丙烯腈二元共聚物超滤膜的研制

本文对丙烯腈-甲基丙烯酸甲酯二元共聚物(PAN)超滤膜的成膜过程及膜分离性能进行了研究。结果表明:由PAN-双溶剂-酯类铸膜液制成的超滤膜对牛血清蛋白的截留率(R)为97.62％,通量(f)为84.96ml/cm~2.h.通过电子显微镜扫描观察膜底、表层以及膜断面的结构,对膜的形成机理与膜分离性能进行了研究,证明PAN是一种性能良好的新型膜材料,用PAN二元共聚物超滤膜对α-粉酶进行超滤浓缩试验,取得了较好的结果。     

溶液中金属离子和pH对红壤吸附SO4^2—的影响

本文研究了溶液中金属离子和pH对红壤吸附SO_4~(2-)的影响。实验结果表明,溶液pH降低,红壤吸附SO_4~(2-)的量增加;溶液中金属离子种类不同,红壤吸附SO_4~(2-)的量差异很大。其次序为Al~(3+)>Zn~(2+)>Na~+。实验结果也表明,当溶液中有Al~(3+)Zn~(2+)离子存在时吸附的SO_4~(2-)较有Na~+离子存在时吸附SO_4~(2-)难被水解吸下来。     

生态毒理基因组学——后基因组时代生态毒理学的新领域

基因组学、蛋白组学和代谢组学技术为生态毒理学的发展提供了生物高通量的技术手段,构成了新的交叉学科——生态毒理基因组学.生态毒理基因组学着重研究环境毒物暴露下非靶生物基因和蛋白的表达,能够在基因组水平上更深入地理解环境污染物的致毒机制,同时,它引进生物标志物为生态风险评价提供了平台.论文对生态毒理基因组学的发展历程、技术支持、模式生物及其在生态风险评价方面的应用进行了综述,以推动生态毒理基因组学技术在我国的进一步发展.     

Fe3+对赤潮异弯藻生长和光合作用的影响

用人工海水APSW以f／2营养加富，在总铁浓度为0—1000nmol L^-1的范围内，考察了总铁浓度对赤潮异弯藻(Heterosigma akashiwo)生长和光合作用的影响．结果发现，当铁浓度小于10nmol L^-1时，最大藻细胞密度与比生长速率均受到明显限制．补铁后受铁限制的细胞得到缓解，表明铁是藻细胞生长的重要限制因子．当铁浓度大于100nmol L^-1时，最大细胞密度与比生长速率不再受铁限制，但其光合作用活性有所改变．在铁限制下细胞的光饱和光合作用速率Pm，暗呼吸速率Rd，表观光合作用效率a与铁丰富细胞相比都有所减小，而光补偿点Ic及饱和光强Ik增大．图5表1参11     

UV-B辐射增强对冬小麦生长发育及产量的影响

研究了大田栽培条件下紫外辐射增强对冬小麦孕穗、抽穗、开花、灌浆、结实以及产量的影响。结果表明,UV B辐射增强使小麦植株矮化,叶面积减小,穗重、茎重、叶重减小,灌浆速度变慢,灌浆不充实,此外,UV B辐射增强还使花粉败育率增大。     

海洋酸化与重金属、有机污染物和人工纳米颗粒的联合毒性效应研究进展

由于大量人类活动的影响,大气CO_2浓度持续增加,其中约1/3被海洋吸收,导致表层海水pH值降低和碳酸盐平衡体系波动,即"海洋酸化"现象。污染物的海洋环境效应一直是全球环境科学领域研究的热点。在实际环境中,海洋酸化往往与污染物共同存在并作用于海洋生态系统,且海洋酸化极有可能改变污染物的海洋环境行为从而影响其毒性效应。但现有研究大多针对海洋酸化或者污染物单独作用下的毒性效应展开,对海洋酸化与污染物的联合毒性效应的研究不足、亟待加强。为此,综述了近年来海洋酸化与典型污染物(重金属、有机污染物)及新型污染物(人工纳米颗粒)的相关文献,重点阐述了海洋酸化对污染物环境行为的影响和海洋酸化与污染物对海洋生物的联合毒性效应,指出当前的研究不足,并对未来的研究方向进行了展望。     

Purification and some properties of β-N-acetyl-D-glucosaminidase from prawn (<Emphasis Type="Italic">Penaeus vannamei</Emphasis>)

