水分控制下的湿地沉积物氧化还原电位及其对有机碳矿化的影响

为探讨水分与氧化还原电位之间的内在关系及其对沼泽湿地有机碳分解矿化的影响,采用室内培养(25℃,155 d)实验研究了不同水分条件(24%~232%WHC)下三江平原3类湿地(泥炭沼泽、腐殖质沼泽和沼泽化草甸)沉积物氧化还原电位(Eh)变化以及有机碳的矿化特征.结果表明,不同水分条件对湿地沉积物氧化还原电位的影响有较大差异,在低于100%WHC(最大持水量)水分范围时,氧化还原电位随着水分的增加而降低,>100%WHC(至积水2 cm)时,水分含量变化对泥炭沼泽和腐殖质沼泽沉积物氧化还原电位影响作用降低.泥炭沼泽、腐殖质沼泽和沼泽化草甸沉积物有机碳矿化最适宜水分含量存在较大差异,分别为32%、48%和76%~100%WHC.湿地沉积物有机碳矿化速率与氧化还原电位之间存在二次函数关系(p<0.05),在还原态下(Eh值<300 mV),有机碳矿化速率和矿化量随氧化还原电位的升高而升高,在氧化态(Eh值>300 mV)下则逐渐降低.较低的氧化还原电位是三江平原湿地有机碳得以积累的重要原因.     

醌还原酶 醌类化合物对偶氮染料脱色的作用

外加醌类化合物作介体,利用细菌胞内的醌还原酶考察基因工程菌Escherichia coli YB对偶氮染料的脱色能力,以及甲基氢醌预处理对E. coli JM109和厌氧污泥脱色的影响.结果表明,介体2羟基1,4萘醌（lawsone,LQ）的存在对胞内过量表达醌还原酶AZR的E. coli YB的脱色能力有显著的促进作用,0.2 mmol·L^-1 LQ存在下,苋菜红（1 mmol·L^-1）在2 h内可脱色75%.LQ存在时E. coli YB对高浓度的染料也有脱色效果,8 h可使苋菜红（5 mmol·L^-1）脱色50%左右.与LQ相比,甲萘醌作为介体对脱色的促进效果较差,2.5 mmol·L^-1甲萘醌存在下脱色70%需12 h.LQ存在时E. coli YB对苋菜红的重复脱色能力稳定,12 h内能完成4次重复脱色.LQ的存在对于结构较复杂的2种偶氮染料酸性大红GR和活性艳红K2BP的脱色也有促进作用,在最适LQ浓度下,分别在9 h和30 h脱色70%.甲基氢醌预处理对E. coli JM109和厌氧污泥的脱色能力都有促进作用.预处理后在LQ存在下,E. coli JM109在5 h可脱色苋菜红（1 mmol·L^-1）80%左右,而污泥可在11 h脱色75%以上.     

节水知识、意识和行为的现状评估及系统分析——以北京市中学生为例

节约用水是缓解水资源紧缺的有效途径,涉及社会心理层面认知、意愿的复杂状态。设计问卷对312名北京市中学生的节水知识、意识和行为进行现状评估,系统分析三者相互关系,为推行更为有效的节水管理措施提供支持。结果显示,节水知识、意识和行为问卷的信度指标(Cronbach’sα)值分别为0.82、0.77和0.84。中学生群体缺乏对节水的精确定量认知,难以判别用水的合理程度;电视是当前的主要知识来源。水资源的稀缺性被广泛认同,中学生群体具有一定的敏感度和节水责任感,能够感知水资源条件的变化;但缺乏深入理解,尤其存在"口号化"的倾向。中学生群体在节水行为方面有待改进。通过改变自身用水方式达到节水目的的行为发生频次超过半数,而改变他人用水方式的人际行为发生率较低。节水意识显著影响节水行为,节水知识对节水意识的影响不具统计意义。节水知识除直接影响节水行为外,还通过节水意识的中介效应影响节水行为,两者效果比例大约9∶1。     

Phosphorus release： A biogeochemical insight from a restored lakeside wetland in the Yangtze-Huaihe region, China

