基于格网的太湖生态环境质量空间评价

将GIS格网空间分析技术应用于太湖生态环境综合评价,实现了全湖范围内多因素的综合评价,揭示太湖生态环境状况的空间分布规律。首先将太湖分为800个格网单元,在2002~2003年实测样点的水体、底泥、水生生物特征数据基础上,通过空间插值获得全部单元模拟值,然后进行格网叠加计算,通过层次分析法得出各单元综合评价值,将太湖分为好、较好、中等、较差、差5个等级区,生成太湖生态环境空间综合评价图。结果显示,评价结果与太湖实际情况基本相符,太湖生态环境质量基本上由东南向西北逐渐降低,中等以下地区占全部湖区的一半以上,整体状况偏差。     

葛洲坝至古老背江段鱼类的水声学调查

2004年10月~2006年5月利用Bisonics DT-X科学回声探测仪(200 kHz)对葛洲坝至古老背-葛洲坝下游中华鲟(Acipenser sinensis Gray)自然保护区核心江段(30 km)的鱼类进行了5次水声学调查。结果表明：鱼类在该江段中分布呈现不均一性,深潭处分布集中,而急流处分布很少,葛洲坝至艾家河江段鱼的密度明显大于艾家河至古老背江段;在中华鲟产卵日,鱼类在葛洲坝至庙咀江段高度密集,2004年的平均密度达到62.62±24.77尾/1 000 m3,2005年的平均密度达到70.58±37.45尾/1 000 m3;整个江段中,体长60~106 mm的鱼类占有较高比例,约7.0%以上,53 mm以下的鱼类和750 mm以上的鱼类占较低比例,均小于2.0%;调查期间,探测到中华鲟产卵亲鱼,初步估算2004年的资源量约为1 453尾,2005年的资源量约为789尾;95%置信度下分别为1 370~1 537尾、775~803尾。     

促进江湖联系的闸口调度对策及影响区管理机制

我国传统的修堤建闸、抵御洪水的治河理念,阻断了江湖联系,造成湿地的生态萎缩。为改善湿地的生态环境,保护湿地的生物多样性,提出了新的多目标闸口调度机制,替代传统的、以防洪抗旱为目的的调度机制,力求促进江湖联系,增加湿地活力;为保障该机制的运行和实施,提出了闸口调度影响区的管理办法;并以涨渡湖为例进行了讨论。     

应用景观生态学原理构建城市河道生态护岸

首先分析了传统水工设计中护岸的弊端,然后从景观生态学角度介绍了岸坡生态系统的主要特征、生态护岸的多种功能和景观生态学内涵;介绍了国内外生态护岸的研究现状,提出了城市河道在生态护岸设计中应在保证稳定安全的前提下,坚持生态优先的原则,重视其景观性和亲水性;最后对生态护岸的材料与植物群落的选择进行了分析。旨在探讨河流生态治理的方法,为生态护岸的构建与河流、洪泛区的治理提供一定的思路和参考。     

1株脱氮除磷菌的筛选及其特性研究

采用YG培养基,结合蓝白斑筛选、异染粒染色及好氧除磷能力检测等实验,从城市生活污水处理厂好氧生化池的活性污泥中分离出7株好氧除磷菌;再经硝酸盐还原产气和缺氧培养实验,筛选出1株高效脱氮除磷菌;通过16S rRNA基因同源性比较和生理生化鉴定,初步将其鉴定为Pseudomonas grimontii,命名为C18.菌株C18在好氧培养24h后,培养基中上清液磷浓度从38.7mg/L降低到2.28mg/L,除磷率达94.1%.C18在缺氧培养24h后,培养基中上清液磷浓度从44.5mg/L降低到5.21mg/L,除磷率达88.3%;上清液硝酸盐氮浓度从184.2mg/L降低到30.6mg/L,脱氮率达83.4%.菌株C18最适脱氮除磷温度为30℃;最适脱氮除磷pH为7.5.     

