Pseudomonas flava WD-3对人工湿地中土著微生物量及酶活性的影响研究

从山东南四湖人工湿地的底泥中分离驯化出在低温条件下生长速率及代谢速率最高的一株菌,经形态特征、生理生化特性及16S r DNA序列分析鉴定,确定该菌株为黄假单胞菌(Pseudomonas flava),命名为Pseudomonas flava WD-3.同时,探索了在北方冬季条件下,该菌投加到人工湿地中在提高废水处理效率的同时,对湿地中土著可培养微生物类群数量和酶活性的影响.结果表明:随着Pseudomonas flava WD-3投加量的增加,人工湿地中可培养细菌、真菌、放线菌、硝化细菌及反硝化细菌的数量均产生了显著变化(p0.01).与对照组相比,湿地系统中可培养细菌、放线菌、硝化细菌及反硝化细菌数量最大分别增加了1.3、1.9、2.3、1.3倍,而可培养真菌数量最大减少了23.3%.土壤酶活性也随着Pseudomonas flava WD-3投加量的增加而增强,当Pseudomonas flava WD-3为水处理效果最佳投加量(6.00%)时,与对照组相比,过氧化氢酶、脲酶和脱氢酶活性最大增幅分别高达69.2%、41.3%和54.5%,蔗糖酶最大增加了2.3倍.研究表明,Pseudomonas flava WD-3在提高冬季人工湿地污水净化效果的同时,还能促进湿地土著可培养微生物的生长和酶的活性.     

长江经济带环境污染胁迫的驱动因素及空间效应

污染物排放基数大、内生与跨区排污累积是长江经济带污染防治面临的严峻现实,高强度环境污染胁迫过程已成为当前生态文明建设的重要障碍.本文以长江经济带127个地市级及以上单元为实证案例,选取化学需氧量、氨氮、二氧化硫和氮氧化物4项污染物指标,在基于熵值法的环境污染胁迫指数（EPSI）测度基础上,采用空间杜宾模型,定量分解环境污染胁迫的驱动因素及空间效应,为制定面向污染源管控的环境规制提供科学参考.研究发现：①2011—2015年长江经济带环境污染胁迫程度降低4.8%,胁迫程度由上游向下游递增,其中,上游干流、太湖流域及下游干流的胁迫程度较为突出.②长江经济带环境污染胁迫程度整体趋稳、局部改善,高污染胁迫区在长三角地区集中分布,滇川贵渝、湘鄂赣、江浙沪皖等交界地区,以及昆明至重庆一带已形成的高胁迫区亦是未来管制重点.③环境污染胁迫过程具有显著空间溢出效应,本地胁迫程度增加的同时引起邻地胁迫加剧.随着环境管控趋紧,长江经济带环境污染胁迫的外部性有所缓解.④人口规模和城镇化水平是驱动本地胁迫程度提升的重要因素,二者还通过空间溢出效应作用于周边地区,而工业化、农业经济份额、内外资等因素仅能作用于本地的环境污染胁迫过程.长江经济带环境污染胁迫驱动因素的多元化趋势表明,应实施系统化、源头化综合治理以缓解环境污染胁迫态势,需引导绿色生产生活方式、提升建设开发行为的环境效益、规避外资驱动的跨区污染转移、发挥国有资本在环境处置与保护过程中的示范作用.     

Screening of the marine actinomycetes with anti-complement activity and isolation of the active fractions北大核心CSCD

Studies on anti-complement agents are essential for the development of drugs to treat various diseases caused by excessive or abnormal activation of the complement system. However, studies on microbial-derived anti-complement agents are still very limited. The anti-complement activities of 42 marine-derived actinomycete strains isolated from the sediment samples collected from Xinghai Bay in Dalian were studied using the hemolysis method. In addition, the active fractions of the strain Streptomyces sp. DUT11 were separated by C18 and Sephadex LH-20 column chromatography, and the active compounds with anti-complement activity were identified. Streptomyces strains S187, M5, S088, M8, S063, DUT11 and MD16 showed good anti-complement activities upon being cultured in TSB medium, with the strain DUT11 showing the best anti-complement activity among these strains. When different fermentation media were tested, the highest anti-complement activity of DUT11 was observed in M33 fermentation medium. The anti-complement activity was 56.5% for the extract of supernatant and 60.8% for the extract of mycelia, respectively. Furthermore, three compounds with anti-complement activity were obtained from the active components, which were identified as 3-indolecarboxylic acid (1), p-hydroxy benzoic acid (2) and 2-pyrrolecarboxylic acid (3). These results demonstrated that marine-derived streptomycetes can be employed to produce active compounds with anti-complement activity. This study presents a new alternative for the utilization of marine actinomycetes and provides a basis for the exploration of new anti-complement agents. © 2018 Science Press. All rights reserved.     

