Novel approach to monitoring of the soil biological quality

In this study, a new approach to interpretation of results of the simple microbial biomass and respiration measurements in the soil microbiology is proposed. The principle is based on eight basal and derived microbial parameters, which are standardized and then plotted into sunray plots. The output is visual presentation of one plot for each soil, which makes possible the relative comparison and evaluation of soils in the monitored set. Problems of soil microbiology, such as the lack of benchmarking and reference values, can be avoided by using the proposed method. We found that eight parameters provide enough information for evaluation of the status of the soil microorganisms and, thus, for evaluation of the soil biological quality. The usage of rare parameters (potential respiration PR, ratio of potential and basal respiration PR/BR, biomass-specific potential respiration PR/C(bio), available organic carbon C(ext), and biomass-specific available organic carbon C(ext)/C(bio)) can be recommended, besides classical and well-known parameters (microbial biomass C(bio), basal respiration BR, metabolic coefficient qCO(2)). The combination of basal parameters and derived coefficients can also extend our knowledge about the condition of the soil microorganisms. In monitoring the case studies presented, we observed that soils evaluated to possess good biological quality displayed generally higher values of organic carbon, total nitrogen, clay, and cation exchange capacity. The soils of good biological quality can display higher levels of contaminants. This is probably related with the higher content of organic carbon and clay in these soils.     

Control factors of partial nitritation for landfill leachate treatment

Anaerobic ammonium oxidation (ANAMMOX) technology has potential technical superiority and economical efficiency for the nitrogen removal from landfill leachate, which contains high-strength ammonium nitrogen (NH4 -N) and refractory organics. To complete the ANAMMOX process, a preceding partial nitritation step to produce the appropriate ratio of nitrite/ammonium is a key stage. The objective of this study was to determine the optimal conditions to acquire constant partial nitritation for landfill leachate treatment, and a bench scale fixed bed bio-film reactor was used in this study to investigate the effects of the running factors on the partial nitritation. The results showed that both the dissolved oxygen (DO) concentration and the ammonium volumetric loading rate (Nv) had effects on the partial nitritation. In the controlling conditions with a temperature of 30±1℃, Nv of 0.2-1.0 kg NH4 -N/(m3d), and DO concentration of 0.8-2.3 mg/L, the steady partial nitritation was achieved as follows: more than 94% partial nitritation efficiency (nitrite as the main product), 60%-74% NH4 -N removal efficiency, and NO2--N/NH4 -N ratio (concentration ratio) of 1.0-1.4 in the effluent. The impact of temperature was related to iVv at certain DO concentration, and the temperature range of 25-30癈 was suitable for treating high strength ammonium leachate. Ammonium-oxidizing bacteria could be acclimated to higher FA (free ammonium) in the range of 122-224 mg/L. According to the denaturing gradient gel electrophoresis analysis result of the bio-film in the reactor, there were 25 kinds of 16S rRNA gene fragments, which indicated that abundant microbial communities existed in the bio-film, although high concentrations of ammonium and FA may inhibit the growth of the nitrite-oxidizing bacteria and other microorganisms in the reactor.     

具有超压/负压防护功能的急救车防生物污染的安全性试验研究

采用粘质沙雷菌气溶胶,对具有超压/负压防护功能的急救车防生物污染的安全性进行试验考核。分别测试气溶胶发生后30s,1min,5min,10min时,车厢在超压防护和负压防护下的过滤效率,其结果表明:急救车在超压防护状态下开启空调时的平均过滤效率能达到99.99%,不开空调时的平均过滤效率能达到99.95%;在负压防护状态下开启空调时的平均过滤效率能达到99.93%,不开空调时的平均过滤效率能达到99.95%。证明急救车能够通过生物污染区域安全运送、急救伤病员,也能够运送、急救生物污染伤病员或烈性传染病员确保沿途环境不受污染,该研究成果为应对生物恐怖袭击和突发公共卫生事件(烈性传染病)提供了一种安全可靠的机动医疗救治平台。     

生化恐怖威胁谱系研究进展

评述国内外生化恐怖威胁谱系研究现状;从基于综合因素、基于使用可能、基于杀伤破坏能力和基于袭击主体等方面对生化恐怖威胁源的分类体系和威胁清单进行归纳与梳理;建立了以易得性、毒害性、可用性和防护性为主要评价指标的生化恐怖威胁源评估体系;对进一步开展生化恐怖威胁谱系研究提出了若干建议和思考。研究表明:生化恐怖威胁谱系是一个动态的复杂概念集合,科学地确定评价指标、深入开展生化恐怖威胁谱系研究对于鉴别生化恐怖威胁源及建设反生化恐怖技术能力意义重大。     

