance

Phytoremediation is a cost-effective and environment-friendly strategy for decontaminating heavy-metal-contaminated soil. However, the practical use of phytoremediation is constrained by the low biomass of plants and low bioavailability of heavy metals in soil. A pot experiment was conducted to investigate the effects of the metal chelator ethylenediaminetetraacetic acid (EDTA) and EDTA in combination with plant growth-promoting rhizobacteria (Burkholderia sp. D54 or Burkholderia sp. D416) on the growth and metal uptake of the hyperaccumulator Sedum alfredii Hance. According to the results, EDTA application decreased shoot and root biomass by 50% and 43%, respectively. The soil respiration and Cd, Pb, Zn uptake were depressed, while the photosynthetic rate, glutathione and phytochelatin (PC) contents were increased by EDTA application. Interestingly, Burkholderia sp. D54 and Burkholderia sp. D416 inoculation significantly relieved the inhibitory effects of EDTA on plant growth and soil respiration. Compared with the control, EDTA + D416 treatment increased the Cd concentration in shoots and decreased the Pb concentration in shoots and roots, but did not change the Zn concentration in S. alfredii plants. Furthermore, EDTA, EDTA + D54 and EDTA + D416 application increased the cysteine and PC contents in S. alfredii (p < 0.05); among all tested PCs, the most abundant species was PC2, and compared with the control, the PC2 content was increased by 371.0%, 1158.6% and 815.6%, respectively. These results will provide some insights into the practical use of EDTA and PGPR in the phytoremediation of heavy-metal-contaminated soil by S. alfredii.     

硝化生物膜系统对低温的适应特性:MBBR和IFAS

为探明硝化生物膜系统对低温的适应特性,在不同温度(20、 15和10℃)下长期运行移动床生物膜反应器(MBBR)和生物膜-活性污泥复合工艺(IFAS)并考察温度降低对其硝化性能、生物膜特性及群落结构的影响,以期为生物膜系统在污水处理行业的应用提供理论依据.结果表明,当温度降低至10℃时,MBBR和IFAS的氨氮去除率分别为(90.88±5.73)%和(99.79±0.31)%,表明IFAS比MBBR具有更好的低温适应性.这是由于低温导致胞外聚合物(EPS)含量的增加,进而促使生物膜厚度及干重不断升高,而相同负荷下的MBBR生物膜更容易堵塞,从而影响传质.活性测定结果表明,尽管IFAS中活性污泥的硝化贡献率始终占主导地位,但随着温度降低,生物膜的氨氧化贡献率从30.72%逐渐上升至39.85%,起到了强化硝化的作用.qPCR结果显示,温度的降低使生物膜中硝化细胞拷贝数上升,其与低温下生物膜厚度的增加一定程度上弥补了硝化活性的衰减,从而体现了生物膜对低温较强的适应性.     

Rhizophagus irregularis influences As and P uptake by alfafa and the neighboring non-host pepperweed growing in an As-contaminated soil

It was documented that arbuscular mycorrhiza fungi(AMF) play an important role in protecting host plants against arsenic(As) contamination. However, most terrestrial ecosystems contain a considerable number of nonmycorrhizal plants. So far little information is available for the interaction of such non-host plants with AMF under As contaminations. By using a dual compartment cultivation system with a plastic board or a nylon mesh separating roots of non-host pepperweed from roots of the AM-host alfafa plants, avoiding direct root competition, the two plant species were grown separately or partially separated(with rhizosphere effects) in the presence or absence of the AMF Rhizophagus irregularis in As-contaminated soil. The results indicated that mycorrhiza caused phosphorus(P) concentration decrease in the non-host pepperweed, but promoted the P concentration of the AM host alfafa. Mycorrhiza is potentially helpful for non-host pepperweed to adapt to As contamination by decreasing root As concentration and showing no suppressing effect on biomass production. The study provides further evidence for the protective effects of AMF on non-host plants against As contamination, and improved our understanding of the potential role of AMF for non-host plant adaptation to As contaminated soils.     

在低碳经济中中国发展物流业的途径研究

针对在低碳经济中中国发展物流业的途径研究,首先介绍了在低碳经济中中国物流业的发展现状,探讨了在低碳经济中中国物流业存在问题,主要包括:中国物流业成本问题、中国物流业信息化问题、中国物流设施和技术装备问题和中国第三方物流的发展问题,提出在低碳经济中中国物流业的发展途径是中国物流业信息化程度的发展、中国物流业效率的发展、第三方物流在中国的发展、物流业设施和技术装备发展和专业物流业人才的发展,为中国发展物流业奠定了基础。     

水体突发污染事件的在线生物监测技术研究进展

水体突发性污染事件的污染方式具有多样性,污染物种类具有复杂性。水体突发污染事件的特征决定在线生物监测的难度。结合受试生物种类和生物生理生态指标的不同,综合分析了已经报道的水体污染在线生物监测技术。根据统计分析结果,已经报道的水体突发性污染在线生物监测技术主要分为:基于生物行为变化的在线生物监测技术、基于生物生理变化的在线生物监测技术和基于综合生物指标的在线生物监测技术3类。在不同生物种类和生理生态指标分析基础上,对不同在线生物监测技术的基本原理和优缺点进行分析,也对不同在线生物监测技术存在的缺点提出解决的主要方案,为水体突发污染事件监测分析提供支持,以满足水体突发污染事件的在线监测和应急管理需求。     

改性天然沸石去除水中氨氮的研究

分别采用NaCl、KCl和CaCl2对黑龙江省某市天然沸石进行改性，考察了pH值、氨氮初始浓度以及温度对改性沸石交换性能的影响，并对改性沸石的交换动力学进行了研究。结果表明，NaCl和KCl改性对沸石原矿交换容量有不同程度提高，而KCl改性后容量有所降低。pH、NH4初始浓度以及温度对交换性能有明显影响，pH6．0附近沸石交换容量最大；NH4初始浓度越高，反应速度越快，相同初始浓度下，钾型沸石交换速度较快，而沸石原矿交换速度最慢。采用Langmuir型离子交换等温线进行非线性回归的结果显示，低温有利于交换反应的进行。溶液中NH4^＋在改性沸石上的离子交换反应可采用Vermeulen模型描述，沸石原矿拟合相关系数较差。改性沸石多次再生后，其交换容量均有所降低。     

软锰矿浆烟气脱硫动力学研究

研究了软锰矿浆烟气脱硫工艺SO2与软锰矿反应的动力学特征,考察了搅拌强度、温度和SO2浓度等因素对反应速率的影响,计算出反应活化能和反应级数,建立了揭示SO2与软锰矿反应动力学特征的锰浸出速率方程.     

华北山区大气气溶胶浓度及其尺度谱分布的研究

1980年3月,我们在北京北部山区,用光学粒子计数器观测了“干净”地区近地层大气气溶胶浓度与尺度谱分布。发现“有霾”大气气溶胶的浓度及其尺度谱分布的变化特征具有特殊性。计算表明,三参数谱模式的拟合效果较好。     

尔王庄水库水质污染特征和主要问题分析

对引滦输水调剂水库尔王庄水库的水生生态环境和富营养化情况进行了分析，剖析了水质影响因素。为改善尔王庄水库水质提供了有利技术依据。