多环芳烃降解菌筛选及其降解特性

通过选择性富集培养,从辽河油田稠油污染土壤4号土样中,获得了能以高浓度菲(2000 mg·L-1)为唯一碳源和能源快速生长的优势菌系和优良菌株ZL5.16S rDNA核苷酸序列分析表明,ZL5菌株归类于鞘氨醇单胞菌属.分得的菌系和菌株有较强的降解菲能力,120 h混合菌系降解了投加菲的95.28％,菌株降解了69.24％,但它们对芘的降解能力均较低.外加碳源葡萄糖可提高菌系和菌株的菲、芘降解能力,加量多,提高幅度大,但超过一定量,降解速率开始下降,表现出抑制效应.所以,应用时需控制适宜的浓度.

干旱区典型农业绿洲的景观变化与原因分析

应用 GIS和 RS技术 ,运用 FRAGSTATS格局分析软件 ,从景观破碎度、分维数和分离度等综合分析了河西走廊武威绿洲的景观格局十多年的变化情况。并通过建立景观类型转移矩阵和转换图 ,详细描述了各类型间的转化情况。武威绿洲各项格局指数的变化都可表明人类影响不断加大 ,发生变化最大的在绿洲边缘地带。从人类活动和水资源的变化找到绿洲景观变化的驱动因子 ,并提出了可持续利用的对策。

外源添加物对秸秆还田土壤中无机氮转化影响

采用室内培养方法,研究秸秆不同还田方式土壤中加入无机氮肥和玉米秸秆对无机氮转化的影响。在田间秸秆不同还田处理的土壤中加入氮肥(硫酸铵)培养,初期土壤NH_4~+-N的含量较高,随着培养时间延长,NH_4~+-N的含量下降,培养15天后NH_4~+-N的含量趋于平衡;而土壤中NO_3~--N含量在培养期间逐渐增加,培养30天后NO_3~--N含量趋于平衡;秸秆不同还田处理土壤中添加秸秆培养,粉碎还田处理的土壤中NH_4~+-N的含量在整个培养过程中处于最低,培养后期覆盖还田和高茬还田的土壤NH_4~+-N的含量略有下降。

稳定性核素~(15)N在农业研究中的应用

稳定性核素示踪是现代农业研究中一门新兴技术。稳定性核素15N作为一种有效手段在农业施肥研究、氮素循环研究中发挥着极为重要的作用。本文介绍了15N的相关概念,列举了20世纪80年代以来15N在氮肥研究、氮素转化研究以及农业环境保护中的应用进展,阐明了应用15N的新技术已解决的问题,以及将要解决的问题,并展望了性核素示踪技术的应用前景。

一氧化氮是脱落酸诱导杨树叶片气孔关闭的信号分子

研究了外源NO和ABA对杨树气孔运动调节作用 .结果表明 ,外源NO和ABA都能诱导杨树离体叶片气孔关闭 ,且具有剂量效应 ,NO可加强ABA诱导气孔关闭的作用 .NO清除剂 (c PTIO)可大大减弱NO和ABA对气孔关闭的诱导作用 .证实了NO参与ABA调控气孔开闭运动过程 ,不同浓度NO供体SNP和ABA处理杨树离体叶片 ,SOD活性变化不明显 ,POD活性受到显著抑制 .杨树叶片粗酶液的体外实验表明 ,不同浓度SNP对POD活性的抑制呈明显的浓度及时间效应 ;而ABA对POD活性则几乎没有影响 .本研究证明 ,NO调节ABA诱导的树木气孔关闭作用 ,是ABA诱导树木气孔关闭的一种重要信号分子 .

