二氯苯醌对斑马鱼胚胎发育及超氧化物歧化酶的影响

2,6-二氯-1,4-苯醌（2,6-dichloro-1,4-benzoquinone,2,6-DCBQ）作为一种新型消毒副产物,因其高检出率及高含量的特点而备受人们关注.本研究以斑马鱼胚胎为实验材料探究了2,6-DCBQ的发育毒性.结果发现：斑马鱼胚胎在8~24 hpf（器官发育形成时期）对2,6-DCBQ暴露最为敏感,死亡率最高;2,6-DCBQ安全浓度为27.15 μg·L^-1,属于极度危险外源化学物.在本实验中,2,6-DCBQ对斑马鱼的生长没有显著影响,但高浓度（100和150 μg·L^-1）2,6-DCBQ会显著增加斑马鱼胚胎及仔鱼的畸形率.在实验过程中还发现,高浓度（≥ 80 μg·L^-1）2,6-DCBQ会明显抑制斑马鱼胚胎的心率.此外,≥ 30 μg·L^-1 2,6-DCBQ可提高超氧化物歧化酶（Superoxide dismutase,SOD）的活性,并影响Cu/ZnSOD和MnSOD的正常转录.本研究较全面地探究了2,6-DCBQ对斑马鱼早期发育阶段的发育毒性,可为2,6-DCBQ的毒性研究提供可靠证据.     

再生水不同灌水水平对土壤酶活性及耐热大肠菌群分布的影响

为了探讨再生水不同灌水水平对土壤酶活性和环境污染指示菌耐热大肠菌群分布的影响,采用室内土柱灌水实验,研究再生水、自来水不同灌水水平对土壤酶活性和耐热大肠菌群分布的影响.结果表明:(1)在土壤酶活性方面,相同灌水水平下,与自来水处理相比,再生水灌溉处理提高了土壤脲酶和蔗糖酶活性;再生水不同灌水水平对比分析表明,充分灌水处理显著提高了土壤蔗糖酶活性和深层土壤过氧化氢酶活性.(2)在土壤耐热大肠菌群分布方面,相同灌水水平下,与自来水灌溉处理相比,再生水灌溉显著提高了土壤耐热大肠菌群数量;再生水不同灌水水平对比分析表明,充分灌水处理显著增加了土壤耐热大肠菌群数量;4个处理的表层土壤耐热大肠菌群数量均显著高于深层,且随着灌溉时间的推移,0~60 cm各土层的土壤耐热大肠菌群数量存在降低趋势.(3)通过对土壤耐热大肠菌群数量与土壤酶活性的相关性分析表明,土壤耐热大肠菌群数量与土壤脲酶和蔗糖酶活性呈极显著正相关,与土壤过氧化氢酶活性呈显著正相关.因此,再生水灌溉促进了土壤C、N循环转化酶的活性,合理控制再生水灌水水平可以有效阻控土壤耐热大肠菌群的数量.     

Health hazards related to conidia of Cladosporium—biological air pollutants in Poland, central Europe

The spores of Cladosporium Link. are often present in the air in high quantities and produce many allergenic proteins, which may lead to asthma. An aerobiological spore monitoring program can inform patients about the current spore concentration in air and help their physicians determine the spore dose that is harmful for a given individual. This makes it possible to develop optimized responses and propose personalized therapy for a particular sensitive patient. The aim of this study was to assess the extent of the human health hazard posed by the fungal genus Cladosporium. For the first time, we have determined the number of days on which air samples in Poland exceeded the concentrations linked to allergic responses of sensitive patients, according to thresholds established by three different groups(2800/3000/4000 spores per 1 m~3 of the air). The survey was conducted over three consecutive growing seasons(April–September, 2010–2012) in three cities located in different climate zones of Poland(Poznan, Lublin and Rzeszow). The average number of days exceeding 2800 spores per cubic meter(the lowest threshold) ranged from 61(2010) through 76(2011) to 93(2012), though there was significant variation between cities. In each year the highest concentration of spores in the air was detected in either Poznan or Lublin, both located on large plains with intensive agriculture. We have proposed that an effective, science-based software platform to support policy-making on air quality should incorporate biological air pollutant data,such as allergenic fungal spores and pollen grains.     

