Metagenomic insights into responses of microbial population and key functional genes to fulvic acid during partial nitritation

The long-term impact of fulvic acid (FA) on partial nitritation (PN) system was initially examined in this study. The obtained results revealed that the FA lower than 50 mg/L had negligible effect on the nitrite accumulation rate (NAR nearly 100%) and ammonium removal rate (ARR 56.85%), while FA over 50 mg/L decreased ARR from 56.85% to 0.7%. Sludge characteristics analysis found that appropriate FA (<50 mg/L) exposure promoted the settling performance and granulation of PN sludge by removing Bacteroidetes and accumulating Chloroflexi. The analysis of metagenomics suggested that the presence of limited FA (0-50 mg/L) stimulated the generation of NADH, which favors the denitrification and nitrite reduction. The negative impact of FA on the PN system could be divided into two stages. Initially, limited FA (50-120 mg/L) was decomposed by Anaerolineae to stimulate the growth and propagation of heterotrophic bacteria (Thauera). Increasing heterotrophs competed with AOB (Nitrosomonas) for dissolved oxygen, causing AOB to be eliminated and ARR to declined. Subsequently, when FA dosage was over 120 mg/L, Anaerolineae were inhibited and heterotrophic bacteria reduced, resulting in the abundance of AOB recovered. Nevertheless, the ammonium transformation pathway was suppressed because genes amoABC and hao were obviously reduced, leading to the deterioration of reactor performance. Overall, these results provide theoretical guidance for the practical application of PN for the treatment of FA-containing sewage.     

好氧颗粒污泥的形成过程及其影响因素

阐述了以普通活性污泥和厌氧颗粒污泥为接种物时好氧颗粒污泥的形成过程,以及细胞表面较高的疏水性,基质中适当的Ca2+浓度,反应器内较高的水流剪切力和较短的沉降时间对这一过程的促进作用。     

石油污染土壤的生物整治研究

对被石油污染的包气带土层中微生物生态分布特性进行了调查，并从该土层中分离出１５９株烃降解细菌和真菌，其中１７株可以不同程度地分别利用烷烃（ｎＣ９～ｎＣ１８）和芳烃（酚、萘、甲苯和二甲苯）作为唯一碳源生长，在最适氮源和磷源的条件下，假音胞菌在５２在７ｄ内可利用石蜡作为碳源，生物量连续增加；３ｄ可将初始浓度为５００ｍｇ／Ｌ的机油降解９９％，投加选育出的混合菌株，进行土壤石油污染的生物整治模拟试验，结果     

固定化微生物法处理含甲硫醇恶臭气体

采用液相曝气方式驯化培养污水厂活性污泥，获得具有降解甲硫醇能力的优势微生物菌群。同时用海藻酸钠包埋固定化微生物，研究固定化微生物颗粒填充床去除甲硫醇恶臭气体的工艺过程。液相曝气培养研究表明：降解甲硫醇的微生物菌群适宜的ｐＨ值为５．２～９．０，最佳ｐＨ条件为弱碱性。已驯化微生物的离心浓缩回收率为７１．２％，颗粒填充床生物脱臭塔运行实验表明：在空塔停留时间不大于１３ｓ，对低浓度甲硫醇气体（〈１２．９ｍ     

景观生态学在水库环评中的应用--以周公宅水库为例

生态完整性的判定是生态影响评价的基础，可从生态体系的结构和功能两个方面考虑进行评价。分别从景观结构、植被生物量和植被分布的空间异质性三个角度对宁波市周公宅水库库区景观生态体系的结构和功能状况进行了评价。     

生物滴滤塔处理苯乙烯气流的工效和生物膜微群落的分析

采用培养驯化污泥菌种、类球形陶粒和循环液等构建生物滴滤塔.研究评价气体苯乙烯浓度、气体流量、循环液喷淋量对生物滴滤塔工效的影响,并对生物膜微群落中的微种群作了定性定量检测.当进口气体苯乙烯小于1 000 mg/m3、气体流量为200 L/h、循环液流量为10 L/h时,苯乙烯净化效率达90%以上,生化去除量为30 mg/(L·h);单位体积生物膜填料对苯乙烯的最大生化去除量为35 mg/(L·h).湿润生物膜微群落的优势菌种群包括恶臭假单胞菌、梭形芽孢杆菌、罗非氏不动杆菌等5种,恶臭假单胞菌等非芽孢杆菌的最大活菌数为5.5×107 CFU/g,并随生物滴滤塔运行时间延长有减少趋势.     

Chloroacetic acids in environmental processes

The fate of chloroacetic acids (CAA) in forest soils was studied using radio-indicator methods. We showed that chloroacetic acids are both microbially degraded and simultaneously formed by chloroperoxidase-mediated chlorination of acetic and humic acids. The degree of biodegradation of chloroacetic acids in soil depends on their concentration. Dichloroacetic acid (DCA) is degraded faster than trichloroacetic acid (TCA). Chlorination of acetic acid led to a fast formation of dichloroacetic acid, whereas chlorination of humic acids gave rise to trichloroacetic acid. Both processes lead to a steady state in soil, participate in the chlorine cycle and possibly also in decomposition of organic matter in forest ecosystems.     

Remediation of Cu and As contaminated water and soil utilizing biochar supported layered double hydroxide: Mechanisms and soil environment altering

Preparing materials for simultaneous remediation of anionic and cationic heavy metals contamination has always been the focus of research. Herein a biochar supported FeMnMg layered double hydroxide (LDH) composites (LB) for simultaneous remediation of copper and arsenic contamination in water and soil has been assembled by a facile co-precipitation approach. Both adsorption isotherm and kinetics studies of heavy metals removal by LB were applied to look into the adsorption performance of adsorbents in water. Moreover, the adsorption mechanisms of Cu and As by LB were investigated, showing that Cu in aqueous solution was removed by the isomorphic substitution, precipitation and electrostatic adsorption while As was removed by complexation. In addition, the availability of Cu and As in the soil incubation experiments was reduced by 35.54%–63.00% and 8.39%–29.04%, respectively by using LB. Meanwhile, the addition of LB increased the activities of urease and sucrase by 93.78%–374.35% and 84.35%–520.04%, respectively, of which 1% of the dosage was the best. A phenomenon was found that the richness and structure of microbial community became vigorous within 1% dosage of LB, which indirectly enhanced the passivation and stabilization of heavy metals. These results indicated that the soil environment was significantly improved by LB. This research demonstrates that LB would be an imaginably forceful material for the remediation of anionic and cationic heavy metals in contaminated water and soil.     

微生物絮凝剂净化废水实验研究

采用微生物絮凝剂（ＭＢＦ）对于多种康２进行了净２化实验研究，结果表明，从活性污泥中分离出的Ｑ３－２菌株，由其产生的絮凝剂较曲霉产生的絮凝剂有更好的净化效果，最高絮凝率可达到９９．５％。将传统的无机絮凝剂碱式氯化铝与微生物絮凝剂配合使用不仅可以降低絮凝剂的总投加量，而且还可减少污泥量及污泥中铝残留量，这有利于絮凝后废渣的综合利用。     

微生物降解法处理含酚废水的研究进展

微生物降解法处理含酚废水作为一种简便、高效的处理方法具有传统方法所无法比拟的优点。文中从降酚菌的来源、苯酚的生物降解途径以及固定化微生物技术在处理含酚废水中的应用等方面介绍了微生物降解法处理含酚废水的最新研究进展,预期该领域具有十分广阔的应用前景。