Mg/Al双金属氧化物对As(V)吸附性能的研究

研究了以镁铝水滑石为原料制备的Mg/Al双金属氧化物对溶液中As(V)的吸附作用及其影响因素.结果表明：Mg/Al双金属氧化物对As(V)具有较强的吸附能力,吸附规律符合Langmuir等温吸附方程,根据计算所得的理论最大吸附量为51.02 mg·g-1,与实验得出的最大吸附量50.53 mg·g-1基本一致;运用3种...     

不同类型土壤中As(Ⅴ)解吸行为的研究

为了解As(Ⅴ)在土壤中的解吸行为及不同类型试剂(NaOH、NaCl、NaHCO3、柠檬酸、草酸及磷酸盐缓冲液)对所吸附砷的解吸效果,对As(Ⅴ)在不同类型土壤中的解吸热力学和动力学效果进行了研究.结果表明,NaOH和磷酸盐缓冲液对几种土壤吸附砷的解吸效果较好,解吸率分别在47.3%～73.0%和35.4%～66.6%...     

人工合成铁、铝矿物和镁铝双金属氧化物对土壤砷的钝化效应

应用室内模拟培养的方法,研究了人工合成铁、铝矿物和镁铝双金属氧化物对砷超标土壤中砷的钝化效果.每种钝化剂均设置0.1％、0.5％、1.0％、2.5％和5.0％五个添加量处理.结果表明,添加水铝矿明显降低了土壤pH值,其中,添加5％水铝矿的处理降幅最大,达到1.20;而添加镁铝双金属氧化物则显著提高了土壤pH值,5％镁铝双金属氧化物的处理土壤pH值由5.04最高可提高至8.09.添加铁铝矿物均降低了土壤有效砷的含量,下降幅度为1.89％～64.15％;而添加镁铝双金属氧化物则使土壤有效砷含量增加;添加水铁矿和针铁矿处理对提高土壤中残留态砷含量的作用较为明显.总体看来,两种人工合成铁矿较镁铝双金属氧化物和水铝矿对土壤中砷有更好的钝化效果,可以作为钝化剂应用于土壤中砷的钝化.     

北京市温榆河沉积物的重金属污染风险评价

河流沉积物是水环境的基本组成部分,其重金属含量常被作为水环境质量的重要指标之一.本研究探讨了北京市温榆河流域沉积物中重金属的累积特征,并采用沉积物富集系数、H(a)kanson潜在生态风险指数等方法评估了几种重金属的环境风险,简要分析了其主要来源.研究结果表明,温榆河流域沉积物中Ni和Cd的含量分别为19.9～41.4 mg·kg-1和1.19～1.67 mg·kg-1,其值介于LE-L值(最低效应水平)与SE-L值(严重效应水平)之间.根据SQG标准,温榆河表层沉积物中的重金属含量处于中度污染水平,可能会对水域生物产生一定的负面影响;而高毒元素As的含量已非常接近LE-L值,应成为下一步重点防控的对象.采用沉积物富集系数法分析,发现80%以上的样点出现了重金属的富集,且毒性强的重金属As、Cd的富集累积较为严重,根据Fe与重金属含量间的相关性,可知沉积物中Zn、Cu、Cr主要为天然地球化学来源,而Cd、As、Ni则主要来源于人为污染.以北京市土壤背景值作为参比进行分析,发现各取样点的表层沉积物均呈现出强至极强的生态风险,参与评价的5种重金属生态风险由强到弱的顺序依次为Cd、As、Cu、Cr、Zn.     

长期不同施肥对水稻土交换性钙、镁和有效硫、硅含量的影响

为探明合理施肥和土壤培肥的理论依据,研究了4种长期定位施肥(CK、NPK、OM30、OM60)对湖南主要水稻土交换性钙、交换性镁、有效硫、有效硅含量的影响.结果表明,长期不同施肥改变了供试水稻土中上述养分的含量.在含钙较低的黄泥田、河沙泥、红黄泥中,施肥使土壤交换性钙含量显著升高,在相同土壤中其含量高低依序为OM30,OM60,NPK;在含钙较多的青灰泥、白鳝泥、紫潮泥中,施肥使土壤交换性钙含量降低.降低幅度与施入的有机肥量呈负相关.在黄泥田、河沙泥、青灰泥、白鳝泥、紫潮泥中,施肥使交换性镁含量降低,而在红黄泥中施肥则使交换性镁含量升高.N-PK处理使含硫较高的黄泥田、青灰泥、白鳝泥、紫潮泥有效硫含量升高,使含硫较低的红黄泥有效硫含量降低;有机、无机肥配施处理(OM30、OM60)使所有试验水稻土有效硫含量升高.施用钙镁磷肥和有机肥能够提高土壤有效硅含量.     

Stability of Fe–As composites formed with As(V) and aged ferrihydrite

During the aging process, ferrihydrite was transformed into mineral mixtures composed of different proportions of ferrihydrite, goethite, lepidocrocite and hematite. Such a transformation may affect the fixed ability of arsenic. In this study, the stability of Fe-As composites formed with As(V) and the minerals aged for 0, 1, 4, 10 and 30 days of ferrihydrite were systematically examined, and the effects of molar of ratios Fe/As were also clarified using kinetic methods combined with multiple spectroscopic techniques. The results indicated that As(V) was rapidly adsorbed on minerals during the initial polymerization process, which delayed both the ferrihydrite conversion and the hematite formation. When the Fe/As molar ratio was 1.875 and 5.66, the As(V) adsorbed by ferrihydrite began to release after 6 hr and 12 hr, respectively. The corresponding release amounts of As(V) were 0.55 g/L and 0.07 g/L, and the adsorption rates were 92.43% and 97.50% at 60 days, respectively. However, the As(V) adsorbed by the transformation products aged for 30 days of ferrihydrite began to release after adsorbed 30 days. The corresponding release amounts of As(V) were 0.25 g/L and 0.03 g/L, and the adsorption rates were 84.23% and 92.18% after adsorbed 60 days, for the Fe/As=1.875 and 5.66, respectively. Overall, the combination of As(V) with ferrihydrite and aged products transformed from a thermodynamically metastable phase to a dynamically stable state within a certain duration. Moreover, the aging process of ferrihydrite reduced the sorption ability of arsenate by iron (hydr)oxide but enhanced the stability of the Fe-As composites.     

Exogenous fulvic acid enhances stability of mineral-associated soil organic matter better than manure

Environmental Science and Pollution Research - Mineral-associated soil organic matter (MAOM) is seen as the key to soil carbon sequestration, but its stability often varies with types of exogenous...