苯并三唑类紫外稳定剂在环境中的检测、分布及其毒性效应

苯并三唑类紫外稳定剂(benzotriazole UV stabilizers,BUVSs)因具有良好的紫外吸收能力广泛应用于个人护理品及工业产品中。由于其环境持久性、生物累积性,以及对生物体具有潜在的毒性效应,近年来得到广泛关注。对环境中典型BUVSs的分析方法、在不同环境介质中的浓度水平及其毒性效应进行了综述,预测了BUVSs的生物活性(毒性作用模式),并对其未来的研究方向进行了展望。     

转cry1Ab和epsps基因玉米C0030.3.5对大型蚤(Daphnia magna)的生态毒性研究

随着抗虫和耐草甘膦除草剂转基因玉米的迅速推广和种植,其环境安全性也越来越成为人们关注的焦点。为探讨抗虫耐除草剂转基因玉米C0030.3.5(外源基因cry1Ab和epsps)对水生动物环境的安全性,以模式生物大型蚤(Daphnia magna)为指示生物,分别使用1.5 g·L~(-1)C0030.3.5玉米粉和其非转基因对照DBN318玉米粉饲喂大型蚤28 d,探讨C0030.3.5玉米对大型蚤生长和繁殖的影响。结果显示,C0030.3.5玉米粉组大型蚤与亲本DBN318组大型蚤相比,体长、存活率、新生幼蚤总数等没有显著性差异(P0.05)。28 d饲喂实验结果表明,抗虫耐除草剂玉米C0030.3.5没有对大型蚤生长和繁殖产生不良影响。上述研究结果为转基因玉米的商业化种植和安全管理提供科学数据。     

水培实验中不同粒径纳米TiO_2对金鱼藻种子发芽和植株生长和生理的影响

纳米二氧化钛(TiO_2-NPs)是目前应用最为广泛的纳米材料之一,在城市污水处理厂的出水、污泥以及地表水体中已均有检出,进入到天然湿地和人工湿地中的TiO_2-NPs会在湿地生物、基质、水体之间进行迁移转化和归趋。目前针对TiO_2-NPs对湿地植物金鱼藻的毒性研究很少。本文采用水培实验方法,研究了不同粒径TiO_2对金鱼藻种子发芽和植株生长的影响,解析了TiO_2-NPs对金鱼藻的生态毒理效应。研究结果表明:各粒径TiO_2-NPs对金鱼藻种子的发芽均具有一定的抑制作用,表现为发芽率、发芽幼苗重量、发芽指数、发芽势和活力指数的降低,且粒径越小、浓度越高对金鱼藻种子发芽的抑制作用越强,4 nm、20 nm和50 nm的TiO_2-NPs对金鱼藻种子发芽的半数有效浓度(EC_(50))分别为1 180、1 520和1 810 mg·L~(-1)。TiO_2-NPs对金鱼藻植株的毒害作用表现为叶片失绿发黄、脱落,植株呈萎焉状,并且TiO_2-NPs的粒径越小、浓度越高毒害作用越明显。随TiO_2-NPs浓度升高,处理后金鱼藻叶片的叶绿素含量和植株体内的Mg含量均降低,丙二醛(malondialdehyde,MDA)含量均升高,而超氧化物歧化酶(superoxide dismutase,SOD)活性则先升高后降低,而且越小粒径的TiO_2-NPs对金鱼藻的处理效果越明显。3种粒径的TiO_2-NPs均能进入金鱼藻体内,粒径越小、浓度越高进入的量越多。综上表明,TiO_2-NPs对金鱼藻种子发芽和植株生长均有一定的抑制作用,且粒径越小、浓度越高抑制作用越强。     

Potential shift of bacterial community structure and corrosion-related bacteria in drinking water distribution pipeline driven by water source switching

• Bacterial release from aged pipe sections under extreme conditions was quantified. • Released bacterial community structure exhibited large variation after transition. • Risks from transition reduced significantly with cleaner source. As a result of pollution in the present water sources, cities have been forced to utilize cleaner water sources. There are few reports regarding the potential shift of bacterial community structure driven by water source switching, especially that of corrosion-related bacteria. Three types of finished water were used for simulation, the polluted source water from the Qiantang and Dongtiaoxi Rivers (China) was replaced by cleaner water from Qiandao Lake (China). Here, we discussed the transition effects through three simulated reactors. The bacterial characteristics were identified using the high-throughput sequencing and heterotrophic plate count method. It was observed that the level of culturable bacteria declined by 2–3 orders of magnitude after water source switching. The bacterial community released from the pipeline reactor was significantly different under different finished water, and it exhibited large variation at the genus level. Porphyrobacter (58.2%) and Phreatobacter (14.5%) clearly replaced Novosphingobium, Aquabacterium, and Cupriavidus as new dominant genera in system A, which could be attributed to the lower carbon and nitrogen content of the new water source. Although corrosion-inhibiting bacteria decreased after switching, they still maintained dominant in three reactors (6.6%, 15.9%, and 19.7%). Furthermore, potential opportunistic pathogens such as Sphingomonas were detected. Our study shows that after transition to a high quality water source, the total culturable bacteria released was in a downtrend, which leads to a great reduction in the risk of bacterial leakage in the produced drinking water.     

