铜在壳核结构磁性颗粒上的吸附:效能与表面性质的关系

为了揭示吸附剂的吸附效能与其组成、结构及表面性质之间的关系,本研究对两种壳核结构磁性颗粒Fe_3O_4/Mn O2与Fe-Mn/Mn O2的形貌特征、表面性质进行了系统表征,并对铜在磁性颗粒表面的吸附行为与机制进行了详细研究.表征结果表明磁核Fe_3O_4与Fe-Mn具有相似的尖晶石类晶体结构,包覆Mn O2后,晶体结构均未发生明显变化.但Mn的引入,增强了磁核与外壳间的结合作用,Fe-Mn比Fe_3O_4包覆MnO_2的量更多、更均匀,进而使Fe-Mn/Mn O2具有更高的比表面积与更低的等电点.吸附实验结果表明,Fe-Mn的最大铜吸附容量33.7 mg·g-1(pH 5.5)高于Fe_3O_4的17.5 mg·g-1(pH 5.5);包覆MnO_2以后,铜吸附性能显著增强,Fe-Mn/MnO_2最大铜吸附容量升高至58.2 mg·g-1(p H 5.5),为Fe_3O_4/MnO_2的2.6倍,且优于多数文献报道的磁性吸附剂.机制研究表明铜在Fe_3O_4/Mn O2与Fe-Mn/MnO_2的表面发生了特性吸附,形成了内层表面络合物.综上所述,磁性颗粒的吸附效能与其组成成分、形貌结构及表面性质之间具有显著的相关性.     

处理水产养殖污水潜流湿地中的厌氧氨氧化菌群特征

厌氧氨氧化(anaerobic ammonium oxidation,ANAMMOX)是潜流湿地净化污水的重要功能,目前关于潜流湿地厌氧氨氧化特征还不清楚.为了解处理水产养殖污水潜流湿地中的厌氧氨氧化特点,采用16S rRNA基因克隆文库和实时荧光定量PCR技术以及多样性分析等方法,对处理水产养殖污水潜流湿地中ANAMMOX菌的结构、多样性和丰度进行了研究分析.结果表明,处理水产养殖污水潜流湿地中存在Candidatus brocadia和Candidatus kuenenia这2类已知的ANAMMOX菌和3类未知的ANAMMOX菌,其优势种群为Candidatus brocadia;在不同季节中,秋季潜流湿地中ANAMMOX菌的多样性最高(H',1.21),春季最低(H',0.64);在养殖周期内,潜流湿地中ANAMMOX菌的丰度(以鲜重计,下同)在8.0×104~9.4×106copies·g-1之间,总细菌丰度在7.3×109~9.1×1010copies·g-1之间;在潜流湿地不同层面以及不同季节中,ANAMMOX菌的丰度存在着明显的差异,总细菌丰度则差异不明显,ANAMMOX菌的丰度在不同层面上的差异没有随时间变化的规律性.根据潜流湿地中ANAMMOX菌的分布特征,改变养殖污水布水方式和调整湿地结构可以提高潜流湿地的反硝化效果.该研究为进一步优化潜流湿地结构,提高净化养殖污水效率提供了依据.     

重整四合一炉出口集合管盲端腐蚀研究及结构优化

结合某炼油企业重整装置四合一加热炉出口集合管盲板法兰腐蚀现状,分析产生腐蚀的机理,利用Fluent软件模拟分析不同处理量下发生腐蚀的出口集合管盲板结构处的速度失量图、涡量图等,得出了与腐蚀现状相吻合的结论。对盲板结构进行改进,并进行数值模拟分析,得出优化后的结构可以有效避免出口集合管盲板法兰腐蚀的结论。     

Variation in soil organic carbon mineralization and microbial community structure induced by the conversion from double rice fields to drained fields北大核心CSCD

