金属材料的环境影响因子及其评价

本文将环境意识引入金属材料学科。在考察金属元素分布的环境特征和生物效应的基础上，定义了环境影响因子ＥＡＦ，并引出了强度环境负荷比（σｂ／ρ）／ＥＡＦ等参数。由此综合评价了各种金属的性能与环境负荷间的关系     

太湖西部入湖河口区表层沉积物磷素分布特征

采用SMT法对太湖西部主要入湖河流河口区大港河、乌溪港、庙渎港、大浦港、陈东港、社渎港、沙塘港以及太滆运河表层沉积物磷形态进行分析。结果表明:各河流河口区总磷分布由南向北含量逐渐升高,为300.84~824.89 mg/kg。其中,最高值出现在陈东港,比平均值高约35%;无机磷为表层沉积物磷的主要存在形态,其中西北部河口区铁铝磷含量较高,占TP含量为61%~80%;西部河口区钙磷含量较高,可能与其入湖河流沿岸土地利用类型有关;有机磷在西北部河口区所占比小于20%,可能由于西北部蓝藻爆发,有机磷被大量利用导致。     

太湖不同营养水平湖区表层沉积物的砷分布特征及其生态风险

以太湖不同营养水平湖区为研究对象,采用改进的砷(As)形态连续提取法对表层沉积物中As的化学形态进行分析研究,探讨了沉积物中总砷(TAs)和As形态的分布特征及其与沉积物中营养盐和总有机碳(TOC)的相关性,并利用潜在生态风险评价(Eir)和风险指数编码法(RAC)评估了各湖区沉积物中As的生态风险水平.结果表明,各湖区表层沉积物中TAs的平均含量约为14.23~16.59 mg·kg~(-1),其中,竺山湾的TAs平均含量相对最高.As形态表现出明显的空间分布特征,其中,北部富营养湖区(竺山湾、梅梁湾、贡湖湾)中的有效态As(非专性吸附态和专性吸附态)与潜在有效态As(无定形氧化铁结合态、晶体形氧化铁结合态、有机结合态)的含量与百分比均高于中营养水平的南太湖,而北部湖区的残渣态As含量则低于南太湖.Pearson相关分析结果显示,除晶体形氧化铁结合态As和残渣态As外,沉积物总氮(TN)、总磷(TP)和TOC与其他As形态均存在显著的正相关关系.潜在生态风险评价结果表明,各湖区沉积物TAs均处于低风险;而RAC评价结果表明,各湖区沉积物的有效态As基本处于中等风险水平,且北部湖区的RAC指数均明显高于南太湖.     

Effects of free iron oxyhydrates and soil organic matter on copper sorption-desorption behavior by size fractions of aggregates from two paddy soils

Effects of free iron oxyhydrates (Fed) and soil organic matter (SOM) on copper (Cu2+) sorption-desorption behavior by size fractions of aggregates from two typical paddy soils (Ferric-Accumulic Stagnic Anthrosol (Soil H) and Gleyic Stagnic Anthrosol (Soil W)) were investigated with and without treatment of dithionite-citrate-bicarbonate and of H2O2. The size fractions of aggregates were obtained from the undisturbed bulk topsoil using a low energy ultrasonic dispersion procedure. Experiments of equilibrium sorption and subsequent desorption were conducted at soil water ratio of 1:20, 25℃. For Soil H, Cu2+ sorption capacity of the DCB-treated size fractions was decreased by 5.9% for fine sand fraction, by 40.4% for coarse sand fraction, in comparison to 2.9% for the bulk sample. However, Cu2+ sorption capacities of the H2O2-treated fractions were decreased by over 80% for the coarse sand fraction and by 15% for the clay-sized fraction in comparison to 88% for bulk soil. For Soil W, Cu2+ sorption capacity of the DCB-treated size fraction was decreased by 30% for the coarse sand fraction and by over 75% for silt sand fraction in comparison to 44.5% for the bulk sample. Cu2+ sorption capacities of the H2O2-treated fractions were decreased by only 2.0% for the coarse sand fraction and by 15% for the fine sand fraction in comparison to by 3.4% for bulk soil. However, Cu2+ desorption rates were increased much in H2O2-treated samples by over 80% except the clay-sized fraction (only 9.5%) for Soil H. While removal of SOM with H2O2 tendend to increase desorption rate, DCB- and H2O2-treatments caused decrease in Cu2+ retention capacity of size fractions. Particularly, there hardly remained Cu2+ retention capacity by size fractions from Soil H after H2O2 treatment except for clay-sized fraction. These findings supported again the dominance of the coarse sand fraction in sorption of metals and the preference of absorbed metals bound to SOM in differently stabilized status among the size fractions. Thus, enrichment and turnover of SOM in paddy soils may have great effects on metal retention and chemical mobility in paddy soils.     

淹水条件对不同土壤中稀土元素钕形态分布的影响

以旱作条件为参照,研究淹水条件对钕形态分布的影响.结果表明,淹水条件对内源钕B1态(水溶态、可交换态与碳酸盐结合)、B2态(铁锰氧化物结合态)和B3态(有机质及硫化物结合态)的分布无显著影响.对于外源钕,淹水条件使B1和B3态浓度增加,而B2态浓度则因土壤性质而异,中性土壤中浓度稳定,酸性和碱性土壤中浓度分别增高和降低,其机制有待进一步研究;淹水条件对黄红壤和黄褐土中外源钕无显著影响,而砂姜黑土则相反;两种条件下,3种土壤中B2和B3态浓度顺序相同,B2态浓度顺序为:黄红壤黄褐土砂姜黑土,B3态浓度顺序为:砂姜黑土黄褐土黄红壤,而B1态在黄红壤中浓度最大;外源钕有进入残渣态的趋势,但并不明显,且不同土壤的各形态对残渣态的贡献不同.     

