Recent advances in antimony removal using carbon-based nanomaterials: A review

• The synthesis and physicochemical properties of various CNMs are reviewed. • Sb removal using carbon-based nano-adsorbents and membranes are summarized. • Details on adsorption behavior and mechanisms of Sb uptake by CNMs are discussed. • Challenges and future prospects for rational design of advanced CNMs are provided. Recently, special attention has been deserved to environmental risks of antimony (Sb) element that is of highly physiologic toxicity to human. Conventional coagulation and ion exchange methods for Sb removal are faced with challenges of low efficiency, high cost and secondary pollution. Adsorption based on carbon nanomaterials (CNMs; e.g., carbon nanotubes, graphene, graphene oxide, reduced graphene oxide and their derivatives) may provide effective alternative because the CNMs have high surface area, rich surface chemistry and high stability. In particular, good conductivity makes it possible to create linkage between adsorption and electrochemistry, thereby the synergistic interaction will be expected for enhanced Sb removal. This review article summarizes the state of art on Sb removal using CNMs with the form of nano-adsorbents and/or filtration membranes. In details, procedures of synthesis and functionalization of different forms of CNMs were reviewed. Next, adsorption behavior and the underlying mechanisms toward Sb removal using various CNMs were presented as resulting from a retrospective analysis of literatures. Last, we prospect the needs for mass production and regeneration of CNMs adsorbents using more affordable precursors and objective assessment of environmental impacts in future studies.     

水生态修复对莲花湖底栖动物群落的影响

武汉莲花湖是典型的富营养化城市浅水湖泊．通过对其进行16mo的监测后发现，治理后的小莲花湖比大莲花湖水质有明显改善．监测期间小莲花湖底栖动物密度和生物量均值明显高于大莲花湖，Shannon多样性指数与Margalef多样性指数也高于大莲花湖．将大、小莲花湖的10种环境因子和底栖动物密度进行典型相关分析后，发现总磷、温度、总氮、叶绿素a、氨离子是对底栖动物群落具有显著性影响的环境因子．图8表3参20.     

Control concept and countermeasures for shallow lakes’ eutrophication in China

Research on lake eutrophication in China began in the early 1970s, and many lakes in China are now known to be in meso-eutrophic status. Lake eutrophication has been showing a rapidly increasing trend since 2000. Investigations show that the main reasons for lake eutrophication include a fragile lake background environment, excessive nutrient loading into lakes, excessive human activities, ecological degeneration, weak environmental protection awareness, and lax lake management. Major mechanisms resulting from lake eutrophication include nutrient recycling imbalance, major changes in water chemistry (pH, oxygen, and carbon), lake ecosystem imbalance, and algal prevalence in lakes. Some concepts for controlling eutrophication should be persistently proposed, including lake catchment control, combination of pollutant source control with ecological restoration, protection of three important aspects (terrestrial ecology, lake coast zone, and submerged plant), and combination of lake management with regulation. Measures to control lake eutrophication should include pollution source control (i.e., optimize industrial structural adjustments in the lake catchment, reduce nitrogen and phosphorus emission amounts, and control endogenous pollution) and lake ecological restoration (i.e. establish a zone-lake buffer region and lakeside zone, protect regional vegetation, utilize hydrophytes in renovation technology); countermeasures for lake management should include implementing water quality management, identifying environmental and lake water goals, legislating and formulating laws and regulations to protect lakes, strengthening publicity and the education of people, increasing public awareness through participation in systems and mechanic innovations, establishing lake region management institutions, and ensuring implementation of governance and management measures.     

Microenvironmental time-activity patterns in Chongqing, China

An investigation using recall questionnaires was conducted in winter and autumn 2006 to evaluate the time-activity patterns in Chongqing, China. The average time spent in seven microenvironments (MEs) including outdoors, transit, living room, bedroom, kitchen, classroom/office, and other indoors were found to be about 3.5, 1.1, 2.5, 9.7, 1.4, 4.2, and 1.7 h per day, respectively. According to the results of a nonparametric test, the sampling period and day of week were significant for the variation of the time spent in all MEs except for transit and outdoors. The time budget was analyzed using a general linear model (GLM), which exhibited significant variability by demographic factors such as gender, age, residence, education, and household income.     

多效唑在土壤中降解、吸附和淋溶作用

本文研究了植物生长调节剂多效唑(MET)在土壤中的环境引为,MET在土壤中降解较缓慢并随土壤环境条件而异,淹水厌氧条件比旱地好氧条件降解更缓慢,灭菌土壤中未见明显降解,微生物培养试验表明,MET对真菌有明显抑止作用,以MET为唯一营养源的培养基上能生长出几种放线菌,在三种供试土壤中,MET在高有机质含量的黑土中吸附常数远大于黄棕壤和潮土;MET的淋溶则在砂粒含量较高和有机质含量较低的潮土中最快,黑土最慢,黄棕壤居间.     

