预处理方法对香蒲厌氧发酵联产H2-CH4效能的影响

通过厌氧发酵动力学分析、还原糖及其他代谢产物变化情况,结合香蒲微观结构解析,系统研究酸(HCl)、碱(NaOH)、酶(纤维素酶R-10)3种预处理对水生植物厌氧发酵联产H₂-CH₄的影响. 结果表明:香蒲分别经酸、碱、酶3种预处理后,厌氧发酵联产累积H₂、CH₄产量及含量均显著提高,c(HCl)、c(NaOH)均为1.0mol/L, w(纤维素酶R-10)(以底物计)为10mg/g时,预处理最佳. 其中1.0mol/L NaOH预处理香蒲效果最佳,φ(H₂)(H₂含量)达30.09%,累积产H₂量(以香蒲干质量计)达11.39mL/g;φ(CH₄)(CH₄含量)最高达67.48%,累积产CH₄量(以香蒲干质量计)达41.87mL/g;还原糖利用率达50.87%,sCOD(溶解性化学需氧量)利用率达66.17%. 纤维素酶预处理后香蒲产CH₄能力显著提高,产CH₄阶段φ(CH₄)最高为71.39%,累积产CH₄量达46.32mL/g,还原糖利用率达72.10%. 扫描电镜微观结构分析表明,碱预处理对香蒲纤维素结构破坏程度最大,可有效增加香蒲与微生物接触面积,有利于厌氧发酵联产H₂-CH₄工艺的快速启动和稳定运行.      

薇甘菊浸提液对福寿螺主要器官组织损伤的扫描电镜观察

采用薇甘菊（Mikania micrantha H.B.K.）的乙酸乙酯浸提液对福寿螺（Pomacea canaliculata）进行浸杀,通过扫描电镜观察福寿螺头足部、外套膜及肝脏组织的损伤状况,探讨薇甘菊化感物质对福寿螺器官组织结构的影响。经过薇甘菊质量浓度为100mg·L^-1提取液浸杀2d后,福寿螺主要器官出现了明显的组织损伤。头足部肌肉组织出现明显的杂乱丝条状并有断裂,部分有侵蚀剥落,表现为较大的组织缺损;外套膜有大量的细胞被浸润,呈疏松不整齐的结构;肝脏表面粗糙,凹凸相间的皱褶形成起伏不平的组织,其间有深浅不一的裂痕,并有侵蚀孔状损伤。扫描电镜的观察结果可为探讨薇甘菊浸提液对福寿螺的毒杀机理提供一定的依据。     

Developing “precise-acting” strategies for improving anaerobic methanogenesis of organic waste: Insights from the electron transfer system of syntrophic partners

Methanogenesis is the last step in anaerobic digestion, which is usually a rate-limiting step in the biological treatment of organic waste. The low methanogenesis efficiency (low methane production rate, low methane yield, low methane content) substantially limits the development of anaerobic digestion technology. Traditional pretreatment methods and bio-stimulation strategies have impacts on the entire anaerobic system and cannot directly enhance methanogenesis in a targeted manner, which was defined as “broad-acting” strategies in this perspective. Further, we discussed our opinion of methanogenesis process with insights from the electron transfer system of syntrophic partners and provided potential targeted enhancing strategy for high-efficiency electron transfer system. These “precise-acting” strategies are expected to achieve an efficient methanogenesis process and enhance the bio-energy recovery of organic waste.     

SO2在水和有机溶剂中的化学形态及其脂/水分配系数：SO2生理学研究新模式

为了探讨内源性SO2生理作用和毒理作用的化学机制,采用真空减压法、超声波法、通气法、光谱扫描法及摇瓶法等对SO2在水和有机溶剂中的化学形态及其脂/水分配系数进行了研究.研究结果表明:1)气态SO2不仅易溶于水,而且更易溶于有机溶剂;2)SO2在水和有机溶剂中的溶解主要是物理性溶解,其主要以SO2分子状态存在于溶液中,在饱和溶液中90%以上是以自由分子状态存在,在较低浓度下也有50%左右以自由分子状态存在;3)SO2的脂/水分配系数仅为0.16～0.20,使存在于生物膜(脂相)系统的内源性SO2很容易进入水相并转化为亚硫酸盐,这将导致其在组织细胞内的半寿期很短,这符合信号分子的特征.由此结论:1)以SO2生理盐水溶液作为SO2供体,可作为研究内源性SO2生理作用和毒理作用的新模式;2)内源性SO2在组织细胞内的失活途径是:SO2→SO32-/HSO3-→SO42-.此外,论文认为亚硫酸钠和亚硫酸氢钠混合液并不能作为"SO2供体"用以处理生物组织.     

电子受体类型对聚磷污泥胞外聚合物的影响研究

采用3种电子受体(硝氮、亚硝氮、氧),在SBR反应器中分别驯化了具有稳定除磷能力的聚磷污泥。对比研究了不同聚磷污泥胞外聚合物(EPS)的组分与含量,结合三维荧光光谱对EPS中有机物质进行分析。研究表明,以硝氮、亚硝氮为电子受体的聚磷污泥EPS平均浓度较为接近,分别为115.6mg/gVSS、133.5 mg/gVSS,由厌氧段至缺氧段,EPS总浓度有所下降。以氧为电子受体聚磷污泥的EPS平均浓度相对较高,为194.5 mg/gVSS,由厌氧段至好氧段,EPS总浓度略有升高。不同聚磷污泥的EPS组分均以胞外蛋白为主,占EPS总量的53%~65%,多糖与核酸占EPS总量28%~34%、5%~7%。三维荧光光谱显示3种聚磷污泥EPS均具有芳香结构蛋白质、可溶性代谢物的荧光峰,另外,以硝氮为电子受体的聚磷污泥还具有明显的腐殖酸类物质的荧光峰。研究结果表明电子受体对聚磷污泥EPS的组分、浓度、有机质类别有一定的影响。     

