共查询到20条相似文献,搜索用时 15 毫秒
1.
D. G. KINNIBURGH 《European Journal of Soil Science》1983,34(4):759-768
The specific adsorption of Ca2+ and Zn2+ by ferrihydrite results in the net release of H+. The rate and H+/M2+ exchange stoichiometry of this reaction were monitored with a pH-stat. A rapid reaction of less than 6 min was followed by a slower reaction which continued at a diminishing rate for at least 2 days. Adsorption of Ca2+ at pH 7.8 and Zn2+ at pH 5.4 resulted in the net release of 0.92 and 1.70 mol H+/mol M2+ adsorbed, respectively. For Zn2+ adsorption, this stoichiometry was shown to be independent of pH. These estimates agree well with independent estimates based on the pH dependence of adsorption. The difference between the Ca2+ and Zn2+ stoichiometries was related to the differing acidity of the –OH2 ligands attached to the adsorbed ions. 相似文献
2.
A. Göttlein 《European Journal of Soil Science》1998,49(1):107-112
Colorimetric and ion exchange methods are commonly used to distinguish and measure Al species in natural waters. Unfortunately they also include weakly complexed Al species in their ‘reactive' or ‘labile' Al fractions and thus are of limited value for the estimation of free Al3+. Capillary electrophoresis (CE) has the potential for direct measurement of Al3+, and its performance has been verified experimentally. The method also detected the stable and positively charged AlOx+ complex formed with oxalic acid. It was compared with a colorimetric and an ion exchange method by analysing artificial solutions containing low molecular weight organic acids as well as soil extracts and seepage waters and was found to be the only method closely matching the theoretically calculated values of free Al3+. In samples from the upper soil horizons of an acid forest soil less than 14% of total Al was present as free Al3+, whereas the colorimetric method found more than 65%, and the ion exchange method more than 80% of total Al in a ‘reactive' or ‘labile' form. The latter methods thus would seriously overestimate Al toxicity, whereas using CE Al toxicity is likely to be only slightly underestimated. 相似文献
3.
Olga Babourina Konstantin Voltchanskii Ian Newman Zed Rengel 《Soil Science and Plant Nutrition》2005,51(5):733-736
Potassium transport was investigated in the root elongation zone of Arabidopsis seedlings during the first minutes of Al3+ exposure, using the non-invasive MIFE microelectrode technique. To prevent pH changes during Al3+ application, and to separate aluminium from acidic stress, plants were pre-treated with 5 mM homoPIPES before addition of AlCl3 (pH 4.2). The 30-min treatment with 50 or 500 μM AlCl3 led to a significant increase in K+ efflux in solutions containing 100 μM CaCl2 . This efflux was suppressed by high concentrations of Ca2+ (10 mM) in the bathing solution. Our results suggest that elevated external Ca2+ activities can sustain K+ influx in the root elongation zone during Al3+ exposure either by maintaining [Ca2+ ]cyt or by affecting Al3+ uptake across the plasma membrane. 相似文献
4.
The solid phases and the precipitation boundary characterizing the system H+-Al3+-oxalic acid-silicic acid-Na+ are discussed. Model experiments have been used to throw more light on two environmental problems: the formation of sparingly soluble aluminium silicates in oceans and alkaline lakes, which could be determining aluminium and silicate concentrations in pore waters of sediments, and the validity of inorganic and organic mechanisms of podzolization and their significance for soil science. pH and Tyndallometric measurements were performed at constant ionic strength of 0.6 M NaCl at 25°C. Three phases Al(OH)4, H4SiO4 (phase Via), Al2, (OH)6.H4SiO4 (phase VIb) and NaAl(OH)4.(H4SiO4), (phase VIII) determine the precipitation boundary. Phase NaAl(OH)4.H4SiO4 (phase VII precipitates at 0.4pH units above NaAl(OH)4.(H4SiO4)2. Using a set of previously determined binary and ternary complexes, and phases of the subsystems, the following formation constants were deduced: Phases VIa and VIb are described as end-members of the allophane series with Si: Al ratios of 1:1 and 1.2. Phase VIb was identified with protoimogolite allophane. These two phases are good model clays for podzolic soils and are extremely soluble at pH < 4. Sodium phases could be hydrous feldspathoids. These phases are possible in sediments of seawater or saline lakes. It is suggested that organic and inorganic mechanisms of podzolization operate sequentially and that neither of them alone can completely describe the process. 相似文献
5.
