鱼腥草对土壤中镉的富集及根系微生物的促进作用

通过采集自然条件的鱼腥草和未受污染的土壤,在实验室条件下培育,以及利用镉的筛选,培养出土壤菌悬液,研究了鱼腥草Huttuynia cordata对土壤中镉的富集作用,以及经过根系微生物处理后放线菌对富集后转移的促进作用。结果表明,根部经过微生物处理的鱼腥草地上部（土壤含镉200 mg·kg^-1）有最高的含镉浓度和最大的富集量,分别是是对照组的20倍和50倍。土壤含镉50 mg·kg^-1时,鱼腥草地上部与地下部镉富集量的比例是2.5,高于对照组（1.5）。而当土壤含镉200 mg.kg^-1时,经过处理的鱼腥草地上部与地下部镉含量之比是未经处理的2倍。所以,鱼腥草对土壤中的镉有很强的富集作用,且在根系微生物的促进下,地下部的镉能更有效地转移到地上部,大大加强植物的修复效率;且与其他的诸如添加化学螯合剂等方法相比,土壤根系微生物能更好地适应植物根系环境,更不会对土壤本身的微生态系统造成二次污染。所以研究根系环境中微生物、根系、土壤酶、金属离子等的相互影响关系,将是土壤重金属植物修复的另一重要领域。     

天水市空气微生物含量分析

用平皿沉降法测定了天水市空气微生物含量,结果证实其空气细菌、真菌及总菌的平均含量分别为5312.3、13．1和5325．4CFU／m3．空气真菌占总菌量的0．2％左右,空气微生物以细菌为主十分明显,所测风景区空气细菌含量与城区的平均水平间差异很大,说明天水市空气已受到较轻的中度污染,闹市区的一些测点空气污染已相当严重。     

Fluorescence characteristic changes of dissolved organic matter during municipal solid waste composting

Dissolved organic matter（DOM） of municipal solid waste（MSW） consists of minerals, water, ash and humic substances, and is known to enhance plant growth. In this study, inoculating microbes（Z J, MS） were used in municipal solid wastes composting, and composting implemented a industrialized technology. During composting, dissolved organic matter was extracted from the compost and purified. The spectral characteristics of dissolved organic matter was determined by fluorescence emission, excitation, and synchronous spectroscopy. Fluorescence emission, excitation, and synchronous spectra characterized by different relative fluorescent intensities and peaks over time. Fluorescence spectra were similar to that of fulvic acid in sewage sludge, indicating the presence of dissolved organic matter with aromatic structures and a high degree of molecular polymerization. Compared with the controls with no microbial inoculation, the microbe-inoculated treatments exhibited the increase of aromatic polycondensation, in the following order： MS ＋ ZJ 〉 ZJ 〉 MS 〉 CK.     

分子生态技术对厌氧脱氮除磷微生物优势菌群的鉴定

应用分子生态克隆技术,直接对A/O反应器所驯化培养的厌氧脱氮除磷微生物样品进行主要功能菌群的分子生态学鉴定。通过克隆文库的序列分析,发现驯化培养后厌氧污泥样品中的优势菌群主要是Azospirillum和Selenomonas两个属。这一结果表明,厌氧反应器中的某些红螺菌科和氨基酸球菌科的微生物,可能是在厌氧条件下对氮磷同时降解起关键作用的功能菌群。     

Effects of tetrahydrofuran on dissolved oxygen,pH, culturable aerobic microbes and enzyme activity in wastewater

Tetrahydrofuran (THF) is easy to volatilize and hard to biodegrade. Little is known about the influence and fate of tetrahydrofuran in the environment. The effects of THF were examined on dissolved oxygen, pH, culturable aerobic microbes (bacteria, actinomycetes, and fungi) and four selected enzymes (protease, phosphatase, amylase, and lipase) in wastewater. The wastewater containing some activated sludge was taken from the aeration basin in Sibao sewage plant in Hangzhou, China. THF at lower concentrations of enhanced aerobic respiration and higher concentrations decreased utilization of oxygen in wastewater. The short-term influence of THF on pH was not obvious, but the long-term effect was apparent. Inhibition of THF on culturable aerobic microbes rose with increasing THF concentrations but decreased with prolongation of incubation time. No effect of THF on the activity of protease, phosphatase, amylase, and lipase was found. Data indicate that lower concentrations of THF exert no marked influence on wastewater in an urban sewage plant.     

