单光子/光电子在线质谱实时分析聚氯乙烯热分解/燃烧产物

实验室研制了低能光电子磁场增强电离(MEPEI)和单光子电离(SPI)复合电离源,该电离源具有电离化合物范围宽、碎片离子少、质谱图简单等优点,结合飞行时间质谱(TOF-MS)实现了聚氯乙烯(PVC)热分解/燃烧产物的在线分析.针对不同的目标化合物,MEPEI/SPI复合电离源通过调节电离区电场强度,可以快速在SPI和SPI-MEPEI之间切换.PVC热分解/燃烧产物中电离能大于光子能量(10.60 eV)的HCl和CO2(12.74 eV、13.77 eV)利用MEPEI模式电离;而烯烃、二氯乙烯、苯系物、氯苯、苯乙烯、茚满及萘系物等可通过SPI-MEPEI复合模式电离.通过实时监测PVC主要燃烧产物的信号强度随温度的变化趋势可推断出,PVC燃烧产物主要是通过两种机制生成:①250～370℃时,PVC发生脱氯及分子内环化反应,产生大量的HCl、苯和萘;②380～510℃时,PVC发生分子间交联反应,生成烷基芳烃,如甲苯和二甲苯/乙苯等.实验结果表明,SPI/SPI-MEPEI复合离子源TOF-MS分析速度快,应用范围广,在在线分析中具有广泛的应用前景.     

基于臭氧溶胞的活性污泥减量化技术

目前常见的活性污泥减量技术主要包括解偶联技术、微生物的捕食作用以及隐性生长三种方法。基于臭氧氧化溶胞作用从而强化细菌隐性生长的污泥减量技术具有较好的处理效果及良好的应用前景。着重探讨了臭氧溶胞作用的机理及溶胞过程的影响因素。考虑到污泥减量技术在实际污水处理系统中的应用,探讨了臭氧溶胞对污水生物处理系统的影响。     

不同石化污泥配比的堆肥处理对青梗菜生长的影响

试验针对石化污泥生物堆肥,开展了五种不同物料配比和是否添加微生物菌剂的对比试验。试验结果表明:随着堆肥物料中石化污泥配比的提高,堆肥的含水率增大,种植青梗菜的平均单株株高、株重减小,单位面积产量也降低。堆肥物料配比相同的处理Ⅱ与处理Ⅴ对比发现,堆肥处理过程中未添加微生物菌剂的处理Ⅴ的青梗菜的平均单株株高、株重、单位面积产量显著低于添加微生物菌剂的处理Ⅱ,甚至低于石化污泥配比为100%并添加微生物菌剂的处理Ⅳ,试验表明,堆肥过程中添加微生物菌剂,其作用不仅可以提高石化污泥生物堆肥的堆体温度,缩短堆肥周期,而且可提高堆肥在农业种植应用中的效果。     

Photocatalytic degradation of carbofuran in TiO2 aqueous solution：Kinetics using design of experiments and mechanism by HPLC/MS/MS

The photocatalytic degradation kinetics of carbofuran was optimized by central composite design based on response surface methodology for the first time. Three variables, TiO2 concentration, initial pH value and the concentration of carbofuran, were selected to determine the dependence of degradation efficiencies on independent variables. Response surface methodology modeling results indicated that the degradation efficiency of carbofuran was highly affected by the initial pH value and the concentration of carbofuran. Then nine degradation intermediates were detected by HPLC/MS/MS. The Frontier Electron Densities of carbofuran were calculated to predict the active sites on carbofuran attacked by hydroxyl radicals and photoholes. Point charges were used to elucidate the chemisorption pattern on TiO2 catalysts during the photocatalytic process. By combining the experimental results and calculation data, the photocatalytic degradation pathways of carbofuran were proposed, including the addition of hydroxyl radicals and the cleavage of the carbamate side chain.     

Soil microbial community structure and function responses to successive planting of Eucalyptus

Many studies have shown soil degradation after the conversion of native forests to exotic Eucalyptus plantations. However, few studies have investigated the long-term impacts of short-rotation forestry practices on soil microorganisms. The impacts of Eucalyptus successive rotations on soil microbial communities were evaluated by comparing phospholipid fatty acid （PLFA） abundances, compositions, and enzyme activities of native Pinus massoniana plantations and adjacent 1st, 2nd, 3rd, 4th generation Eucalyptus plantations. The conversion from P. massoniana to Eucalyptus plantations significantly decreased soil microbial community size and enzyme activities, and increased microbial physiological stress. However, the PLFA abundances formed ＂U＂ shaped quadratic functions with Eucalyptus plantation age. Alternatively, physiological stress biomarkers, the ratios of monounsaturated to saturated fatty acid and Gram＋ to Gram- bacteria, formed ＂∩＂ shaped quadratic functions, and the ratio of cy17：0 to 16： 1ω7c decreased with plantation age. The activities of phenol oxidase, peroxidase, and acid phosphatase increased with Eucalyptus plantation age, while the cellobiobydrolase activity formed ＂U＂ shaped quadratic functions. Soil N：P, alkaline hydrolytic nitrogen, soil organic carbon, and understory cover largely explained the variation in PLFA profiles while soil N：P, alkaline hydrolytic nitrogen, and understory cover explained most of the variability in enzyme activity. In conclusion, soil microbial structure and function under Eucalyptus plantations were strongly impacted by plantation age. Most of the changes could be explained by altered soil resource availability and understory cover associated with successive planting of Eucalyptus. Our results highlight the importance of plantation age for assessing the impacts of plantation conversion as well as the importance of reducing disturbance for plantation management.     