特厚煤层综放工作面多参量监测预警分析

根据某矿12220工作面特厚煤层综放开采,穿越F16逆冲断层的特殊情况,为保证安全生产及时提供预警信息,采用微震、钻屑量、支架阻力、地表变形多种监测手段综合分析回采过程中的参量变化规律。结果表明:微震活动的峰值能量周期约为3 d,回采间距约为4.5 m,且断层下盘较上盘的微震事件能量更集中;钻屑量的统计分析发现最大值出现在上巷下帮7～11 m和下巷上帮9～11 m范围内,划定该区域为巷帮高应力集中区,并将平均钻屑量3 kg/m作为黄色预警临界值,3.5 kg/m作为红色预警临界值;另外,根据支架前、后柱阻力变化情况,划定了2个连续变化的高压力区,发现在初撑力偏低,甚至不接顶、虚顶情况下,支架梁顶部煤体受自重和构造应力作用易发生准脆性受拉断裂破坏,且在穿越逆冲断层的回采过程中,支架阻力峰值呈现由中下部向上部转移的变化规律;最后,通过对地表走向、倾向测点的变形量数据进行统计分析发现,走向面后84.9～284.8 m范围内下沉量较大,下沉速率增幅明显;而工作面倾向中部下沉量最大,整体下沉变形呈二次抛物型,其中下部下沉速率增幅明显。     

基于智能手机采集数据的施工活动识别

施工人员的活动监控对施工安全管理及预防职业疾病至关重要。为提升施工安全的智能化管理水平,对楼板钢筋工程施工中的8个主要活动进行识别。为弥补单一传感技术采集维度不足的缺陷和集成传感技术对系统灵活性的限制,采用智能手机内置加速度传感器和陀螺仪采集试验人员模拟施工人员活动时的加速度和倾角数据,并提取平均值、标准差、协方差、四分位距(IQR)为活动的特征矢量。通过决策树中的CART算法建立分类训练模型,采用“交叉验证法”对模型进行评估和验证。测试结果表明:对于样本个体的平均分类准确率为95.28%,预测准确率为92.86%;样本总体的分类准确率为89.67%,预测准确率为94.82%。研究表明,基于智能手机采集数据的决策树模型可以用于施工人员的活动识别。     

Simultaneous denitrification and denitrifying phosphorus removal in a full-scale anoxic–oxic process without internal recycle treating low strength wastewater

Performance of a full-scale anoxic-oxic activated sludge treatment plant(4.0×10~5 m~3/day for the first-stage project) was followed during a year.The plant performed well for the removal of carbon,nitrogen and phosphorus in the process of treating domestic wastewater within a temperature range of 10.8℃ to 30.5℃.Mass balance calculations indicated that COD utilization mainly occurred in the anoxic phase,accounting for 88.2% of total COD removal.Ammonia nitrogen removal occurred 13.71% in the anoxic zones and 78.77% in the aerobic zones.The contribution of anoxic zones to total nitrogen(TN) removal was 57.41%.Results indicated that nitrogen elimination in the oxic tanks was mainly contributed by simultaneous nitrification and denitrification(SND).The reduction of phosphorus mainly took place in the oxic zones,51.45% of the total removal.Denitrifying phosphorus removal was achieved biologically by 11.29%.Practical experience proved that adaptability to gradually changing temperature of the microbial populations was important to maintain the plant overall stability.Sudden changes in temperature did not cause paralysis of the system just lower removal efficiency,which could be explained by functional redundancy of microorganisms that may compensate the adverse effects of temperature changes to a certain degree.Anoxic-oxic process without internal recycling has great potential to treat low strength wastewater(i.e.,TN 35 mg/L) as well as reducing operation costs.     