铬离子对藻类生长的影响

利用自然光照条件,在不同铬离子质量浓度下,对5种藻类的生长进行了实验研究.研究结果表明:5种藻类在不同的光波长下,其吸收光谱存在两个最强的吸收区: 420～440 nm的蓝紫光部分和660 nm 的红光部分;在不同铬离子质量浓度0～20.63 mg·L-1范围内,5种藻类生长受到不同程度的抑制,其耐受性也尽不相同,经过分析和比较后得出5种藻类对铬的耐受性大小顺序为:微囊藻(Microcystis)＞水华鱼腥藻(Anabaena flos-aquae)＞细长聚球藻(Synechococcus elongatus)＞斜生栅藻(Scenedesmus obliquus)＞蛋白核小球藻(Chlorella pyrenoidose).     

集约化露天菜地表层土壤盐分累积特征及消长规律

以广东省佛山市南海区为例,研究了集约化露天菜地表层土壤盐分的累积状况和离子组成,对盐分的季节性消长规律及其变化原因进行了深入分析.结果表明:2006年春季土壤盐分的累积情况较为严重,5个集约化露天菜地样点中有3个样点(1、2、4号)的表层土壤盐分浓度较高,全盐质量分数超过1.0 g·kg-1,已达到次生盐渍化的标准,其中又以2号样点(菜场)最为突出,伞盐质量分数高至2.42 g·kg1;2006年春季到夏季为脱盐阶段,土壤盐分浓度下降明显;2006年夏季到秋冬季变化幅度不大.土壤盐分浓度的变化与降雨量有密切关系,虽然2006年降雨偏多,但佛山市南海区农业集约化水平较高,部分菜地连年种植蔬菜、复种指数极高、化肥施用量偏大,从而在遇到干早年份和季节,集约化露天菜地土壤仍有发生次生盐渍化的风险.土壤盐分的离子组成上,阳离子以Ca2 为主,占全盐质景分数的11.0%～24.1%;阴离子以NO3-和SO42-为主,分别占全盐质量分数的8.9%～31.0%和10.9%～45.7%.研究结果可为控制土壤盐分累积、提高蔬菜生产能力及品质、保护和合理利用耕地资源,提供参考资料.     

具有短水力滞留的小型富营养化水库浮游植物群落结构与动态

竹仙洞水库是珠海市对澳门直接供水的水库,也是拱北水厂的重要的水源地.于2006年4月到12月,每2月一次调查了竹仙洞水库水文、水质和浮游植物分布,分析了浮游植物群落季节动态特征.浮游植种类不多,5次采样共检到61种.在丰度上,浮游植物主要以衣藻(Chlamydomonas sp.)、小环藻(Cyclotella meneghiniana)、游丝藻(Planktonema sp.)和隐藻(Cryptomonas sp.)等优势种为主,在生物量上以绿藻和硅藻为优势类群.蓝藻在竹仙洞水库的相对优势并不明显.应用典范对应分析(CCA)对竹仙洞水库浮游植物与环境因子关系分析,环境因子中的pH值、水位、正磷和水力滞留时间对浮游植物的分布影响最大;而透明度和降雨量对其也有一定的影响.从种类分布状况看,衣藻、游丝藻、隐藻对水体中环境因子的敏感性明显高于其它种类,这些种类的相对丰度在低温、低水位和较长水力滞留时间的4月份较高;硅藻门的直链藻(Melosira spp.)、菱形藻(Nitzchia sp.)和裸藻门的梭裸藻(Euglena acus)3种细胞体积较大的种类分布主要受降雨量和透明度的影响,在6月、8月和12月具有较高的相对丰度.与其它热带-亚热带富营养型水库相比,竹仙洞水库的浮游植物群落具有种类相对较少、以绿藻丰度较大的特点;直径在20 μm以上的鞭毛绿藻和丝状绿藻以及细胞较小的硅藻门的小环藻是生物量的主要贡献者,短水力滞留时间是浮游植物群落结构与动态变化的关键控制因子.     

氯霉素分子印迹聚合物的合成及其在固相萃取中的应用

研究了氯霉素(CAP)分子印迹聚合物(MIP)的合成及其在固相萃取(SPE)中的应用,并对保留机理进行了探讨,结果显示,MIP应用到固相萃取过程中对CAP有较好的保留性能.