The heavy intensification of agriculture in East China since the 1980s caused the decrease of lake area and water storage capacity with impediment of regulation, lake eutrophication and frequent floods. Many restoration projects have been conducted. However, the knowledge of biogeochemical factors that drive nutrient cycles during the early stage of restoration is still limited. We studied the effect of the remediation of a patch of near-shore shallow wetland on the northern bank of Chaohu Lake in the Yangtze-Huaihe region, China, which was used as rice paddy for many years, on the behavior of phosphorus. Redox potential (ORP), temperature and dissolved oxygen were monitored in situ from May 2006 to November 2007. Samples of soil pore water were collected during this time for the determination of different forms of iron and phosphorus. ORP showed a clear transition of the wetland soil from an oxidized state in winter to a reduced state in summer. The decrease of ORP correlated with the release of large amounts of Fe and P. The maxima of total dissolved Fe and total dissolved P in the summer of the second year were (13.8 ± 6.8) mg/L and (0.88 ± 0.27) mg/L, respectively. It is worth noticing that P concentration far exceeded the critical value of lake eutrophication (0.02 mg/L). The pressure of P release to the adjacent lake during the first two years of wetland restoration from rice fields should be taken into account by environmental policy makers.     

微生物燃料电池中生物阴极的研究与应用现状

在简要介绍了微生物燃料电池的发展背景、原理和发展趋势的基础上,重点概述了微生物燃料电池阴极的发展现状,特别是生物阴极的研究与应用现状,最后对其目前存在的主要问题进行了分析,并对其今后的发展提出了展望。     

曝气灌溉条件下土壤N2O排放特征及影响因子分析

为了明确曝气灌溉下土壤N₂O排放特征及主要影响因子,实验设置了2个灌水量（70%和90%田间持水量）和2个增氧水平（5,40mg/L）,采用静态箱法和qPCR技术对土壤N₂O通量及土壤关键功能基因进行测定,研究不同灌水量和增氧水平对土壤充水孔隙度、溶解氧、氧化还原电位（Eh）、矿质氮及氨氧化古菌（AOA）、氨氧化细菌（AOB）和反硝化基因（narG和nosZ）的影响.结果表明：培养过程中,各处理N₂O排放通量均呈现先增加后降低的趋势,于灌溉后1d达到峰值;曝气量和灌水量的增加可显著增加土壤N₂O的排放通量和排放峰值.灌溉造成土壤含水量增加的同时,降低了土壤溶解氧和Eh;曝气可提高土壤溶解氧和Eh,改善土壤通气性（P<0.05）,而对土壤充水孔隙度无显著影响.土壤充水孔隙度、Eh、NO₃^--N含量是曝气灌溉下驱动土壤N₂O排放的主要理化因子.曝气显著增加了AOA的基因拷贝数,且N₂O排放与AOA的基因拷贝数呈显著正相关关系（P<0.05）.研究结果为进一步明确曝气灌溉对土壤N₂O排放的影响机制和曝气灌溉模式下农田N₂O排放管理提供支撑.     

沉积物电缆细菌研究进展

目前,在沉积物中发现一种丝状多细胞微生物-电缆细菌,该菌属于变形菌门的脱硫球茎菌科（Desulfobulbaceae）.电缆细菌通过远距离电子传输将沉积物表面的氧还原与深处缺氧层的硫化物氧化电耦合进行完整的氧化还原反应,调节氧分子和硫化物迁移转化.电缆细菌有3种连接方式,表层存在脊段结构进行电子运输,并在富含硫酸盐和季节性周期变化的自然环境中广泛存在.这种新型的多细胞合作方式对沉积物的生物地球化学循环产生显著影响,促进沉积物硫化区铁锰的溶解,并抑制硫和磷等元素的释放.此外,电缆细菌参与硫化物和烃类污染物的降解,为污染沉积物生物修复领域提供新的研究方向.本文对电缆细菌的发现、生理代谢、栖息环境以及生物地球化学循环的影响等研究进行了综述.     