用拉格朗日反演模型模拟长白山森林蒸散

该文以长白山阔叶红松林为研究对象,以Raupach提出的Localized Near Field(LNF)理论为依据,耦合垂直速度标准差σw(z)和拉格朗日时间尺度TL(z),建立林冠内水汽源/汇强度和平均浓度廓线之间的关系;利用拉格朗日反演模型提出了通过林冠水汽浓度梯度计算林冠内的水汽源/汇强度进而推算森林蒸散的方法.模拟结果与开路涡动相关系统的观测数据比较显示:白天水汽累积通量的模拟精度达到81%,模拟值高出实测值约15%~25%;夜间模拟值比实测值高出2~4倍,其原因尚不清楚.观测期内全天水汽总量模拟值298.91 mm,观测值为240.33 mm.最后,讨论了水汽源/汇强度及其通量随时间和高度的演变过程.

Synthesis and characterization of magnetite dodecahedron nanostructure by hydrothermal method

Magnetite dodecahedral nanocrystals were fabricated using ethlenediamine tetraacetic acid (EDTA)-mediated hydrothermal route. Scanning electron microscopy images displayed that the products were almost dodecahedrons. The length of two different ribs were about 300 and 200 nm, respectively. X-ray diffraction patterns showed that the products were the cubic inverse spinel structure. Fourier transform infrared spectrum directly provided evidence of the EDTA bound to a specific surface of the precipitated magnetic nanocrystal.

Macroscopic single-crystal tubes assembled with porous supramolecular architecture of water-soluble calixarene and phenanthroline

Single-crystal tubular products on the millimetre scale have been synthesized from water-soluble calixarene and phenanthroline in the presence of lanthanides by a hydrothermal method, in which the extended structures contain some 1D infinite channels.

Magnetic Mesoporous Silica Spheres for Drug Targeting and Controlled Release

Magnetically functionalized mesoporous silica spheres with different size (average diameter, A.D.) from 150 nm to 2 mu m and pore size distribution were synthesized by generating magnetic FexOy nanoparticles onto the mesoporous silica hosts using the sol-gel method. The X-ray diffraction (XRD), field emission scanning electron microscope (FESEM), N-2 adsorption/desorption results show that these composites conserved regular sphere morphology and ordered mesoporous structure after the formation of FexOy nanoparticles. XRD and X-ray photoelectron spectroscopy (XPS) analysis confirmed that the FexOy generated in these mesoporous silica hosts is mainly composed of gamma-Fe2O3. Magnetic measurements reveal that these composites with different gamma-Fe2O3 loading amounts possess super-paramagnetic properties at 300 K, and the saturation magnetization increases with increasing Fe ratio loaded.

Glutathione-capped CdTe quantum dots for the sensitive detection of glucose

A simple and sensitive assay system for glucose based on the glutathione (GSH)-capped CdTe quantum dots (QDs) was developed. GSH-capped CdTe QDs exhibit higher sensitivity to H2O2 produced from the glucose oxidase catalyzed oxidation Of glucose, and are also more biocompatible than other thiols-capped QDs. Based on the quenching of H2O2 on GSH-capped QDs, glucose can be detected. The detection conditions containing reaction time, the concentration of glucose oxidase and the sizes of QDs were optimized and the detection limits for glucose was determined to be 0.1 mu M; two detection ranges of glucose from 1.0 mu M to 0.5 mM and from 1.0 mM to 20 mM, respectively Were obtained. The detection limit was almost a 1000 times lower than other QDs-based optical glucose sensing systems. The developed glucose detection system was simple and facile with no need of complicated enzyme immobilization and modification of QDs.

White electroluminescence from a single polymer system: Improved performance by means of enhanced efficiency and red-shifted luminescence of the blue-light-emitting species

High-efficiency white electrolurninescence from a single polymer is achieved by enhancing the electroluminescence efficiency and effecting a red-shift in the emission spectrum of the blue emissive species. A single-layer device of the resultant polymer exhibits a higher luminous efficiency than the nonmodified species (12.8 cd A(-1), see figure) and an external quantum efficiency of 5.4 % with CIE coordinates of (0.31,0.36), exemplifying the success of the reported methodology.