聚磷菌富集实验及其内源特征探究

通过磷酸盐释放速率(PRR)测定、荧光原位杂交技术(FISH)及LIVE/DEAD细胞染色技术,分别研究了生物营养物去除(BNR)系统与富集聚磷菌(PAOs)序批式反应器(SBR)系统中PAOs在好氧环境下的衰减特征.结果表明,当富集聚磷菌SBR系统进料中碳源(三水合乙酸钠和丙酸)是以36d为一个循环周期方式投加时,即三水合乙酸钠24d和丙酸12d,系统中PAOs富集比例可达91%.测定与计算结果表明,生物营养物去除(BNR)系统与富集聚磷菌SBR系统中PAOs衰减速率分别为0.113d-1和0.181d-1,死亡速率分别为0.048d-1和0.036d-1.这说明由细胞死亡引起的PAOs数量衰减在两个系统中分别占细胞总衰减的42%(BNR)和20%(SBR),而由细胞活性降低引起的活性衰减分别占细胞总衰减的58%(BNR)和80%(SBR).由此可见,PAOs数量衰减在其细胞总衰减中只占较小一部分,而绝大部分衰减是由活性衰减所引起.     

Characterization of phenanthrene degradation by strain Polyporus sp. S133

Polyporus sp. S133, a fungus collected from contaminated soil, was used to degrade phenanthrene, a polycyclic aromatic hydrocarbon, in a mineral salt broth liquid culture. A maximal degradation rate (92%) was obtained when Polyporus sp. S133 was cultured for 30 days with agitation at 120 r/min, as compared to 44% degradation in non-agitated cultures. Furthermore, the degradation was a ected by the addition of surfactants. Tween 80 was the most suitable surfactant for the degradation of phenanthrene by Polyporus sp. S133. The degradation rate increased as the amount of Tween 80 added increased. The rate in agitated cultures was about 2 times that in non-agitated cultures. The mechanism of degradation was determined through the identification of metabolites; 9,10-phenanthrenequinone, 2,2’-diphenic acid, phthalic acid, and protocatechuic acid. Several enzymes (manganese peroxidase, lignin peroxidase, laccase, 1,2-dioxygenase and 2,3-dioxygenase) produced by Polyporus sp. S133 were detected during the incubation. The highest level of activity was shown by 1,2-dioxygenase (187.4 U/L) after 20 days of culture.     

Biodegradation of 2-naphthol and its metabolites by coupling Aspergillus niger with Bacillus subtilis

To explore biodegradation of 2-naphthol and its metabolites accumulated in wastewater treatment, a series of bio-degradation experiments were conducted. Two main metabolites of 2-naphthol, 1,2-naphthalene-diol and 1,2-naphthoquinone, were identified by high-performance liquid chromatography with standards. Combining fungus Aspergillus niger with bacterium Bacillus subtilis in the treatment enhanced 2-naphthol degradation e ciency, lowered the accumulation of the two toxic metabolites. There were two main phases during the degradation process by the kinetic analysis: 2-naphthol was first partly degraded by the fungus, producing labile and easily accumulated metabolites, and then the metabolites were mainly degraded by the bacterium, attested by the degradation processes of 1,2-naphthalene-diol and 1,2-naphthoquinone as sole source of carbon and energy. Sodium succinate, as a co-metabolic substrate, was the most suitable compound for the continuous degradation. The optimum concentration of 2-naphthol was 50 mg/L. The overall 2-naphthol degradation rate was 92%, and the CODCr removal rate was 80% on day 10. These results indicated that high degradation rate of 2-naphthol should not be considered as the sole desirable criterion for the bioremediation of 2-naphtholcontaminated soils/wastewater.     

基于内生增长理论的煤矿企业安全发展研究——多渠道人才培养体系的架构

从经济学角度出发,运用内生增长理论作为理论分析工具,试对煤矿企业安全问题的解决途径进行探讨。煤矿企业要安全健康发展,其关键还在于人力资源的开发、利用和管理。作为高危行业的煤炭企业,人才是安全生产的保障,没有人才就没有安全。以此人力资源开发及"安全发展"的新理念为基础,从人才培养主体(即政府、教育部门、企业)和培养客体(即在校生、在职员工、社会公众等)两个方面,针对各个主体部门应如何联手履行其培养客体的职责,共同架构起煤矿企业多渠道人才培养体系进行了论述。     