The -N-acetyl-D-glucosaminidase (NAGase, EC 3.2.1.52) from prawn (Penaeus vannamei) was purified by extraction with 30% ethanol solution and ammonium sulfate fractionation, then chromatographed on Sephadex G-100 followed by DEAE-cellulose (DE-32) columns. The purified enzyme determined to be homogeneous by polyacrylamide gel electrophoresis (PAGE) and SDS-PAGE. The specific activity of the purified enzyme was 1,560 U mg^–1. Enzyme molecular weight was determined to be 105,000 Da; it contained two subunits of the same mass (45,000 Da). The pI value was calculated to be 4.8 by isoelectric focusing. The optimum pH and optimum temperature of the enzyme for the hydrolysis of pNP--D-GlcNAc (enzyme substrate) were determined to be pH 5.2 and 45°C, respectively. The behavior of the enzyme during hydrolysis of pNP--D-GlcNAc followed Michaelis–Menten kinetics, with K_m=0.254 mM and V_m=9.438 M min^–1, at pH 5.2 and 37°C. The stability of the enzyme was investigated, and the results showed that the enzyme was stable in a pH range from 4.2 to 10.0 and at temperatures <40°C. The effects of metal ions on the enzyme were also studied. Li⁺, Na⁺ and K⁺ had no influence on enzyme activity. Mg²⁺, Ca²⁺ and Mn²⁺ activated the enzyme, while Ba²⁺, Zn²⁺, Co²⁺, Cd²⁺, Hg²⁺, Pb²⁺ Cu²⁺, Fe³⁺ and Al³⁺ showed various degrees of inhibitory effects on the enzyme.Communicated by O. Kinne, Oldendorf/Luhe     

浙江舟山北草蜥的野外活动体温及体温调节

在自然条件下测定浙江舟山北草蜥的夏季活动体温和环境温度,在实验室条件下测定其生理体温调节能力和喜好体温,旨在揭示北草蜥的体温调节机制.结果表明野外北草蜥的活动体温显著高于空气温度和基质温度;尽管环境温度存在显著日变异,但活动体温相对恒定.实验室恒温箱内测定的北草蜥体温与环境温度接近在20~30℃范围内,体温与环境温度基本一致;而当环境温度超过该范围,体温与环境温度存在差异,且这种差异随温度的升高或降低而增大.北草蜥的喜好体温平均为30.7℃.以上结果说明,北草蜥生理调温能力较弱,行为热调节是其体温调节的主要方式.图1表1参15     

Changes of Soil Microbiological Properties Caused by Land Use Changing From Rice–Wheat Rotation to Vegetable Cultivation

A survey was done recently in Jiaxing city of Zhejiang Province in the Yangtze River Delta to compare the differences of soil microbiological properties among paddy soils with different land use including continuous open-field vegetable cultivation (OFVC), plastic-greenhouse vegetable cultivation (PGVC) and traditional rice–wheat rotation (RWR). The soil types included are percolating, permeable and waterlogged paddy soils. The results indicate that the microbial flora was markedly changed as the land use changed for all the three soil types. In continuous vegetable cultivation soils, especially in PGVC soils, the bacteria amounts decreased dramatically, but the fungal and actinomyce amounts increased as compared with RWR soils. The dehydrogenase activities decreased significantly in vegetable soils, especially in PGVC soils as compared with RWR soils. The microbial biomass C and the total phospholipid contents (TPL) in vegetable cultivation soil greatly decreased as compared with RWR soils. Biolog analysis indicated that the kinds of carbon sources that could be metabolized by native microbes in PGVC soils greatly decreased as compared with OFVC soils and RWR soils, revealing that microbial diversity had decreased since land use change. The activities of some soil enzymes including urease, invertase and phosphase were all lower in OFVC soils than those in RWR soils, and those in PGVC soils were the lowest. The degradation of microbiological activities in continuous vegetable cultivation soils, especially in PGVC soils, as compared with RWR soils might have been caused by soil acidification and accumulation of salts due to overuse of both organic and inorganic fertilizers in vegetable cultivation.     

预防事故的行为干预技术及应用

行为干预技术是近来国外一种颇为盛行,效果甚好的以“人”为中心的事故预防方法。概要介绍此技术的研究现状、理论依据及要点、应用情况和在我国开展应用研究的方案设计