醌基修饰PVA海绵的制备、表征及加速偶氮染料生物脱色研究

非水溶性氧化还原介体催化强化污染物降解是目前环境领域研究的热点,通过合成实验开发出醌基功能基团接枝聚乙烯醇海绵(PVA)载体,从而制备出含有醌基的高分子介体材料,并进行偶氮染料生物降解研究.醌基修饰PVA海绵中醌基含量是0.08 mmol·g-1,其中最佳胺化时间为6 h,最佳胺化温度是30℃,最佳接醌时间是2 h,最佳接醌温度为40℃.通过元素分析与扫描电镜表明醌基基团已经成功固定到PVA表面.合成的以PVA为载体的醌基高分子介体材料对偶氮染料进行生物降解,实验表明醌基修饰PVA具有高效的催化活性和良好的催化稳定性.多次循环使用后仍能保持较高的生物脱色催化性能,使得其在水污染处理方面具有良好的实际应用前景.     

CeO2 doping boosted low-temperature NH3-SCR activity of FeTiOx catalyst: A microstructure analysis and reaction mechanistic study

• CeO₂ doping significantly improved low-temperature NH₃-SCR activity on FeTiO_x. • The crystallinity of FeTiO_x was decreased dramatically after CeO₂ doping. • Unique Ce-O-Fe structure in FeCe_0.2TiO_x accounted for its superior redox property. • Facile activation of NH₃ to-NH₂ on FeCe_0.2TiO_x promoted the DeNO_x efficiency. FeTiO_x has been recognized as an environmental-friendly and cost-effective catalyst for selective catalytic reduction (SCR) of NO_x with NH₃. Aimed at further improving the low-temperature DeNO_x efficiency of FeTiO_x catalyst, a simple strategy of CeO₂ doping was proposed. The low-temperature (<250℃) NH₃-SCR activity of FeTiO_x catalyst could be dramatically enhanced by CeO₂ doping, and the optimal composition of the catalyst was confirmed as FeCe_0.2TiO_x, which performed a NO_x conversion of 90% at ca. 200℃. According to X-ray diffraction (XRD), Raman spectra and X-ray absorption fine structure spectroscopy (XAFS) analysis, FeCe_0.2TiO_x showed low crystallinity, with Fe and Ce species well mixed with each other. Based on the fitting results of extended X-ray absorption fine structure (EXAFS), a unique Ce-O-Fe structure was formed in FeCe_0.2TiO_x catalyst. The well improved specific surface area and the newly formed Ce-O-Fe structure dramatically contributed to the improvement of the redox property of FeCe_0.2TiO_x catalyst, which was well confirmed by H₂-temperature-programmed reduction (H₂-TPR) and in situ XAFS experiments. Such enhanced redox capability could benefit the activation of NO and NH₃ at low temperatures for NO_x removal. The detailed reaction mechanism study further suggested that the facile oxidative dehydrogenation of NH₃ to highly reactive-NH₂ played a key role in enhancing the low-temperature NH₃-SCR performance of FeCe_0.2TiO_x catalyst.     

典型氧化还原环境中微塑料表面的微生物群落组成特征与构建机制

微塑料广泛分布在微生物驱动的生物地球化学循环中,其表面会富集独特特征的微生物群落,构成微塑料圈（plastisphere）.自然环境中广泛存在的多种氧化还原环境不仅会影响微塑料圈中微生物群落的组成,还会影响微塑料的最终归宿.为探究典型氧化还原环境中微塑料表面的微生物群落组成特征与构建机制,将3种微塑料PHA （聚羟基脂肪酸酯）、PLA （聚乳酸）和PVC （聚氯乙烯）放置于好氧、硝酸盐还原、铁氧化物还原、硫酸盐还原和产甲烷这5种典型氧化还原环境中,利用污泥作为接种物,进行微宇宙模拟培养实验.结果表明,在分类学和系统发育学上,微塑料因子分别影响了微塑料表面18.94%和46.67%的微生物群落,氧化还原环境因子分别影响了微塑料表面31.04%和90.00%的微生物群落.与污泥相比较,3种微塑料表面富集的微生物群落丰富度和均匀度均降低,其中降低最明显的是更易降解的PHA微塑料,而难降解的PLA和PVC微塑料表面的微生物群落变化特征相似.PHA微塑料表面富集的微生物中,Anaerocolumna（26.44%）为其优势菌种,较少富集与氧化还原反应相关的特征菌群;PLA和PVC中,Clostridium_sensu_stricto_7 （15.49%和11.87%）为其优势菌种,且显著富集与氧化还原反应相关的特征菌群,表明与氧化还原反应相关的特征菌群更易于富集在难降解的微塑料表面,进而可能对生物地球化学循环速率造成影响.