LaCl_3对绿萝净化甲醛能力及生理生化变化的研究

对南通市新城区20个居民小区共110家住户,进行入户调查并检测室内空气甲醛浓度;以室内观赏植物绿萝作为受试对象,分析喷施稀土LaCl3对绿萝叶片叶绿素含量和质膜透性的影响,进而确定绿萝喷施LaCl3的适宜剂量;采用熏蒸法考察LaCl3对甲醛胁迫下室内观赏植物绿萝降醛能力的影响,并研究其甲醛抗性的生理生化机制。研究结果表明,南通市新城区居室空气甲醛污染较为严重,污染程度与装修后时间长短有关;绿萝喷施LaCl3的适宜浓度为20 mg/L;在喷施适宜浓度LaCl3之后,室内观赏植物绿萝单位叶面积吸收甲醛能力有所增强,提升幅度为19.75%;甲醛胁迫下,绿萝叶绿素含量降低了39.87%,质膜透性和MDA累积量分别增加了8.17、56.92%,POD活性升高了11.32%;经LaCl3预处理后,较甲醛胁迫组,绿萝叶绿素含量降幅与质膜透性、MDA浓度增幅均变小,而POD活性增幅变大。     

水汽浓度变化对温室效应影响的定量分析

为了考察大气水汽浓度变化对温室效应的影响,以全球大气温度探空数据集RATPAC-A为基础,对流层采用固定相对湿度的假设,并根据平流层水汽的历史变化趋势,进行了定量研究。结果表明,对流层绝对湿度的增加,会造成其各处向上出射长波通量的减少,并在层顶处达到最大,且对流层顶水汽含量的变化,对于向上长波通量的影响最为显著;如果地表温度升高1 K,大气水汽浓度增加所导致的对流层顶向上长波通量的减小值为2.22 W/m2,对流层水汽含量变化与地表温升之间存在着强烈的正反馈关系,有能力使二氧化碳所造成的温室效应进一步增强50%;平流层水蒸汽体积浓度每上升1×10-6,将会使对流层顶的向下长波通量增加0.31 W/m2。     

哈尼河水源环境风险评估与防范措施的研究

哈尼河是通化市50万人口的重要供水水源地,针对哈尼河水源环境风险进行识别、评估,从而提出风险防范措施,确保水源地水质安全.     

全新世哈尼泥炭地碳积累速率及影响因素

本工作研究了全新世中国东北地区哈尼泥炭地的碳积累速率与气候变化的响应机制。综合多指标腐殖化度、有机碳含量、干容重和纤维素碳氧同位素重建了哈尼地区全新世气候变化历史,并且基于定年、有机碳含量和干容重得到碳积累速率数据。哈尼泥炭时间加权平均碳积累速率28.3gC/(m2·a)。B/A暖期后期温暖湿润气候有利于碳积累,出现碳积累高峰。相对寒冷的新仙女木期碳积累速率有所降低。温暖湿润早中全新世虽有高泥炭分解,但高初级生产力还是占据主导作用,出现高碳积累速率。期间有两次火山碎屑层扰动了泥炭发育,导致碳积累速率下降。高碳积累速率一直持续到4ka BP左右大暖期结束。4.0~1.6ka BP太平洋季风减弱,泥炭表面偏干,加之降温导致低初级生产力,最终导致此阶段碳积累速率显著降低。之后季风不断增强,碳积累速率也随之增加。八次IRD降温,小冰期和新仙女木降温在哈尼都是冷湿气候组合。冷湿气候虽使有机物分解降低,但更大程度的抑制了初级生产力发展,导致低碳积累速率。     

丛枝菌对转Bt基因棉根际土壤营养物质及酶活性的影响

转Bt基因抗虫棉已在全球范围内广泛种植,然而Bt棉根际分泌物是否会影响土壤理化性质及土壤功能尚缺乏深入研究。通过盆栽实验方法,设计不同的棉花品种与是否接种丛枝菌总共4个处理,以此研究Bt棉和接种丛枝菌根真菌对植物根际土壤营养物质含量以及土壤酶活性的影响。结果显示:丛枝菌可以使non-Bt棉和Bt棉根际土壤营养物质中的土壤有机质和土壤总氮含量显著增加,但是对根际土壤全磷却鲜有影响。转基因对于不同品种棉花根际土壤酶,丛枝菌均能有效增强其活性。由此表明,丛枝菌对Bt棉和non-Br棉根际土壤环境均具有改善作用。