低DO硝化耦合内碳源反硝化脱氮处理生活污水

为了进一步合理利用碳源,降低曝气能耗,有效解决低C/N生活污水的脱氮问题,采用2个串联的SBR在无外加碳源的条件下处理低C/N实际生活污水,分别启动内碳源反硝化反应器（ED-SBR）和低DO硝化反应器（LDON-SBR）,并按照厌氧（ED-SBR）-好氧（LDON-SBR）-缺氧（ED-SBR）的方式运行,综合考察各反应器处理性能,并探讨低DO硝化耦合内碳源反硝化工艺脱氮的可行性.结果表明：LDON-SBR反应器在DO浓度为0.3~0.5mg/L的条件下能够成功实现90%以上的硝化并稳定维持,同时反应器存在明显的同步硝化反硝化（SND）现象,SND率可达29.6%;ED-SBR反应器在厌氧阶段能够将进水中的有机物转化为内碳源并储存,在缺氧阶段能够进行内源反硝化,使NO₃^--N平均浓度从27.3mg/L降低至3.9mg/L,NO₃^--N平均去除率为86.5%;系统整体COD去除率为80%左右.     

厌氧反硝化产甲烷体系中喹啉与吲哚共基质的降解特性

研究了厌氧反硝化产甲烷体系中,典型含氮杂环化合物喹啉、吲哚作为共基质碳源,厌氧生物对二者的降解特性,及群落分析.结果表明：在共基质条件下,喹啉的存在对吲哚的生物降解有抑制作用,且抑制随喹啉浓度的升高而升高;吲哚的存在对喹啉的生物降解有促进作用,但吲哚浓度过高（150mg/L）抑制了喹啉的降解;喹啉、吲哚共基质时,二者的降解都遵循零级反应动力学;通过GC-MS分析,喹啉的主要中间代谢产物分别为2（1H）喹诺酮与8-羟基-2（1H）喹诺酮;吲哚的主要代谢产物为2-吲哚酮与靛红;通过高通量测序对共基质体系的微生物群落进行分析,发现厌氧功能菌群得到富集,细菌菌门以变形菌门Proteobacteria为主,菌纲以Gammaproteobacteria和Betaproteobacteria为主,菌属以Acinetobacter,Candidimonas,Azospira,和Desulfomicrobium为主.     

尿液中多环芳烃羟基代谢产物分析方法研究

通过实验建立了"酶水解-固相萃取-HPLC 荧光检测"尿液中多环芳烃羟基代谢产物1-羟基芘,9-羟基苯并[a]芘和3-羟基苯并[a]芘的分析方法,研究了3种代谢产物在不同保存温度下的稳定性,并通过对200个实际尿液的测定初步验证了该方法的可行性。该方法回收率为70%～85%,最低检出限为0 02～0 05μg L。-20℃保存的尿液样品及尿液提取液中3种化合物在1个月内降解了10%～36%,提取液比尿液的稳定性稍好,保存温度越高稳定性越差。      

广州人群尿液有机磷阻燃剂的暴露与健康风险

针对广州480名普通群众,利用尿液作为检测基质,研究人体内有机磷酸酯阻燃剂(OPFRs)代谢物的浓度水平,暴露的潜在来源,阐明其健康风险,并与其他包括邻苯二甲酸酯在内的多种有机污染物的健康风险对比筛选出高风险污染物.结果表明,广州居民体内普遍检出OPFRs代谢物,其平均浓度为6.59ng/mL,尤其是二-β,β-氯乙基...     

利用HS-SPME-GC技术分析环境水样中超痕量的六氯苯,DDT及其代谢产物

利用顶空固相微萃取(HS-SPME)和气相色谱检测技术,通过对三种不同的SPME萃取头(PDMS,PMPVS,PA)实验条件的优化,并参照液液萃取的方法,对水相中六氯苯,DDT及其代谢产物的萃取效果进行了比较．结果表明,SPME方法比液液萃取方法在检测限和回收率上有很大的提高,其中PDMS对检测六氯苯,DDT及其代谢产物的效果较其它两种萃取头好．     

The long iron line: Water resources development at the United States Military Academy,West Point (1802–1943)

Comprehensive analyses of long-term region-specific water resources developments could offer new insights for contemporary water resources planners and decision makers. The objective of this work was to analyze water supply development at the United States Military Academy (USMA) during the 19th and early 20th Centuries through the lens of selected modern water resources planning and management practices. Analysis of water usage, population, and technological growth revealed that changes in technology had a greater influence on total water withdrawals than an increase in population. The USMA water supply system evolved incrementally over much of the 141-year study period and failure to adequately recognize shortcomings in water supply options resulted in several suboptimal decisions. Communications and enhanced stakeholder participation might have resulted in alternative decisions.