Kinetics of aerobic and anaerobic biomineralization of atrazine in surface and subsurface agricultural soils in Ohio

The purpose of this study was to assess atrazine mineralization in surface and subsurface samples retrieved from vertical cores of agricultural soils from two farm sites in Ohio. The Defiance site (NW-Ohio) was on soybean-corn rotation and Piketon (S-Ohio) was on continuous corn cultivation. Both sites had a history of atrazine application for at least a couple of decades. The clay fraction increased at the Defiance site and the organic matter and total N content decreased with depth at both sites. Mineralization of atrazine was assessed by measurement of ¹⁴CO₂ during incubation of soil samples with [U-ring-¹⁴C]-atrazine. Abiotic mineralization was negligible in all soil samples. Aerobic mineralization rate constants declined and the corresponding half-lives increased with depth at the Defiance site. Anaerobic mineralization (supplemented with nitrate) was mostly below the detection at the Defiance site. In Piketon samples, the kinetic parameters of aerobic and anaerobic biomineralization of atrazine displayed considerable scatter among replicate cores and duplicate biometers. In general, this study concludes that data especially for anaerobic biomineralization of atrazine can be more variable as compared to aerobic conditions and cannot be extrapolated from one agricultural site to another.     

生物脱臭技术的现状与展望

生物脱臭技术是利用固定在载体上的微生物 ,分解H2 S、NH3、有机溶剂等有害、发臭气体 ,使之成为无害、无味气体 ,从而达到除臭的目的。生物脱臭法与活性炭吸附、药液吸收等物理化学脱臭法相比 ,具有维护管理简单、运行成本低等优点。指出生物脱臭技术是一种应用前景广泛的除臭技术     

ABR反应器处理低浓度污水启动试验研究

为了探讨了四室ABR反应器启动规律,以低浓度污水为研究对象,通过控制酸化菌INT比脱氢酶活性、酸化率、OLR和H RT来实现反应器内部微生物相分离。结果表明:在水力停留时间3h,有机负荷2.4kgCOD/(m 3.d)条件下,酸化菌INT比脱氢酶活性与酸化率有关,且随流向逐渐降低,同一格室内中部比INT脱氢酶活性高于底部;一室、二室的酸化率占总酸化率的70%,确定一、二室为产酸反应器,三、四室为产甲烷反应器,实现了微生物相分离;反应器的启动时间为18d,稳定运行时,COD去除率可以达到35%￣40%。     

不同土地利用方式下土壤微生物数量与土壤肥力的关系

选取了6种不同土地利用方式,分别对土壤微生物数量变化及其与土壤养分的相互关系进行了研究,结果表明,不同土地利用方式下土壤微生物总量各有差异,具体表现为干鱼塘底泥>菜地>水稻田>果园>粮作旱地>荒草地;但从土壤微生物多样性指数来看,则表现为粮作旱地>菜地>果园>荒地>水稻田>鱼塘底泥。土壤中微生物总量与微生物多样性指数二者的变化趋势不一致,因此评价土壤生物多样性指数应将二者结合起来。微生物数量与土壤大多数养分含量(除有效磷和全钾之外)之间存在着一定的正相关关系,即土壤微生物数量随土壤养分含量的增加而增加。     

采样时间对空气微生物采样效果的影响

用ＡＮＤＥＲＳＥＮ生物粒子采样器和微孔滤膜空气微生物采样器，在室内进行了不同采样时间对空气微生物采样效果的研究。结果表明，这两种采样器采集的空气微生物粒子浓度随采样时间增加而减少，呈明显的负相关关系，相关系数分别为：－０．８９８和－０．９１１，Ｐ值均小于０．０５。ＡＮＤＥＲＳＥＮ采样器采样时间〈７ｍｉｎ和微孔滤膜采样器采样时间〈３ｍｉｎ时，对采集的空气微生物粒子浓度没有明显影响。采样时间对采集的空