Influence of Plant Root Exudates on the Mobility of Fuel Volatile Compounds in Contaminated Soils

Vegetation and its associated microorganisms play an important role in the behaviour of soil contaminants. One of the most important elements is root exudation, since it can affect the mobility, and therefore, the bioavailability of soil contaminants. In this study, we evaluated the influence of root exudates on the mobility of fuel derived compounds in contaminated soils. Samples of humic acid, montmorillonite, and an A horizon from an alumi-umbric Cambisol were contaminated with volatile contaminants present in fuel: oxygenates (MTBE and ETBE) and monoaromatic compounds (benzene, toluene, ethylbenzene and xylene). Natural root exudates obtained from Holcus lanatus and Cytisus striatus and ten artificial exudates (components frequently found in natural exudates) were added to the samples, individually and as a mixture, to evaluate their effects on contaminant mobility. Fuel compounds were analyzed by headspace-gas chromatography-mass spectrometry. In general, the addition of natural and artificial exudates increased the mobility of all contaminants in humic acid. In A horizon and montmorillonite, natural or artificial exudates (as a mixture) decreased the contaminant mobility. However, artificial exudates individually had different effects: carboxylic components increased and phenolic components decreased the contaminant mobility. These results established a base for developing and improving phytoremediation processes of fuel-contaminated soils.     

2,4-二氯苯酚的矿物表面化学行为研究

矿物质是土壤中的重要组成成分,本实验采用动态反应和平衡反应研究氧化物矿物表面2,4-二氯苯酚(2,4-DCP)的化学行为.结果表明,无定形铁氧化物、针铁矿、α-MnO₂、δ-MnO₂对自然的或外源的有机化合物有较强的氧化能力,其中对2,4二氯苯酚的氧化能力是:δ-MnO₂αMnO₂>无定形铁氧化物、针铁矿.采用分段法估算反应系统的速率,发现氧化锰氧化2,4-二氯苯酚的反应速率是氧化铁的3～50倍,δ-MnO₂氧化2,4-二氯苯酚的速率是α-MnO₂的1.5～3.2倍.根系分泌物由于参与氧化物表面化学反应,对系统2,4-二氯苯酚的氧化过程产生一定影响,α-MnO₂加入根系分泌物后,2,4-二氯苯酚在溶液中的消减速率明显减慢,δ-MnO₂则相反,在根系分泌物共存下溶液中的2,4-二氯苯酚的转化率增加.Cu复合共存可能影响2,4二氯苯酚在矿物表面的键合氧化过程,其中δ-MnO₂对铜吸附能力大于αMnO₂,Cu复合共存对δMnO₂表面2,4-二氯苯酚的氧化影响较大.     

The influence of ammonium nitrate on the root growth and ericoid mycorrhizal colonization of Calluna vulgaris (L.) Hull from a Danish heathland

Conversion of European heathlands to grassland has been reported as a response to increased nutrient availability, especially of nitrogen; a direct effect upon mycorrhizal colonization has been proposed as an likely explanation.This hypothesis was tested in a random block experiment with four blocks and four replicates on a Danish inland heath, Hjelm Hede. Ammonium nitrate was applied (0, 35, 50 and 70 kg N ha^–1 year^–1) to a stand of Calluna vulgaris (L.) Hull four times annually for 2 years. Calluna roots were sampled on four occasions in the 2nd year of the nitrogen treatment. The extent of ericoid mycorrhizal colonization was determined by direct observation of the roots using a line-intersection method. The nitrogen content of the current-year shoots of Calluna increased when they were treated with nitrogen. Nitrogen fertilization had no significant effects on ericoid mycorrhizal colonization of Calluna nor on root biomass. The seasonal variation in mycorrhizal colonization of the Calluna roots was highly significant. The spatial variability of mycorrhizal colonization, both in replicated plots and in the two contrasted soil horizons – the mor layer and the bleached sand – within the plots, were considerable. I conclude that heather decline under enhanced nitrogen input is unlikely to be caused by a direct impact on the ericoid mycorrhizae of Calluna. Received: 1 December 1998 / Accepted: 7 December 1999     

Herbivore-induced changes in plant carbon allocation: assessment of below-ground C fluxes using carbon-14