E. M. LOGAN I. D. PULFORD G. T. COOK A B. MACKENZIE 《European Journal of Soil Science》1997,48(4):685-696
The binding of metal to humic substances is problematical. The approaches for studying metal binding to organic matter are briefly reviewed. Ion-selective electrodes (Cu2+ and Pb2+) were used to measure metal complexation by a whole peat and an extracted humic acid (HA) fraction. Scatchard plots and calculation of incremental formation constants were used to obtain values for the binding constants for the metals onto both peat and HA. Both the peat and the humic acid had a larger maximum binding capacity for Pb2+ than for Cu2+ (e.g. at pH = 5 HA gave 0·188 mmol Cu2+ g?1 and 0·564 mmol Pb2+ g?1: peat gave 0·111 mmol Cu2+ g?1 and 0·391 mmol Pb2+ g?1). Overall, the humic acid had a larger metal binding capacity, suggesting that extraction caused conformational or chemical changes. The binding constants (K1) for Cu2+ increased with increasing pH in both peat and humic acid, and were larger in the peat at any given pH (e.g. at pH = 5 HA gave log K1= 2·63, and peat gave log K1= 4·47 for Cu2+). The values for Pb2+ showed little change with pH or between peat and humic acid (e.g. at pH = 5 HA gave log K1= 3·03 and peat gave log K1= 3·00 for Pb2+). In the peat, Cu2+ may be more able to bind in a 2:1 stoichiometric arrangement, resulting in greater stability but smaller binding capacity, whereas Pb2+ binds predominantly in a 1:1 arrangement, with more metal being bound less strongly. Whole peat is considered to be more appropriate than an extracted humic acid fraction for the study of heavy metal binding in organic soils, as this is the material with which metals introduced into an organic soil would interact under natural conditions. 相似文献
6.
Kinetic equations are developed for a system in which a column of reduced soil is exposed to oxygen at one end. The equations are combined in a simulation model in which they are solved by finite-difference methods. The model predicts the consequent diffusion of oxygen into the column; the diffusion of ferrous iron towards the oxidation zone; the rate of formation and concentration profile of the ferric hydroxide formed; and the diffusion by acid-base transfer of the acidity produced in the oxidation reaction. A sensitivity analysis of the model, in which runs were made for a wide range of input parameters, showed that for most combinations of parameters, in water-saturated soil, substantial amounts of iron are transferred towards the air-exposed surface, leading to a well-defined zone of ferric hydroxide accumulation. The profile of total iron in this zone is often banded. The pH in the zone falls by at least two units. A small amount of air-filled pore space increases the depth of the oxidation front dramatically. The model indicates that coupled iron oxidation and diffusion reactions, which are very widespread in natural soils, may be understood quantitatively. 相似文献
7.
The influence of different NH4+ loads on aluminium speciation in percolating water was studied on acid luvisols with similar soil-pH values but with different soil adsorption surface characteristics. All of the applied NH4+ was nitrified and therefore led to proton production. Thus, Al displacement in the percolate was increased. The extent of this enhanced translocation was found to be chiefly a function of the amount of exchangeable base cations which buffered the protons produced by nitrification. The proportion of the different Al species in the percolate was altered at large NH4+ loads. Very large A13+ concentrations eliminated Al species bound to dissolved organic matter and particles, presumably because of flocculation and precipitation of organic ligands. Furthermore, increased NO3? and A13+ concentrations enhanced the desorption of F? giving rise to an additional increase in Al displacement by the formation of Al fluoro complexes in the aqueous phase. 相似文献
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9.