Aqueous and organic extracts of Trigonella foenum-graecum L. inhibit the mycelia growth of fungi

Aqueous extracts from various plant parts of fenugreek (3%) (aerial parts: leaves and stems (LS), roots (R), ground seeds (GS) and not ground seeds (NGS)) and petroleum ether, ethyl acetate and methanolic fractions of the aerial parts were assayed to determine their antifungal potential against Botrytis cinerea, Fusarium graminearum, Alternaria sp., Pythium aphanidermatum, and Rhizoctinia solani. All fenugreek plant parts showed antifungal potential and the magnitude of their inhibitory e ects was species and plant parts dependent. R extract was shown less toxic (30.38%), whereas NGS extract expressed the strongest inhibition, with an average of 71.44%, followed by GS (58.56%) and LS (57.1%). Screening indicated that P. aphanidermatum was the most resistant species, with an average inhibition of 34.5%. F. graminearum, Alternaria sp. and R. solani were the most sensitive species, and were similarly inhibited (63.5%). The stability test indicated that the aqueous extracts of all plant parts lost approximately 50% of their relative activity after one month of storage at 4°C, whilst they lost 60%–90% of their activity when stored at ambient temperature for one month. The antifungal activity resided mainly in the methanol fraction and the minimum inhibitory concentration (MIC) of methanol fraction witch caused total inhibition of R. solani and Alternaria sp. was 60 g/ml. Results of current study suggested that the constituents of Trigonella foenum-graecum have potential against harmful pathogenic fungi. Therefore, fenugreek could be an important source of biologically active compounds useful for developing better new antifungal drugs.     

No.0柴油水溶组分海洋浮游植物生态效应研究

应用现场和实验室培养方法,研究了No.0柴油水溶组分海洋浮游植物生态效应.提出了摄食条件下的海洋浮游植物生长模型和不同浓度No.0柴油水溶组分下浮游植物生长效应模型,分析了不同浓度No.0柴油水溶组分下浮游植物生长效应.结果表明,摄食条件下的海洋浮游植物生长模型较传统Logistic模型能更好地反映海洋生态系统,同时应用非线性拟合技术得到了不同浓度No.0柴油水溶组分下海洋浮游植物终止生物量（B_f）.根据海洋浮游植物生长效应模型进一步分析表明,在现场和实验室条件下,低浓度No.0柴油水溶组分对浮游植物生长有明显促进作用,生长促进率最大分别约为180%和120%,然而,在高浓度No.0柴油水溶组分条件下,石油烃对浮游植物生长效应不甚显著,甚至有明显抑制作用.     

河蚬(Corbicula fluminea)扰动对湖泊沉积物性质及磷迁移的影响

为探讨河蚬(Corbicula fluminea)扰动对湖泊沉积物性质及磷在沉积物-水界面迁移转化过程,以太湖西岸富营养化湖区大浦口为对象,开展室内培养实验,利用Rhizon间隙水采集器获取实时间隙水,测定溶解活性磷(soluble reactive phosphorus,SRP)在沉积物-水界面通量、分析沉积物基本性...     

Clay mineralogy affects the efficiency of sewage sludge in reducing lead retention of soils

Recent studies have shown the feasibility of using of sewage sludge for the remediation of heavy metal-contaminated soils. However, there are no researches to check the influence of clay mineralogy on the efficiency of the sewage sludge to remediation of contaminated soils with heavy metals. For this purpose, we use two contrasting soils:Oxisol rich in hematite and gibbsite and Inceptisol rich in kaolinite. Thermal-treated sludge was applied to Pb-contaminated soil samples and incubated for 40 days. The soil samples were submitted to seven sequential extractions: soluble-Pb, exchangeable-Pb,precipitated-Pb, organic matter-Pb, Fe and Mn oxide-Pb, gibbsite and kaolinite-Pb, and residual-Pb. The reduction of soluble Pb forms by thermal sludge application was more pronounced in the Oxisol than in the Inceptisol because of the conversion of soluble-Pb into more stable forms, such as precipitated-Pb and oxides-Pb. For Inceptisol was necessary to apply high rates of thermal sludge to reach a significant reduction in soluble-Pb contents. The addition of humic fractions in the form of thermal sludge increased the concentration of organic matter-Pb. In confined area, the use of sewage sludge to reduce the heavy metals levels in soils must be better considered, mainly in more weathered soils.     

Heavy metals fraction and ecological risk evaluation in municipal solid waste gasification slag non-burnt bricks

The heavy metals in non-burnt bricks made from municipal solid waste (MSW) gasification slags with a modified European Bureau Community of Reference procedure were studied. Heavy metals were present in the form of oxidizable and residual fractions, which were stable and not easy to dissolve. The preparation process of non-burnt bricks displayed prominent solidification effect for some heavy metals in the gasification slag. The solidified rate for metals, such as As, Cd, Cr, Ni, and Zn reached 89.82%, 79.57%, 73.64%, 66.73%, and 88.05%, respectively. Moreover, the leaching concentrations of eight heavy metals were all below 8 mg/kg. On the basis of these observations, the risk of exposure to heavy metals in non-burnt bricks was evaluated using the solidification formula and the leaching concentration of heavy metals combined with the assessments of the Hakanson potential ecological risk and pollution ratio of secondary phase and primary phase. Results showed that the preparation of MSW gasification slag non-burnt bricks was not harmful to the environment, but attention is warranted for possible migration of heavy metal cadmium (Cd) in the long term, which may result in an impact on the ecological environment.