Aerobic N2O emission for activated sludge acclimated under different aeration rates in the multiple anoxic and aerobic process

Nitrous oxide (N₂O) is a potent greenhouse gas that can be emitted during biological nitrogen removal. N₂O emission was examined in a multiple anoxic and aerobic process at the aeration rates of 600 mL/min sequencing batch reactor (SBR_L) and 1200 mL/min (SBR_H). The nitrogen removal percentage was 89% in SBR_L and 71% in SBR_H, respectively. N₂O emission mainly occurred during the aerobic phase, and the N₂O emission factor was 10.1% in SBR_L and 2.3% in SBR_H, respectively. In all batch experiments, the N₂O emission potential was high in SBR_L compared with SBR_H. In SBR_L, with increasing aeration rates, the N₂O emission factor decreased during nitrification, while it increased during denitrification and simultaneous nitrification and denitrification (SND). By contrast, in SBR_H the N₂O emission factor during nitrification, denitrification and SND was relatively low and changed little with increasing aeration rates. The microbial competition affected the N₂O emission during biological nitrogen removal.     

垂直流湿地基质中酶的分布与氮磷及有机质的关系

为了解垂直流人工湿地基质中酶的空间分布特点及其与基质中氮磷和有机质的关系,采用垂直流人工湿地微宇宙试验系统进行了为期4个月的运行试验,分析种植植物的皇竹草系统和不种植物的对照系统基质中不同深度层酶活性的变化,以及酶活性与基质中污染物的关系. 结果表明:脲酶、磷酸酶、过氧化氢酶、转化酶、蛋白酶和纤维素酶这6种酶的活性在上层(0~<10 cm)的分布特点相一致,即皇竹草系统基质中的酶活性显著高于对照系统(P＜0.05). 在垂直方向上,两个系统中6种酶的活性都表现为上层显著较高,这与基质中w(TN)、w(TP)和w(有机质)的分布规律相一致;Pearson相关性分析发现,脲酶活性与w(TN)、w(TP)、w(有机质)均呈极显著正相关(相关系数依次为0.951、0.970、0.933,P均小于0.01),过氧化氢酶、转化酶活性均与w(TN)呈极显著正相关(相关系数依次为0.997、0.916,P均小于0.01),磷酸酶活性与w(TP)、w(有机质)均呈极显著正相关(相关系数依次为0.925、0.919,P均小于0.01),转化酶活性与w(TP)呈显著相关(相关系数为0.869,P<0.05),纤维素酶活性与w(有机质)呈显著相关(相关系数为0.864,P<0.05). 研究显示,在垂直流人工湿地系统中种植皇竹草有助于提高基质中酶的活性,酶活性与氮磷及有机质等污染物的积累和迁移密切相关.      

石墨烯修饰电极微生物燃料电池及其抗菌性研究进展

基于石墨烯具有优异的物理化学特性,石墨烯修饰电极能有效提升微生物燃料电池(Microbial Fuel Cell,简称MFC)产电性能并降低制备成本,而成为MFC研究发展的重要方向.本文系统介绍了石墨烯及石墨烯复合材料修饰阳极和阴极MFC、石墨烯材料的抗菌性等方面的研究进展,提出深入探讨石墨烯修饰电极与MFC微生物的相互作用关系,协调MFC石墨烯修饰电极抗菌性及强化产电是今后石墨烯电极MFC研究的重要内容.     

不同碳源条件下污水生物脱氮过程中N_2O的释放规律

以3类常用的碳源(乙酸钠、葡萄糖和甲醇)为研究对象,在3个稳定运行的SBR系统内考察了碳源种类对污水生物脱氮过程中N_2O释放的影响。结果显示,各系统内N_2O的释放主要发生在好氧硝化阶段,且在以乙酸钠为碳源的系统内氨氧化速率最快,TN去除率最大,但同时N_2O的释放速率、累积释放量(4.44 mg)和转化率(1.3%)也最大。而以甲醇为碳源的小试系统脱氮效果较差,TN去除率仅为59.5%,但N_2O的释放速率、累积释放量和转化率均最低。在实际污水处理过程中,当以温室气体N_2O释放作为判断标准时,此研究结果可为碳源的选择提供依据。