Effect of mixing on biogas production during mesophilic anaerobic digestion of screened dairy manure in a pilot plant

The effect of mixing on biogas production of a 1.5‐m³ pilot continuous stirred tank reactor (CSTR) processing screened dairy manure was evaluated. Mixing was carried out by recirculation of reactor content with a mono pump. The experiment was conducted at a controlled temperature of 37±1°C and hydraulic retention times (HRTs) of 20 and 10 days. The effect of continuous and intermittent operation of the recirculation pump on biogas production was studied. At 10 days of HRT, the results showed a minimal influence of recirculation rate on biogas production and that continuous recirculation did not improve reactor performance. At 20 days of HRT, the recirculation rate did not affect reactor performance. Combination of low solid content in feed animal slurry and long HRTs results in minimal mixing requirements for anaerobic digestion.     

Leaching requirement conceptual models for reactive salt

Accurate prediction of the leaching requirements (Lr) of crops and striving to attain them is essential for efficient irrigation water use. Solute modeling was extended to develop four Lr conceptual models that do not neglect solute reactions in the root-zone, surface evaporation, and the influence of immobile wetted pore space. The models were based on: (i) the water movement equation which included an exponential water-uptake function (-e) or the 40-30-20-10 water-uptake function (-4); (ii) the solute movement equation for a reactive salt of a linear reaction term (the Lrchem-e and Lrchem-4 models); or the employment of output (salinity of soil solution, EC vs concentration factor, CF) of the SAO comprehensive chemical model (the LrSAO-e and LrSAO-4 models); and (iii) the inclusion of an effective soil solution volume in the transport equations. The root-zone average relative effective soil solution volume νeff (L | L50, p) was of sigmoidal response to leaching fraction (L) with two adjustable parameters L50 and p; the root-zone average reduced retention coefficient decreased linearly with L; and salt concentration at soil surface was related to salt concentration of irrigation water (ECi) by the fraction of irrigation water that evaporated (∈). The resulted concentration profiles indicated the salt behaved as a conservative one down to a threshold depth (xs) below of which salt was retained and precipitated. The depth of the conservative-salt front, xs increased with L and the 40-30-20-10 water-uptake pattern overestimated the xs depth relative to the exponential pattern. Concentration profiles were integrated to compute the root-zone average salinity, which was converted to crop salt-tolerance threshold (AE). The four conceptual models were successfully calibrated using experimental AE/ECi vs. Lr data with the input parameter values: ς = 0.27, p = 1.44, L50 = 0.16, ω = 2, and ∈ = 0 or 0.1 for the exponential or the 40-30-20-10 pattern, respectively; where ς is relative root length parameter and ω is a weighing parameter. No significant difference existed between the four model correlations at the 0.05 level. The four models require ECi and AE of the crop as input for Lr prediction. Sensitivity analysis revealed predicted Lr was sensitive the least to error in ∈. For tolerant and moderately tolerant crops Lr was sensitive the most to ς, and for sensitive crops to L50 and p. Model verification and validation were discussed. In deriving the present Lr models, no osmotic adjustment was required and both the exponential and the 40-30-20-10 water uptake patterns were, equivalently, applicable. This revised version was published online in July 2006 with corrections to the Cover Date.     

Characterization of cellulases in an extracellular fraction from Trichoderma reesei under conditions of isoelectric focusing (IEF)

Abstract A cellulase-containing fraction present in the culture fluid of Trichoderma reesei grown on cellulose was obtained by fractionated centrifugation. The buoyant density of this fraction was D = 1.060 g/ml. Its ultrastructural properties, as detected by transmission electron microscopy, are given. The fraction consists of membrane vesicles attached to a carbohydrate polymer. This polymer is positive to Ruthenium red staining.
The effect of urea on the extraction and separation of acidic cellulases from this fraction is described. Linear gradient gels for both urea (up to 8.0 M urea) and polyacrylamide gels (up to 30%) were used to determine adequate separation conditions for isoelectric focusing (IEF) in a polyacrylamide gel matrix. The effect of urea on the extraction and separation conditions was tested by titration curves. In the presence of 6.0−8.0 M urea, the main cellulase-containing hydrolase complex (pI_app4.2) from this fraction is split into 3 isoenzymes and a further cellulase (pI 5.65).     

The cardiac ryanodine receptor: Looking for anomalies in permeation properties

Anomalies in the permeation properties of the cardiac RyR channel reconstituted into bilayer lipid membranes were investigated systematically. We tested the presence of the anomalous mole fraction effect (AMFE) for the ion conductance and the reversal potential with varying mole fractions of two permeant ions, while the total ion concentration was lower, as in previous studies, to avoid the masking effect of the channel pore saturation with ions. Mixtures of Ba²⁺ with other divalents (Ca²⁺, Sr²⁺), of Ca²⁺ with monovalents (Li⁺, Cs⁺), and of Na⁺ with other monovalents (Cs⁺, Li⁺) were used. We revealed a clear anomaly only for the ion conductance measured in the Na⁺-Cs⁺ and Ca²⁺-Li⁺ mixtures as computed by a Poisson-Nernst-Planck/density functional theory (PNP/DFT) model. Furthermore, we found a significant minimum in the concentration dependence of the reversal potential determined under Li⁺/Ca²⁺ bi-ionic conditions. Our study led to new observations that may have important implications for understanding the mechanisms involved in ion handling in the RyR channel pore; furthermore our results could be useful for further validation of ion permeation models developed for the RyR channel.     