R. J. Laughlin R. J. Stevens C. Müller & C. J. Watson 《European Journal of Soil Science》2008,59(2):285-291
The contribution of bacteria and fungi to NH4+ and organic N (Norg) oxidation was determined in a grassland soil (pH 6.3) by using the general bacterial inhibitor streptomycin or the fungal inhibitor cycloheximide in a laboratory incubation study at 20°C. Each inhibitor was applied at a rate of 3 mg g?1 oven‐dry soil. The size and enrichment of the mineral N pools from differentially (NH415NO3 and 15NH4NO3) and doubly labelled (15NH415NO3) NH4NO3 were measured at 3, 6, 12, 24, 48, 72, 96 and 120 hours after N addition. Labelled N was applied to each treatment, to supply NH4+‐N and NO3?‐N at 3.15 μmol N g?1 oven‐dry soil. The N treatments were enriched to 60 atom % excess in 15N and acetate was added at 100 μmol C g?1 oven‐dry soil, to provide a readily available carbon source. The oxidation rates of NH4+ and Norg were analysed separately for each inhibitor treatment with a 15N tracing model. In the absence of inhibitors, the rates of NH4+ oxidation and organic N oxidation were 0.0045 μmol N g?1 hour?1 and 0.0023 μmol N g?1 hour?1, respectively. Streptomycin had no effect on nitrification but cycloheximide inhibited the oxidation of NH4+ by 89% and the oxidation of organic N by more than 30%. The current study provides evidence to suggest that nitrification in grassland soil is carried out by fungi and that they can simultaneously oxidize NH4+ and organic N. 相似文献
10.
G. Springob 《European Journal of Soil Science》1999,50(4):665-674
To understand the process and the kinetics of potassium release from the clay interlayer in natural and arable soils in more detail, I tested the hypotheses that large, monovalent cations, especially NH4+ and Cs+, can reduce the release rates of K+ which is exchanged by Ca2+, even if these monovalent cations are present in concentrations of only a few μm . Percolation experiments were carried out with different illitic soil materials, some containing vermiculite, with 5 m m CaCl2 at pH 5.8 and 20°C, in some cases for over 7000 h. NH4+ and Cs+ both caused a large decrease in the rate at which K+ was released, Cs+ especially. Suppression began at 5 μm NH4+ Blocking by 20 μm NH4+ was easily reversible: the release rates readily increased when NH4+ was omitted from the exchange solution. Blocking by 2 μm Cs+ was equal to approximately 90% of that at 10 μm Cs+. Larger concentrations of Cs+ than 10 μm did not further reduce release but rather caused a slight increase, probably because of enhanced exchange of K+ by Cs+ without exfoliation of the interlayer space. Blocking by Cs+ was not reversible within > 7000 h of percolation by 5 m m CaCl2. The blocking effect was reproduced in several different soil materials using 10 μm Cs+ but was most pronounced in vermiculite-rich samples. As NH4+ is present in most arable soils, at least in concentrations of a few μm , I conclude that the observed effects are of significance in the K dynamics processes in soils, for example near the roots of plants. Further, very small concentrations of Cs+ in exchange solutions containing a large background of Ca2+ appear to be useful for suppressing K+ release from the interlayer in laboratory studies, probably without significantly altering the exchange at outer mineral surfaces. 相似文献
11.
Thirty-one soil solutions were extracted by immiscible displacement with CCl4 under high speed centrifugation from sub-horizons of three podzolic soils from north-eastern Ontario, Canada. The solutions were analysed for major cations and anions and a speciation of dissolved Fe and Al was attempted to distinguish 'free', 'organically bound' and 'inorganically bound' species. Results indicated that the Ae (E) horizon solutions were of low pH and contained mainly organically bound Fe and Al. With depth, p Hs increased, ionic strengths decreased and the relative proportion of inorganically bound Fe and Al increased. Although application of phase diagrams permitted only a semi-quantitative interpretation of the data, all horizon solutions, with the exception of some Ae solutions, appeared supersaturated with respect to likely occurring crystalline and amorphous aluminosilicates [kaolinite, halloysite, allophane (Al:Si=l) and imogolite]. Of the phases considered, reactions involving imogolite-allophane, gibbsite-halloysite, gibbsite-allophane and gibbsite-imogolite all appeared reasonable in controlling the content of Al3+ and H4 SiO4 in solution, although the presence of gibbsite and imogolite could not be definitely confirmed in these soils. 相似文献
12.
