The effect of imazethapyr on soil microbes in soybean fields in northeast China

Large quantities of herbicides are used on agricultural soils, but the effects of herbicides on the structure of the soil microbial community have not been well investigated. In this study, soil from three soybean fields was investigated. The herbicide imazethapyr was applied in one year to soil 1 and in two sequential years to soil 2. Control soil received no imazethapyr. Microbial biomass and community structure were characterised using chloroform fumigation–extraction and phospholipid fatty acid (PLFA) determination. The imazethapyr residue was 1.62 μ g·kg^?1 in soil 1 and 1.79 μ g·kg^?1 in soil 2. The microbial biomass carbon and total PLFAs for soil 2 were much higher than for the other soils. PLFA profiles showed that fatty acids for Gram-negative and Gram-positive bacteria, as well as total bacteria and total fungi in soil 2 were higher than in other samples. Principal component analysis of the PLFAs showed that the structure of the microbial community differed substantially among the three different soybean field soils. Application of the herbicide imazethapyr to soybean fields clearly changed the soil microbial biomass and shifted the structure of the microbial community.     

十一镍锆钼杂多酸盐的合成、表征及超声强化降解染料废水

采用水溶液合成法制备了具有Keggin型结构的十一镍锆钼杂多酸盐Na6[Ni（Mo11ZrO39）].20H2O（NiZrMo）,并对其进行表征及分析.元素分析表明,镍锆钼之间的物质的量之比满足1∶1∶11的关系;热重/差热分析说明合成的杂多酸盐具有比较好的热稳定性并带有20个结晶水;红外光谱、X射线衍射及紫外光谱表征充分表明合成的杂多酸盐其阴离子仍保持Keggin型结构;扫描电镜分析表明,具有比较好的大分子化合物的基本特征和比较规则的晶体结构.以NiZrMo杂多酸盐为催化剂降解酸性绿B（AGB）染料废水,降解率最高可达95.72%.     

程海藻类植物种群结构和数量的周年变化特征

2009年10月—2010年9月,在程海湖设置了3个断面9个采样点,对程海藻类植物进行了逐月采样调查。结果表明：程海藻类植物种类175种（变种）,种类组成结构特点以硅藻、绿藻、蓝藻为主;数量组成结构特点则是蓝藻占绝对优势,表现出典型的富营养化蓝藻型特征。细胞丰度为390.16×104~51 435.0×104个.L-1之间,年平均4 851.75×104个.L-1。年内时间分布呈现出3次波峰与3次波谷,每一次高峰的出现都伴随着不同种类为主的蓝藻水华暴发;水平分布在种类上无明显差异,数量上则表现出南部断面最低,中部断面次之,北部断面最高;垂直分布以表层最多,底层最低,5.0~20.0 m水柱中差异不明显。与1985年相比,种类组成中硅藻比重下降而蓝绿藻比重上升,一些对环境敏感的种类消失,优势种群发生演变,年内数量变动由单峰型发展为多峰型,湖泊富营养化进一步发展。提出了大力削减入湖污染物、增强湖泊生态系统的功能等控制富营养化的对策建议。     

沉降土体对管道跨越结构应力影响的分析

为了更好地保障长输管道的安全稳定运行,针对长输管道当中的跨越结构进行了应力分析与计算。基于管道跨越结构其结构的特殊性,极容易受到断层、土体塌陷等地质灾害的影响。因此建立了跨越段埋地管道与土壤相互作用的有限元力学模型,分析了30°、40°、50°、60°跨越结构和不同范围土体发生沉降时,管道的应力变化情况。结果显示,当跨越结构中斜管段的角度确定后,便可计算出相应的安全沉降长度;当斜管段角度为50°时,沉降长度控制在13.6m以内,可保证跨越结构不发生塑性变形。通过研究为管道跨越段的安全设计提供了理论依据,该方法可应用在类似的管道跨越结构的应力设计当中。     