Land use conversion is an important factor influencing the carbon gas exchange between land and atmosphere. The effect of land use conversion on soil organic carbon mineralization and microbial function is important for soil organic carbon sequestration and stability. This research studied the effects of land use conversion on soil chemical properties, organic carbon mineralization and microbial community structure after two years of conversion from double rice cropping (RR) to maize-maize (MM) and soybean-peanut (SP) double cropping systems in southern China. The results showed that soil pH significantly decreased by 0.50 (MM) and 0.52 (SP, P = 0.002), and dissolved organic carbon significantly increased by 23%- 35% (P = 0.016). No significant difference was found in soil organic carbon mineralization rate with the land use conversion, though the accumulated mineralization decreased after 13 days of incubation (P = 0.019). Land use conversion from paddy to upland significantly changed soil microbial community structure. The total PLFAs, bacterial, gram-positive bacterial (G+), gram-negative bacterial (G-) and actinomycetic PLFAs decreased significantly (P < 0.05), the ratio of fungal PLFAs to bacterial PLFAs (F/B) increased significantly (P = 0.006). But no significant differences in microbial groups were found between MM and SP. The accumulated mineralization at the beginning period of the incubation were significantly positively correlated with soil actinomycetic PLFAs (P = 0.034). After 13 days of incubation, soil F/B showed a positive correlation with the accumulated mineralization (P = 0.004). However, soil microbial community structure(P = 0.014)and total PLFAs(P = 0.033)showed a positive correlation with the accumulated mineralization after 108 days of incubation. Our results indicated that after conversion from paddy soils to drained soils, soil pH and total nitrogen are the key factors regulating the variations in soil microbial community structure and biomass, and then influencing soil organic carbon mineralization.     

Characteristics of soil fauna community in the decomposition of Deyeuxia arundinacea litters北大核心CSCD

This study aimed to understand the soil fauna characteristics during the litter decomposition process of perennial herb Deyeuxia arundinacea. The litters were put in 6-, 30-, and 260-mesh litterbags to investigate their mass loss and the dynamics of soil faunal community during Aug. 2013 to Jul. 2014. Faster decomposition rate of Deyeuxia arundinacea in different meshes was found in the early period than in mid- and end-periods. Among different mesh sizes, 6-mesh had the fastest decomposition rate, followed by 30-mesh and 260-mesh. A total of 2218 individuals of soil fauna were obtained in different meshes, with 958, 737 and 523 individuals in 30-, 260- and 6-mesh respectively. Oribatida and Poduridae were the dominant groups, accounting for 73.22% of total individuals. The soil animal individual and group densities shared a very similar trend among the decomposition bags of three aperture sizes, all with obvious characteristics of seasonal dynamic distribution. During the 12 months of decomposition, the density of soil animal groups did not show significant difference between the 6 mesh and 260 mesh decomposition bags except for May. Correlation analysis showed that the group density was highly significantly correlated with average monthly temperature and rainfall, and the individual density significantly correlated with the average monthly temperature. The results indicated that the structure and diversity of soil fauna community of Deyeuxia arundinacea are influenced by hydrothermal conditions. The findings help in understanding the effect of soil fauna to perennial herb litter decomposition.     

Molecular diversity of arbuscular mycorrhizal fungi at a large-scale antimony mining area in southern China

Arbuscular mycorrhizal fungi(AMF) have great potential for assisting heavy metal hyperaccumulators in the remediation of contaminated soils. However, little information is available about the community composition of AMF under natural conditions in soils contaminated by antimony(Sb). The objective of this study was to investigate the characteristics of AMF molecular diversity, and to explore the effects of Sb content and soil properties on the AMF community structure in an Sb mining area. Four Sb mine spoils and one adjacent reference area were selected from around the Xikuangshan mine in southern China. The association of AMF molecular diversity and community composition with the rhizosphere soils of the dominant plant species was studied by Polymerase Chain Reaction-Denaturing Gradient Gel Electrophoresis(PCR-DGGE). Results from all five studied sites showed that the diversity of AMF decreased with increasing Sb concentration. Principal component analysis(PCA) indicated that the AMF community structure was markedly different among these groups. Further redundancy analysis(RDA) showed that Sb contamination was the dominating factor influencing the AMF community structure in the Sb mine area. However, the multivariate analysis showed that, apart from the soil Sb content, extractable nitrogen content and organic matter content also attributed to AMF sequence distribution type. Some AMF sequences were only found in the highly contaminated area and these might be ideal candidates for improving phytoremediation efficiency in Sb mining regions. Gene sequencing analysis revealed that most species were affiliated with Glomus, suggesting that Glomus was the dominant AMF genus in the studied Sb mining area.     