Effects of above-ground herbivory on short-term plant carbon allocation were studied using maize (Zea mays) and a generalist lubber grasshopper (Romalea guttata). We hypothesized that above-ground herbivory stimulates current net carbon assimilate allocation to below-ground components, such as roots, root exudation and root and soil respiration. Maize plants 24 days old were grazed (c. 25–50% leaf area removed) by caging grasshoppers around individual plants and 18 h later pulse-labelled with¹⁴CO₂. During the next 8 h,¹⁴C assimilates were traced to shoots, roots, root plus soil respiration, root exudates, rhizosphere soil, and bulk soil using carbon-14 techniques. Significant positive relationships were observed between herbivory and carbon allocated to roots, root exudates, and root and soil respiration, and a significant negative relationship between herbivory and carbon allocated to shoots. No relationship was observed between herbivory and¹⁴C recovered from soil. While herbivory increased root and soil respiration, the peak time for¹⁴CO₂ evolved as respiration was not altered, thereby suggesting that herbivory only increases the magnitude of respiration, not patterns of translocation through time. Although there was a trend for lower photosynthetic rates of grazed plants than photosynthetic rates of ungrazed plants, no significant differences were observed among grazed and ungrazed plants. We conclude that above-ground herbivory can increase plant carbon fluxes below ground (roots, root exudates, and rhizosphere respiration), thus increasing resources (e.g., root exudates) available to soil organisms, especially microbial populations.     

盐、碱胁迫下小冰麦体内的pH及离子平衡

通过混合两种中性盐（NaCl和Na₂SO₄）和两种碱性盐（NaHCO₃和Na₂CO₃）分别模拟出不同强度的盐、碱胁迫条件,对小冰麦苗进行12 d胁迫处理,测定茎叶组织液的pH值及Na⁺、K⁺、Ca²⁺、Cl^-、SO₄^2-、NO₃^-、H₂PO₄-和有机酸等溶质的浓度,以探讨盐、碱两种胁迫下小冰麦体内的pH及离子平衡特点.结果表明：盐、碱胁迫下小冰麦茎叶内的pH值均稳定不变;随胁迫强度的增加,盐胁迫下小冰麦茎叶内有机酸浓度没有明显变化,Cl^-浓度大幅度增加,而碱胁迫下有机酸浓度大幅度增加,Cl^-浓度没有明显变化.盐、碱胁迫下小冰麦茎叶中的阳离子均以Na⁺和K⁺为主,但阴离子的来源明显不同.盐胁迫下无机阴离子对负电荷的贡献起主导作用,其贡献率达61.3%～66.7%;而碱胁迫下,随胁迫强度的增大,有机酸对负离子的贡献率从38.35%上升到61.60%,逐渐成为主导成分.实验结果表明,有机酸积累是小冰麦在碱胁迫下保持体内离子平衡和pH稳定的关键生理响应.     

根分泌物在污染土壤生物修复中的作用

对根分泌物在植物根际微生态环境中 ,通过土壤 植物 微生物系统协同作用高效修复重金属和有机污染土壤的环境过程与机理进行了综述。根分泌物在重金属污染土壤植物修复中的作用主要表现在活化污染区重金属元素 ,使固定态转化为植物可吸收态 ,大大提高了重金属的植物有效性 ,通过植物的超积累作用 ,降低土壤中重金属污染物的含量 ;此外 ,根分泌物也可以和重金属形成稳定的螯合体 ,降低他们在土壤中的移动性 ,起到固定和钝化作用。对于有机污染物 ,根分泌物一方面为根际的微生物提供了丰富的营养和能源 ,使植物根际的微生物数量和代谢活力比非根际区高 ,增强了微生物对环境中的有机污染物的降解能力 ;另一方面植物根分泌到根际的酶系统可直接参与有机污染物降解的生化过程 ,提高降解效率。并对此领域今后研究工作的方向做了探讨     

金鱼草下胚轴不同部位切段形态发生能力的研究

金鱼草（ＡｎｔｉｒｈｉｎｕｍｍａｊｕｓＬ．）下胚轴不同部位切段的形态发生能力有很大差异。在外源添加ＢＡ,ＮＡＡ的情况下,金鱼草下胚轴近基部切段培养物的芽、根发生明显高于其上各部位切段,以近基部切段为外植体培养时,其形态发生能力以ＢＡ和ＮＡＡ配合为好,最适剂量为ＢＡ１０ｍｇ／Ｌ＋ＮＡＡ０１５ｍｇ／Ｌ。