Effects of nanoparticles on Daphnia magna population dynamics

Spherical TiO₂ nanoparticles (npTiO₂) were prepared by controlled hydrolysis of tetraethoxy orthotitanate under a nitrogen atmosphere. ZnO nanoparticles (npZnO) were prepared using hydrothermal methods. The crystal structure, chemical, thermal and morphological properties of npZnO and npTiO₂ were characterised using Fourier Transform Infrared Spectrometer, enery-dispersive X-ray spectroscopy, X-ray diffraction, and scanning electron microscope techniques. The short- and long-term experiments were started with neonates taken from the same culture and laboratory condition. In the acute experiments, npTiO₂, npZnO, and cocktail concentrations were applied. 96h-LC₅₀ values were 1.8, 0.7, and 0.1?mg?L^?1, respectively (p?<?.05). For the chronic experiments, different npTiO₂ concentrations were performed. 21d-LC₅₀ value was 1.0?mgL^?1 (p?<?.05). Morphometry became progressively worse in concentrations of more than 1?mgL^?1 npTiO₂. Neonate and young individuals were more sensitive to death because of their low tolerance. This result was affected by population progeny and growth rates (p?<?.05). While control and 0.5?mgL^?1 npTiO₂ groups were determined as growing population, 1.5 and 2?mgL^?1 npTiO₂ groups had decreased population size as R₀ values. Consequently, the relationships between nanoparticle accumulation within Daphnia magna and its population structure and body morphometry for each concentration were important indicators. Its tolerance level to nanoparticles under laboratory conditions reflected its replacement and behaviour in the ecosystem.     

Population structure and community characteristics of Acer catalpifolium Rehd北大核心CSCD

Acer catalpifolium Rehd., a critically endangered tree species with an extremely limited range of distribution, is one of the 120 plant species with extremely small populations, as approved by the state forestry administration of the People's Republic of China and requires urgent rescue action. In order to comprehensively understand the population status and the future developmental trend of A. catalpifolium, the plant communities were investigated from 5 sites, including Caishenmiao (CSM), Banruosi (BRS), Zhangshancun (ZSC), Fuhusi (FHS), and Baoguosi (BGS). The population structure of A. catalpifolium as well as the species composition and community characteristics of its habitat were investigated. The results showed that A. catalpifolium is mainly distributed in the evergreen broad-leaved and deciduous broad-leaved mixed forests, in different community layers, namely, the tree layer, shrub layer, and herb layer, and is accompanied by 52, 74, and 52 plant species, respectively. Analyses of the distribution of population abundance revealed that BRS had the largest distribution of A. catalpifolium, accounting for 26.04% of the total population, followed by FHS, ZSC, BGS, and CSM, in that order. Analyses of the community characteristics revealed that the species diversity indices in FHS, BRS, BGS, and CSM were greater than that in ZSC. Analyses of the population age structure of A. catalpifolium revealed the gap in the distribution of the levels of seedlings and young trees. There were serious obstacles to the regeneration of the natural population. We concluded that the obstacle to the regeneration of the population of A. catalpifolium might be caused by the high competitive pressure from the dominant species and the micro-environment in the forest. Understanding the community characteristics and the population structure of A. catalpifolium could provide a theoretical foundation for its reintroduction and recovery. © 2018 Science Press. All rights reserved.     

Effect of iron addition on the performance of anoxic-oxic membrane process and biological phosphorus removal北大核心CSCD

In order to solve the problem of poor treatment of phosphorus in membrane bioreactor (MBR) with long sludge retention time (SRT), a ferric salt was added to enhance phosphorus removal; FeCl36H2O (Fe/P = 2.0) was added to the reactor. The removal efficiency of nitrogen, organic matters, and phosphorus in the MBR was investigated systematically. Moreover, this study focused on the membrane performance, the change of active sludge flora, and the effect of adding a ferric salt on membrane fouling before and after the addition. It was seen that adding the ferric salt could not affect the removal of COD and NH4 +-N and the removal rate of COD and NH4 +-N reached over 90%. However, the average removal rate of phosphorus was 52%, while the removal rate increased by nearly 40% after adding the ferric salt. The effects of adding ferric salts on the dominant bacteria and biological phosphorus removal of activated sludge were further studied. The results showed that the addition of ferric salt (Fe/P = 2.0) decreased the diversity of active sludge flora and relative abundance of some phosphorusaccumulating organisms and had a negative effect on biological phosphorus removal. The analysis of transmembrane pressure difference (TMP) recording revealed that the concentration of iron salts did not exacerbate membrane fouling. The results showed that the concentration of iron salts entering the membrane bioreactor would reduce the relative abundance and phosphorus removal efficiency of the activated sludge in the system to a certain extent, but it had no obvious effect on membrane fouling. It allowed the effluent to attain acceptable standards, especially with respect to phosphorus removal efficiency. © 2018 Science Press. All rights reserved.     