海河干流浮游植物调查及环境影响因子研究

为研究海河干流汛期富营养化状况,于2013年8月对海河干流进行了浮游植物调查和水质监测,并采用冗余分析(RDA),研究了浮游植物群落与环境因子的关系.结果表明,浮游植物共计5门37种(属),优势种为水华微囊藻(Microcystis flos-aquae)、微小色球藻(Chroococcus minutus)、颤藻属(Oscillatoria sp.)、钝顶螺旋藻(Spirulina platensis)和梅尼小环藻(Cyclotella meneghiniana).浮游植物丰度范围为583.00～12 021.00×104 cells·L-1,生物量范围为4.01 ～45.70 mg·L-1,以蓝藻为主,海河干流处于重富营养状态.RDA分析结果表明,硝酸盐氮是显著影响海河干流浮游植物丰度变化的主要环境因子.控制营养盐的输入是防治海河干流蓝藻水华的主要措施.     

退化梭梭林禁牧封育周期的研究

对阿拉善荒漠地区不同时间（2005年、2002年、1999年和1980年）禁牧围封梭梭生态特征进行了对比研究。生态特征分析表明7年封育梭梭恢复效果最好,梭梭盖度达到了22．6％,密度增加到每公顷594株,生物量提高到每公顷12．01吨。而25年围封梭梭林密度、盖度和生物量均低于7年封育。年龄结构分析表明1年、4年和7年禁牧封育梭梭均发展趋势,而25年禁牧封育梭梭呈现衰退趋势。动态模拟分析表明通过禁牧封育,干旱区退化梭梭林恢复最佳周期14年,生物量达15．3吨／公顷,盖度28％,密度高达770彬公顷。     

美人蕉根系对不同基质结构水平潜流人工湿地水力特性的影响

为了研究植物根系对不同基质结构潜流人工湿地水力特性的影响,根据填料渗透系数,分别设置单层及多层基质结构潜流人工湿地小试实验系统,以美人蕉作为湿地植物,在植物栽种前与成熟后对两系统分别开展示踪试验研究.实验结果表明,美人蕉根系对于单层结构人工湿地水力特性有较明显的改善作用,有效体积从0.49提高到了0.53,短路值由0.60降低到0.41,水力效率提高最大由43%提高到59%.比较而言,植物根系对多层结构湿地有效体积和短路值有轻微负面影响,而对水力效率则有明显的改善作用(由64%提高到83%).此外,植物成熟后,两人工湿地系统中示踪剂回收率均有所下降,其中,单层结构湿地降低较显著,回收率由72%降到62%.可见,植物根系对系统水力特性有较大影响,应在人工湿地设计过程中给予考虑.     

铅锌矿区蜈蚣草内生放线菌的多样性及群落结构

为了认识重金属累积对植物内生菌的影响,采用变性梯度凝胶电泳(denaturing gradient gel electrophoresis,DGGE)技术及序列分析对四川汉源铅锌矿区蜈蚣草内生放线菌的多样性进行了研究,并分析了内生放线菌多样性与Pb、Zn、Cu和Cd等主要重金属之间的相互关系.结果表明,蜈蚣草不同部分内生放线菌的群落结构和多样性存在一定的差异,多样性指数在2.79~3.29之间,与其他非重金属污染环境植物内生放线菌的多样性指数相似,说明在重金属污染地区仍然存在较为多样的内生放线菌类群.相关分析表明,蜈蚣草内生放线菌多样性指数与Cu、Cd和Pb的含量之间存在显著负相关.DGGE条带序列系统发育显示,链霉菌(Streptomyces)、假诺卡氏菌(Pseudonocardia)、小单孢菌(Micromonospora)、Xianggella为蜈蚣草内生放线菌优势类群,拟诺卡氏菌(Nocardiopsis)、小双孢菌(Microbispora)、马杜拉放线菌(Actinomadura)、弗兰克氏菌(Frankia)以及一些未培养放线菌也在蜈蚣草中存在.研究表明铅锌矿区蜈蚣草内生放线菌存在丰富的多样性,重金属的累积影响了内生放线菌的分布.