The formation constants of Co^2 ,Ni^2 ,Cu^2 and Zn^2 complexes with humic acid(HA) and fulvic acid(FA) in red soil wrer determined by the potentiometric titration method.The constants as a function of composition of the complexation solutions were obtained by two graphical approaches respetively,The formation constants decreased with increasing concentration of metal in the solution,The results provide unambiguous evidence for the heterogeneity of the function groups of humic substances,the formation constants of FA were much smaller than those of HA,and the formation constants of Cu^2 were much greater than those of Co^2 ,Ni^2 and Zn^2 ,The potentiometric titration methon for determining formation constants are also discussed in the article. 相似文献
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14.
Formation constants for Cu2+ complexes with humic and fulvic acids were determined by a modification of the well-known Bjerrum potentiometric titration method. Highly stable complexes were formed with formation constants of the order of those observed for synthetic polycarboxylic acids. Overall formation constants for a two-step process (B2) ranged from 2.5 · 10?4 to 7.9 · 10?3. 相似文献
15.
Yu-Seon KIM Won PARK Hai NIAN Takayuki SASAKI Bunichi EZAKI Young-Seok JANG Gap-Chae CHUNG Hyun-Jong BAE Sung-Ju AHN 《Soil Science and Plant Nutrition》2010,56(1):140-149
Seventeen soybean cultivars were screened to discern differences in aluminum (Al) sensitivity. The Sowon (Al-tolerant) and Poongsan (Al-sensitive) cultivars were selected for further study by simple growth measurement. Aluminum-induced root growth inhibition was significantly higher in the Poongsan cultivar than in the Sowon cultivar, although the differences depended on the Al concentration (0, 25, 50, 75 or 100 μmol L–1 ) and the amount of exposure (0, 3, 6, 12 or 24 h). Damage occurred preferentially in the root apex. High-sensitivity growth measurements using India ink implicated the central elongation zone located 2–3 mm from the root apex. The Al content was lower 0–5 mm from the root apices in the Sowon cultivar than in the apices of the Poongsan cultivar when exposed to 50 μmol L–1 Al for 12 h. Furthermore, the citric acid exudation rate was more than twofold higher in the Sowon cultivar. Protein production of plasma membrane (PM) H+ -ATPase from the root apices (0–5 mm) was upregulated in the presence of Al for 24 h in both cultivars. This activity, however, decreased in both cultivars treated with Al and the Poongsan cultivar was more severely affected. We propose that Al-induced growth inhibition is correlated with changes in PM H+ -ATPase activity, which is linked to the exudation of citric acid in the root apex. 相似文献
16.
以胡敏酸为研究对象,通过光散射技术比较土壤中常见盐基离子(Na~+、Ca~(2+)和Na~+-Ca~(2+)混合三种电解质)不同浓度条件下胡敏酸胶体凝聚动力学过程,明确不同价态离子界面行为和陪补离子效应对胡敏酸分散稳定性和凝聚体结构的影响。结果发现,Na~+和Ca~(2+)对胡敏酸胶体聚沉能力的差异远远大于舒尔策-哈迪(Schulze-Hardy)规则中因其化合价不同所引起的差异;Na~+-Ca~(2+)混合体系中Ca~(2+)主导凝聚过程,且Na~+-Ca~(2+)混合与Ca~(2+)两种离子体系中凝聚现象的差异随离子浓度的降低而增大;混合离子体系中Na~+作为陪补离子,其陪补离子效应对临界聚沉浓度、颗粒间活化能和胡敏酸凝聚体结构均有一定影响,尤以对凝聚体的结构特征影响显著;Na~+-Ca~(2+)混合体系中胡敏酸凝聚体的结构紧实程度介于单纯离子体系之间,因此可通过调节溶液中的离子组成实现对凝聚体结构紧实程度的调控。上述结果表明,Ca~(2+)对胡敏酸的聚沉不仅依赖于静电作用,还有Ca~(2+)在强电场中的极化诱导其与胡敏酸表面含氧官能团之间发生的共价键和桥键的贡献;此外,陪补离子Na~+与Ca~(2+)在胡敏酸胶体表面的竞争吸附抑制了Ca~(2+)对胡敏酸的聚沉作用,从而形成紧实程度适中的结构体。研究结果为探究胶体界面反应及土壤胶体凝聚机制提供新的思路和理论。 相似文献
17.
