The role of humic substances in chromium sorption onto natural organic matter (peat)

To elucidate mechanisms of Cr³⁺ sorption onto the unaltered solid natural organic matter, the comparative studies of this ion binding from a solution at pH 4.0 onto three selected particle size fractions: 2000–1000 μm, 630–200 μm and 63–20 μm of markedly different HS content and structure, separated by a wet sieving from an overall sample of peat (Brushwood Peat Humus) were carried out. Comparable patterns of COOH groups and CEC_t confirmed that for cation exchange capacity were responsible mainly cations connected with COO⁻ functional groups. It was though found that aliphatic acids in the solid state did not take part in Cr³⁺ binding, thus the finest studied fraction 63–20 μm of the highest contents of functional groups showed the lowest sorption capacity for Cr³⁺, while similar patterns of sorbed Cr³⁺, soluble HS content and base CEC₀ indicated that these parameters were directly interrelated. The base ion exchange processes determined by CEC₀ (with Ca²⁺ as a predominant exchangeable cation) appeared to be not the major mechanisms responsible for Cr³⁺ sorption. For this metal, strong binding to insoluble large molecular weight organic pool two- to threefold prevailed over the ion exchange processes. Very low acid desorption indicated generally low mobility of Cr³⁺-organic compounds.     

陕西省ODS使用量分布特征的分析

通过调查陕西省消耗臭氧层物质(ODS)的销售和使用量,分析了陕西省消耗臭氧层物质的行业和地区分布特征。根据各受控物质的特点,计算了这些物质的实际使用量的臭氧消耗潜能(ODP)值。结果表明,2008年陕西省使用的ODS总量约为679.95 t,按照ODP值折算,相当于约132.76 t当量CFC-11。ODS的使用主要集中在清洗行业和制冷行业,区域重点在西安市。     

防护鞋靴有害物质限量值研究

本文对防护鞋靴有害物质限量值研究进行了阐述。参考国内外标准,设定防护鞋靴有害物质限制项目和限量值。在检测分析我国具有市场代表性的16个防护鞋靴产品中有害物质含量数据基础上,判断设定限制项目及限量值的可行性。检测结果表明我国防护鞋靴生产技术水平基本能够达到限量要求,设定的限量值可以作为制定国家标准的参考依据。     

Reduction of Cr(VI) by peat and coal humic substances

The reduction of Cr(VI) by humic substances from leonardite and peat was investigated by capillary zone electrophoresis at various pHs. Both humic materials reduced Cr(VI) at pH 5.4, but not at basic pH. The capacity of leonardite humic substances to reduce Cr(VI) was lower than that of peat humic substances. Fe(III) accelerated the reduction of Cr(VI) by peat humic substances, but not by leonardite humic substances. Cr(VI) reduction mechanisms are proposed. The coal humic substances seem more suitable for remediation of Cr(VI)-contaminated sites.     

Dissolved Organic Matter in Forest Soils: Sources, Complexing Properties and Action On Herbaceous Plants

Dissolved organic matter (DOM) is an important component of plant-soil systems. Its essential role in soil solution chemistry, soil-forming processes and its effects on biota, including soil fauna, bacteria, fungi and plants, is extensively documented in literature. in this contribution several forest leaf litter types are compared as sources of DOM and the released organics are subjected to gel permeation chromatography to reveal their molecular-size distribution. Moreover, complexing properties, as an indication for the podzolization potential of the litter leachates, were established. the occurrence and properties of DOM in different soil horizons were monitored beneath a stand of Scots pine. the effects of the different groups of soluble organics including phenolic, fulvic and humic acids, and of water-extractable humic substances on the performance of herbaceous plants of the forest floor are briefly reviewed.     

浙江沿海藻类共生细菌的生理生化特性研究

利用梯度稀释法,从浙江象山、朱家尖等海域所采集的几种海藻中分离出海洋细菌50株,运用杯碟法研究了其胞外代谢产物活性,结果表明,100%的菌株含有胶原蛋白酶、淀粉酶,96%的菌株含有酪蛋白酶,70%的菌株含有酯酶,30%的菌株含有卵磷脂酶、脲酶,还有6%含微量的壳多糖水解酶。同时将这50株菌分别培养在高温(55℃)、高盐(质量分数5.5×10-2)、酸性(pH4.5)环境中,同样对胞外产物活性进行分析。结果显示:外界环境胁迫下,水解明胶、淀粉、酪蛋白和吐温的酶活性仍然存在,但活性有了很大的变化。因胶原蛋白酶、酪蛋白酶能分解胶原蛋白等成分,淀粉酶具分解淀粉、糖原的作用,因此,这些细菌的产物对其他生物有毒害作用,可能是致病菌,也可能对已知致病菌起抑制、破坏作用。本研究为寻找海洋活性先导化合物,为海洋药物的开发等提供了广阔的前景。     

伊春河河水水溶性腐殖酸内源释放模型

以水溶性腐殖酸含量很高的伊春河为例，利用冬季冰封无外源输入的条件，在有产室内模拟研究的基础上，通过现场采样及测定，建立了伊春河河水水溶性腐殖酸的内源释放模型，根据同期采集样品进行的验证表明，该模型能够准确地反映河流沉积物中水溶性瘁殖酸向河水中释放的速率以及速率与流速等条件的定量关系。     

胞外聚合物合成与应用研究概况

介绍了胞外聚合物絮凝剂研究与发展概况;讨论胞外聚合物絮凝剂的结构、性能及作用机理;重点介绍了胞外聚合物絮凝剂产出、絮凝条件以及应用的研究;胞外聚合物絮凝剂研究的发展趋势。     

四氯化碳的生产与应用及其淘汰策略

四氯化碳是一种消耗臭氧层物质,其生产和消费都面临着严峻的淘汰形势.简要叙述了四氯化碳的生产技术,以四氯化碳为原料生产大宗化学品和精细化学品的转化技术,四氯化碳作为化工助剂在我国的应用情况以及相应的淘汰方法和技术进展.