不同共代谢基质对四氯乙烯的厌氧生物降解研究

用驯化好的厌氧污泥对葡萄糖、乳酸盐和醋酸盐作为电子供体时四氯乙烯(PCE)的降解进行研究。实验结果表明,PCE是通过还原脱氯发生生物降解的。实验的回归结果表明,反应均符合一级动力学反应速率,常数的大小依次为k乳酸>k葡萄糖>k醋酸。表明乳酸盐作为电子供体时PCE的降解速率较快,说明在实验条件下乳酸盐是最合适的电子供体。并且在整个实验过程中由共代谢基质提供的电子供体不是PCE降解的限制因素。     

DNA-based prenatal diagnosis of the infantile form of neuronal ceroid lipofuscinosis (INCL,CLN1)

Eleven fetuses at risk for the infantile form of neuronal ceroid lipofuscinosis (INCL, CLN1) were studied using DNA markers and the results were compared with the results of electron microscopy (EM) of chorionic villus specimens from pregnancies in the first or early second trimester of pregnancy. In four cases, the prenatal diagnosis was made independently with both methods, and in seven cases, the EM diagnosis was confirmed postnatally or from autopsy material using RFLP analysis. The two methods gave concordant results in all cases. The DNA analysis based on RFLP haplotypes also for the first time facilitates reliable carrier diagnostics. RFLP analysis based on polymorphic markers closely linked to the INCL locus is now available for prenatal diagnosis of this fatal brain disease, whose biochemical background is totally unknown and for which no treatment is available.     

Fe(Ⅲ)微生物还原机理及其研究进展

厌氧异养型微生物还原Fe(Ⅲ)的同时可以氧化降解有机物,在污染环境修复中具有积极的作用.目前对Fe(Ⅲ)微生物还原的物理、生物化学特性的认识还十分有限.总结了近年来自然环境中Fe(Ⅲ)还原菌的单菌种分离情况和混合菌的降解作用,探讨了Fe(Ⅲ)还原以及有机物降解的机理,分析了Fe(Ⅲ)可能对微生物产生的抑制作用,并提出了进一步研究的方向.     

Role of interfacial electron transfer reactions on sulfamethoxazole degradation by reduced nontronite activating H2O2

It has been documented that organic contaminants can be degraded by hydroxyl radicals ( • OH) produced by the activation of H₂ O₂ by Fe(II)-bearing clay. However, the interfacial electron transfer reactions between structural Fe(II) and H 2 O 2 for • OH generation and its effects on contaminant remediation are unclear. In this study, we first investigated the relation between • OH generation sites and sulfamethoxazole (SMX) degradation by activating H₂O₂ using nontronite with different reduction extents. SMX (5.2–16.9 μmol/L) degradation first increased and then decreased with an increase in the reduction extent of nontronite from 22% to 62%, while the • OH production increased continually. Passivization treatment of edge sites and structural variation results revealed that interfacial electron transfer reactions between Fe(II) and H 2 O 2 occur at both the edge and basal plane. The enhancement on basal plane interfacial electron transfer reactions in a high reduction extent rNAu-2 leads to the enhancement on utilization efficiencies of structural Fe(II) and H 2 O 2 for • OH generation.However, the • OH produced at the basal planes is less efficient in oxidizing SMX than that of at edge sites. Oxidation of SMX could be sustainable in the H 2 O 2 /rNAu-2 system through chemically reduction. The results of this study show the importance role of • OH generation sites on antibiotic degradation and provide guidance and potential strategies for antibiotic degradation by Fe(II)-bearing clay minerals in H 2 O 2 -based treatments.     

Surface characterization of metal oxides-supported activated carbon fiber catalysts for simultaneous catalytic hydrolysis of carbonyl sulfide and carbon disulfide

The sol–gel method was used to synthesize a series of metal oxides-supported activated carbon fiber (ACF) and the simultaneous catalytic hydrolysis activity of carbonyl sulfide (COS) and carbon disulfide (CS₂) at relatively low temperatures of 60°C was tested. The effects of preparation conditions on the catalyst properties were investigated, including the kinds and amount of metal oxides and calcination temperatures. The activity tests indicated that catalysts with 5 wt.% Ni after calcining at 400°C (Ni(5)/ACF(400)) had the best performance for the simultaneous catalytic hydrolysis of COS and CS₂. The surface and structure properties of prepared ACF were characterized by scanning electron microscope-energy disperse spectroscopy (SEM-EDS), Brunauer–Emmett–Teller (BET), X-ray diffraction (XRD), carbon dioxide-temperature programmed desorption (CO₂-TPD) and diffuse reflectance Fourier transform infrared reflection (DRFTIR). And the metal cation defects were researched by electron paramagnetic resonance (EPR) method. The characterization results showed that the supporting of Ni on the ACF made the ACF catalyst show alkaline and increased the specific surface area and the number of micropores, then improved catalytic hydrolysis activity. The DRFTIR results revealed that -OH species could facilitate the hydrolysis of COS and CS₂; -COO and -C–O species could facilitate the oxidation of catalytic hydrolysate H₂S. And the EPR results showed that high calcination temperature conditions provide more active reaction center for the COS and CS₂ adsorption.