二恶英类化合物检测方法的研究现状及展望

介绍了二恶英类化合物的检测方法,并对各种检测方法的原理和应用进行了对比分析;其中高分辨率色谱/质谱法、荧光素酶报告基因法及酶免役分析法在实践中取得了很好的检测效果;CALUX 法与其他生物检测方法相比更适合于大批量样品中二恶英含量的快速定量筛选,对于二恶英污染调查有广阔的应用前景;综述了我国二恶英类化合物检测方法的研究现状,并对我国开展二恶英分析监测提出了建议和展望.     

固定化生物活性炭处理低浓度甲醇废水

将分离筛选得到的甲醇降解菌固定在颗粒活性炭上,组成固定化生物活性炭反应系统,研究该反应系统处理轻度污染含甲醇废水的最佳运行条件和运行效果,结果表明,固定化生物活性炭处理轻度污染含甲醇放心水的方法明显好于3种树脂和单纯活性炭吸附处理,反应系统的最佳运行条件是水力负荷0．84－0．77m^3(m^2.h）,停留时间57－62min,pH7－8,温度20℃－30℃,溶解氧是去除甲醇的主要限制因子,甲醇含量为11．3－23．1mg／L时,去除率大90％,出水CODcr小于12mg／L。此外还研究了生物活性炭生物膜的一些特点,并分析了运行中活性炭吸附性能的变化。     

覆盖旱作水稻的生物效应及吸氮特征

研究了田间条件下旱作水稻半腐解秸秆覆盖、蚕豆秆覆盖、地膜覆盖、纸膜覆盖、生稻草覆盖 5种覆盖方式的吸氮特征 ;水稻水作与旱作的产量及其构成因素 ;水稻水作与旱作条件下灌溉水的利用效率。结果表明 ,旱作条件下水稻各部位的含氮量均大于水作 ;旱作水稻的氮素吸收、累积主要在拔节期以后 ,而水作水稻从移栽后就大量吸收氮素 ,灌浆期后很少吸收氮素 ;旱作水稻的产量以半腐解覆盖处理的最高 ,为 8415kg/hm2 ;旱作水稻耗水量只占水作耗水量的 7 14% ,旱作水稻的水分利用效率是水作的 12倍以上     

浙江省农业生物灾害的现状、趋势及减灾对策

病虫草鼠是农业的主要生物灾害。本文分析了浙江省农业生物灾害的现状和今后农作物重大病虫害的发生趋势,提出了农业有害生物的控制对策。     

Fenton氧化-生物接触氧化工艺处理甲醛和乌洛托品废水

采用Fenton氧化一生物接触氧化工艺处理含甲醛和乌洛托品的模拟废水（简称废水）,在H2O2（体积分数30％）加入量2．5g／L、H2O2与Fe^2＋质量浓度比3．75、反应时间3h、不调节废水初始pH的Fenton氧化预处理最佳操作条件下,废水COD从1000mg／L左右降至300mg／L,COD去除率达72％。原废水完全无法直接进行生化处理,经Fenton氧化预处理后其BOD,／COD约为0．5,易于生化处理。Fenton氧化一生物接触氧化工艺处理废水,生物接触氧化停留时间为12h时,废水COD去除率高达94％,处理后出水COD小于70mg／L,处理效果很好。     

污泥龄对A/A/O工艺反硝化除磷的影响

以实际生活污水培养驯化污泥的小试规模A/A/O工艺为研究对象,进行了污泥龄（SRT）为8、10、12和15 d时对反硝化除磷的影响研究.结果表明,随着污泥龄的延长,反硝化除磷对系统除磷所起的作用越大,反硝化聚磷菌缺氧利用单位PHAs的反硝化数量和吸磷量也迅速增加,聚磷菌好氧利用单位PHAs的吸磷量并没有受到影响,以SRT为12 d时反硝化除磷和系统脱氮除磷效果为最好.结果还表明,去除单位氮所需COD数量随污泥龄的延长呈减少趋势,而去除单位磷所需COD数量呈增大趋势.对于我国典型的城市污水而言,SRT为12 d和15 d时去除单位氮和磷所需的外碳源数量较8 d时要低,从而使反硝化除磷作用可真正地达到节省碳源和能源的目的.