The mineralization of native soil organic matter and the simultaneous diffusion of zero NH+4 and NO?3 to a solution sink of zero N concentration was analysed experimentally and theoretically for a fine sandy loam soil. Experimentally, the NH4 and NO3 ions produced in an incubated unsaturated soil column were allowed to diffuse through a sintered glass plate into a stirred solution sink. The distribution of NH+4 and NO?3 in the soil column was measured after various incubation times. The rate of ammonification was measured directly during incubation and the rate of nitrification modelled from nitrifier growth kinetics. A Freundlich equation was used to describe the equilibrium between soluble and exchangeable NH+4 in the soil. Terms for the microbial transformation of N and the adsorption-desorption of NH+4 were combined with diffusion equations which were solved numerically using finite difference methods. The model constructed was used to predict the NH+4 and NO?3 con-centration distributions in the soil column, and good agreement was obtained between the experimental and predicted concentration profiles. The use of the model for predicting the diffusive flux of mineral N to the outer surfaces of soil peds, where it is vulnerable to leaching, was demonstrated. 相似文献
18.
一个改进的土壤铵、磷和钾等温吸附新模型 总被引:1,自引:0,他引:1
土壤对养分的吸附特性是土壤化学和植物营养学的重要研究内容。9个供试土壤的NH4+、PO43-和K+吸附试验表明,Langmuir、Freundlish和Temkin等温吸附方程对其有较好的拟合效果,但亦有部分供试土壤的拟合精度不良。本文引进种群生态学的"形状因子d"概念,在Langmuir方程基础上构造了一个新的吸附模型。理论分析表明,新吸附模型综合反映了3个等温吸附方程所描述的吸附特征。模拟结果表明,等温吸附方程模拟不佳的供试土壤,用新模型模拟均能达到显著水平;新吸附模型的拟合精度(R2)高于3个等温吸附方程,且标准差最小。形状因子d的变化幅度在0.608 0~2.929 0,体现了土壤理化性质对NH4+、PO43-和K+等温吸附曲线形状的影响。新吸附模型和Langmuir方程的NH4+、PO43-和K+的qm值之间的线性相关系数分别为0.851 5**、0.825 8**和0.912 8**(n=9)。土壤理化性质分析表明,新吸附模型的PO43-和K+的qm值与土壤有机质之间、土壤NH4+和K+的qm值与CEC之间均有显著水平的线性正相关。NH4+的qm值与土壤碱解氮含量亦呈显著水平的线性正相关,而PO34-的qm值与土壤有效磷含量则呈显著水平的线性负相关。数学形式简洁的新等温吸附模型为采用统一模式定量处理土壤对NH4+、PO43-和K+的吸附特性提供了一条新途径。 相似文献
19.
研究了不同浓度Hg2+、Cr3+ 和Pb2+胁迫条件下,绿豆花荚期叶片中膜脂过氧化物(MDA)含量及抗氧化酶,包括(超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT))活性的变化情况。结果表明,Hg2+、Cr3+和Pb2+胁迫后,随着浓度的升高,绿豆叶片中MDA含量也逐渐升高,与对照相比均呈差异显著性;在Cr3+和Pb2+胁迫下,绿豆叶片中SOD酶活性随着浓度的升高呈现升高的趋势;在低、中浓度Hg2+胁迫下,SOD酶活性低于对照,但高浓度下,SOD酶活性高于对照;Hg2+处理后,POD随着浓度的增加,表现出先升高后降低又升高的趋势;低、中浓度Cr 3+处理使绿豆叶片内POD活性降低,但在高浓度时表现出POD活性增强;随着Pb2+处理浓度的增加,POD活性逐渐降低;Hg2+ 和Cr3+处理使CAT活性升高,但Pb2+处理后,CAT活性随浓度的升高先下降,再升高,然后又下降。研究表明Pb2+对绿豆的生态毒性较大。 相似文献
20.
An infrared spectroscopic investigation of the complexes of Cu2+, Pb2+, and Ca2+ with humic and fulvic acids demonstrated the participation of OH and CO groups in addition to COOH in the binding of heavy-metal cations. The degree to which metal-carboxylate linkages are ionic or covalent cannot be accurately determined from the positions of antisymmetric and symmetric carboxylate stretching vibrations due to interference from covalent bonding with other groups. The apparent order of the reaction of three divalent cations with humic and fulvic acids was Cu2+ > Pb2+ > Ca2+. 相似文献