Ce0.7Zr0.3O2纳米棒的制备及其对柴油车尾气碳颗粒的催化净化性能

本研究以硝酸铈、硝酸锆为原料使用溶剂热合成法,制备了CeO₂-ZrO₂纳米棒催化剂(Ce_0.7Zr_0.3O₂(NR)),并用于柴油车尾气碳颗粒催化净化.催化活性检测证实:Ce_0.7Zr_0.3O₂(NR)纳米棒催化剂可有效净化柴油车尾气碳烟颗粒.在Ce_0.7Zr_0.3O₂(NR)存在下,碳颗粒净化率为10%、50%和90%时,所需温度分别仅为375℃、414℃和455℃,比商用Ce_0.7Zr_0.3O₂和Ce0.3Zr0.7O2催化剂性能更优.采用氮吸附-脱附、X射线光电子能谱(XPS)、H2程序升温还原(H₂-TPR)、X射线衍射(XRD)、拉曼光谱(Raman)、扫描电子显微镜(SEM)和透射电子显微镜(TEM)等技术对催化剂进行表征.XRD和Raman结果证实,Ce_0.7Zr_0.3O₂(NR)主要由立方相CeO₂构成,并掺杂了少量四方相氧化锆.SEM和TEM结果则显示,Ce_0.7Zr_0.3O₂(NR)催化剂颗粒明显由纳米棒堆积而成,特定的纳米形貌会影响其对碳颗粒的催化氧化活性.XPS结果证明Ce_0.7Zr_0.3O₂(NR)催化剂主要具有晶格氧、化学氧和表面吸附氧等氧物种;晶格氧是碳颗粒氧化的活性氧物种,其溢流到催化剂表面可与碳颗粒接触从而提高反应活性;化学氧和表面吸附氧均为表面氧物种,极易与表面固体碳颗粒直接接触,从而可在较低温度下促进碳颗粒的净化.H₂-TPR结果进一步证实了XPS结果,Ce_0.7Zr_0.3O₂(NR)催化剂的低温还原温度比商用Ce_0.7Zr_0.3O₂催化剂更低,且含有更多的易还原氧物种,这些低温易还原氧物种可以在较低温度下参与催化反应,促进柴油车尾气颗粒物的低温催化净化.     

环境中微/纳米塑料的污染现状、分析方法、毒性评价及健康效应研究进展

微塑料是粒径小于5 mm的塑料颗粒,纳米塑料是粒径小于1μm的塑料颗粒.微/纳米塑料广泛存在于各种环境介质中,由于其粒径小、比表面积大,很容易被直接吸入、经口食入或皮肤浸入至体内,造成毒害作用,危害健康.本文主要总结了环境中微/纳米塑料在水、大气、土壤和食品中的污染现状,阐述了其对生物体可能产生的毒性效应,探讨了其对人体健康造成的不良影响.最后本文在总结现有研究的基础上,对未来微/纳米塑料的毒性效应和健康危害的研究方向进行了分析和展望.     

微塑料在哺乳动物的暴露途径、毒性效应和毒性机制浅述

微塑料广泛存在于大气、土壤和水体环境中,其对人体的危害正受到广泛关注.本文阐述了当前对微塑料在哺乳动物的暴露途径、毒性作用和毒性机制的认识.空气-呼吸系统、食物/饮水-消化系统以及洗漱/护肤产品-皮肤等都是目前最常见的微塑料人体暴露途径,其中消化系统暴露是最主要的方式.目前的研究显示肠道、肝脏和肾脏是主要的微塑料富集部位,可引发肠道菌群失调、肠道功能紊乱以及肝脏脂质代谢紊乱,而对其它组织器官和系统如肺部、肾脏、神经系统、生殖系统等产生的毒性效应尚需更多研究的开展.当前研究显示微塑料的毒性机制主要包括氧化应激和炎症反应,深入的分子机制仍需进一步探讨.本文对微塑料毒性研究的综述将有助于系统认识微塑料的健康危害,为进一步开展微塑料的风险评估提供支持.