有机磷农药降解方法及应用研究新进展

现代农业的发展和有机磷农药的使用密切相关,所造成的严重的农产品和环境污染是农业发展有待解决的关键问题之一。介绍了超声波技术、吸附、洗涤和辐照等物理方法,微生物、降解酶和工程菌等生物方法,水解、氧化分解和光化学降解等化学方法对有机磷农药的降解作用及其相关的应用研究。     

Removal of copper ions from aqueous solution by calcium alginate immobilized kaolin

Kaolin has been widely used as an adsorbent to remove heavy metal ions from aqueous solutions. However, the lower heavy metal adsorption capacity of kaolin limits its practical application. A novel environmental friendly material, calcium alginate immobilized kaolin (kaolin/CA), was prepared using a sol-gel method. The e ects of contact time, pH, adsorbent dose, and temperature on Cu2+ adsorption by kaolin/CA were investigated. The Langmuir isotherm was used to describe the experimental adsorption, the maximum Cu2+ adsorption capacity of the kaolin/CA reached up to 53.63 mg/g. The thermodynamic studies showed that the adsorption reaction was a spontaneous and endothermic process.     

Effects of Cu（Ⅱ） and humic acid on atrazine photodegradation

This work was designed to explore the characteristics of photodegradation of herbicides in the copper-polluted water body. The results showed that Cu(II) alone could induce a photo Fenton-like reaction to enhance the degradation of atrazine, in which hydroxyl radical ( OH) was a main active species. Humic acids restrained atrazine degradation, nevertheless, when introducing Cu(II), the photodegradation was accelerated, in which singlet oxygen (1O2) replaced OH acting as the prevailing species. A feasible mechanism for the photochemical process was also proposed, which is helpful for better understanding the environmental photochemistry of atrazine in the copper-polluted water.     

Removal of heavy metal ions from aqueous solution using red loess as an adsorbent

The adsorption behaviors of heavy metals onto novel low-cost adsorbent, red loess, were investigated. Red loess was characterized by X-ray diffraction, scanning electron microscopy and Fourier transform infrared spectra. The results indicated that red loess mainly consisted of silicate, ferric and aluminum oxides. Solution pH, adsorbent dosage, initial metal concentration, contact time and temperature significantly influenced the efficiency of heavy metals removal. The adsorption reached equilibrium at 4 hr, and the experimental equilibrium data were fitted to Langmuir monolayer adsorption model. The adsorption of Cu(II) and Zn(II) onto red loess was endothermic, while the adsorption of Pb(II) was exothermic. The maximum adsorption capacities of red loess for Pb(II), Cu(II) and Zn(II) were estimated to be 113.6, 34.2 and 17.5 mg/g, respectively at 25°C and pH 6. The maximum removal efficiencies were 100% for Pb(II) at pH 7, 100% for Cu(II) at pH 8, and 80% for Zn(II) at pH 8. The used adsorbents were readily regenerated using dilute HC1 solution, indicating that red loess has a high reusability. All the above results demonstrated that red loess could be used as a possible alternative low-cost adsorbent for the removal of heavy metals from aqueous solution.     

Preparation and coagulation efficiency of polyaluminium ferric silicate chloride composite coagulant from wastewater of high-purity graphite production

The aim of the present work was to produce a polyaluminium ferric silicate chloride (PAFSiC) coagulant from acidic and alkaline wastewater of purifying graphite by roasting, and subsequently to evaluate coagulation efficiency of the reagent by treating surface water from the Yellow River as well as municipal wastewater in comparison with the conventional coagulant polyaluminium chloride (PAC). The PAFSiC coagulant was prepared by co-polymerization. The effects of (Al+Fe)/Si molar ratio, OH/(Al+Fe) molar ratio (i.e., value), coagulant dosage and pH value of test suspension on the coagulation behavior of FAFSiC and the stability of the PAFSiC were also examined. Results showed that PAFSiC performed more efficiently than PAC in removing turbidity, chemical oxygen demand (COD), and total phosphate (TP). The PAFSiC with a value of 2.0 and (Al+Fe)/Si ratio of 5 (PAFSiC 2.0/5) showed excellent coagulation effect for both turbidity and COD, while PAFSiC 1.0/5 was the best for TP. The optimum coagulation pH range of PAFSiC 2.0/5 was 5.0–9.0, slightly wider than that of PAC (6.0–8.0). The process can be easily incorporated into high-purity graphite production plants, thereby reducing wastewater pollution and producing a valuable coagulant.