Efficient photoelectrochemical oxidation of rhodamine B on metal electrodes without photocatalyst or supporting electrolyte

We designed photoelectrochemical cells to achieve efficient oxidation of rhodamine B (RhB) without the need for photocatalyst or supporting electrolyte. RhB, the metal anode/cathode, and O₂ formed an energy-relay structure, enabling the efficient formation of O ₂ ^– species under ultraviolet illumination. In a single-compartment cell (S cell) containing a titanium (Ti) anode, Ti cathode, and 10 mg·mL^–1 RhB in water, the zero-order rate constant of the photoelectrochemical oxidation (k_PEC) of RhB was 0.049 mg·L^–1·min^–1, while those of the photochemical and electrochemical oxidations of RhB were nearly zero. k_PEC remained almost the same when 0.5 mol·L^–1 Na₂SO₄ was included in the reactive solution, regardless of the increase in the photocurrent of the S cell. The k_PEC of the illuminated anode compartment in the two-compartment cell, including a Ti anode, Ti cathode, and 10 mg·mL^–1 RhB in water, was higher than that of the S cell. These results support a simple, eco-friendly, and energysaving method to realize the efficient degradation of RhB.

Open image in new window

     

围垦养殖对中国典型滨海湿地土壤真菌多样性及群落结构影响

本研究以我国黄河口碱蓬湿地、九龙江口桐花树湿地、东寨港木榄湿地为研究样地,借助高通量测序技术探究这3个典型滨海湿地围垦养殖前、后土壤真菌多样性及群落结构的变化.结果表明：①不同地域湿地围垦养殖对土壤真菌群落多样性及丰富度影响表现不一致.九龙江口桐花树湿地围垦后,土壤真菌多样性及丰富度有所下降;黄河口碱蓬湿地和东寨港木榄湿地围垦后土壤真菌多样性及丰富度显著增加;②子囊菌门（Ascomycota）在湿地围垦养殖前、后土壤中均为优势真菌门,但其相对丰度在围垦后显著下降;③湿地围垦养殖改变了土壤真菌属水平群落组成,黄河口湿地围垦后,未出现翅孢壳属（Emericellopsis）、毛霉属（Mucor）、枝顶孢属（Acremonium）;九龙江口和东寨港湿地围垦后,青霉属（Penicillium）相对丰度显著下降,并新增了镰刀菌属（Fusarium）,九龙江口湿地围垦后还新增了链格孢属（Alternaria）;④环境因子与湿地土壤真菌相对丰度存在一定程度的相关性,青霉属（Penicillium）与容重呈显著负相关（p<0.05）,与pH呈显著负相关（p<0.01）,与有机碳呈显著正相关（p<0.01）;翅孢壳属（Emericellopsis）与容重和pH呈显著正相关（p<0.05）,与有机碳呈显著负相关（p<0.01）.     

江苏省工业化进程中的环境效应分析

工业化快速进程中．工业污染作为工业生产在所难免的附属产物．占全国总污染负荷的70％．对资源环境构成巨大压力。经济发达地区工业产值占据了国民经济的半壁江山．使得工业结构与布局成为影响生态环境质量的主要驱动因子。本文首先以江苏省为例．分析重污染行业结构与工业布局变动对环境效应的实际效果．得出重要结论：自1990年以来工业结构与布局调整不利于环境污染控制。从生产效应和社会效应两个方面．分析工业化进程中的环境效应影响机理．通过对江苏省的实证分析．结果证实工业结构与布局是现阶段景影响环境污染的重要变量。重污染行业结构是环境效应的主要影响因素。加快工业结构调整步伐、进一步优化工业布局．着力于从工业结构调整和工业布局变动趋势中获得改善环境质量的机遇和动力是摆脱环境与发展困境的有力手段。