眠安胶囊原料药的提取工艺研究

目的:研究眠安胶囊的有效部位及黄芩和琥珀等药材的提取条件.方法:采用正交试验设计,以黄芩苷含量和提取物收率为指标,筛选出了黄芩提取的最佳条件为黄芩粉碎为最粗粉,用10倍水煎煮1.5h后再用8倍量水煎煮0.5h,减压浓缩(60 ℃～70 ℃)煎液至体积为投料量的5倍,于70 ℃加稀盐酸调pH值为1～2,保温30min后静置8h;以药效学为指标,确定了琥珀等药材渗漉提取用乙醇的浓度为70%,同时以药效学和干浸膏得率为指标,通过单因素试验确定了琥珀等药材提取的最优条件为10倍量70%乙醇浸渍24h,调渗漉速度为3 ml·min-1·kg-1进行渗漉提取.结果:眠安胶囊的有效部位为黄芩用水煎煮、琥珀等用乙醇渗漉提取的部位.结论:该工艺稳定,重复性好,适合于眠安胶囊原料药的提取.     

不同林龄橡胶(Hevea brasiliensis)林土壤微生物群落和磷组分的变化

橡胶林是我国热带地区重要的经济林,而土壤磷是热带地区植物生长的重要限制因子之一,理解土壤磷转化机理对于生态系统的磷管理和可持续发展具有重要意义。因此,以热带地区海南儋州不同林龄(4、15、31a)橡胶人工林为研究对象,采用Hedley连续浸提法研究了土壤磷组分,磷脂脂肪酸法(Phospholipid fatty acids,PLFAs)分析了土壤微生物群落。结果表明,在橡胶林内各磷组分的相对含量大小顺序为:闭蓄态磷中等活性态磷活性态磷团聚体内磷钙磷。随着林龄的增加,橡胶林土壤中的磷组分发生显著变化。4、15、31a橡胶林的闭蓄态磷分别占总提取磷的52.61%、47.17%和34.91%,而活性态磷分别占总提取磷的6.67%、11.32%、13.68%。土壤总微生物、细菌、革兰氏阴性菌(G~-)、革兰氏阳性菌(G~+)的PLFAs含量均表现为15a4a31a,而31a橡胶林放线菌、真菌(F)和丛枝菌根真菌(AMF)的PLFAs含量均低于4a和15a。冗余分析(RDA)显示,全氮、有机碳、p H、F、AMF、G~-、G~+是引起不同林龄橡胶林土壤磷组分变化的重要贡献因子。研究表明,在橡胶林发育过程中,土壤理化性质和微生物群落发生了明显的变化,进而影响到土壤磷的转化过程。     

Total and speciation analyses of heavy metals in the sand fraction of Nigerian oil sands for human and ecological risk assessment

Total metal analysis and metal speciation of sand fraction of Nigerian oil sands were done to extract and partition heavy metals into six operationally defined fractions in order to assess environmental and health implications of the oil sand development. Soxhlet extraction of bitumen from the oil sand was done using toluene. Traces of water and extracting solvent were removed at 70°C from the sand fraction using oven. Elemental analysis was performed by Atomic Absorption Spectrophotometry. The heavy metals except Cu have low Pollution index values. Negative geo-accumulation index was obtained for the metals except Cu, indicating that the oil sands were uncontaminated with the metals. Strong and significant positive correlations existed between Fe/Pb, Zn/Cu, Cd/Pb, Ni/Cd, Ni/Pb, Cd/Fe, Ni/Fe and Cr/Zn, while strong and significant negative correlations existed between Mn/Pb and As/Mn, indicating common sources or chemical similarities and vice versa. T-test results indicated significant differences between the concentrations of the metals. Cross-plot analysis showed strong positive correlation between the sand fraction and Nigerian bitumen. Speciation analysis indicated highest and lowest indices of metal mobility for Zn and Pb, respectively. This study concluded that the sand fraction may not pose any environmental risks from elemental point of view.     

Analysis of an immunoadjuvant saponin fraction from Quillaja brasiliensis leaves by electrospray ionization ion trap multiple-stage mass spectrometry

An immunoadjuvant saponin fraction from Quillaja brasiliensis leaves was investigated by direct infusion and liquid chromatography/electrospray ionization ion trap multiple-stage mass spectrometry in negative ion mode (DI-ESI-IT-MSⁿ and LC-ESI-IT-MSⁿ). The aglycone and the sequence of the oligosaccharide residues at C-3 and C-28 were characterized based on MS² and MS³ experiments of the [MH]⁻ ions. According to their [MH]⁻ ions, characteristic product ions and retention times, 27 bidesmosidic saponins, bearing four types of triterpenic aglycones, were tentatively identified.     

Biomass estimation models and allocation patterns of 14 shrub species in Mountain Luya,Shanxi, China

Aims Shrub species have evolved specific strategies to regulate biomass allocation among various organs or between above- and belowground biomass and shrub biomass model is an important approach to estimate biomass allocation among different shrub species. This study was designed to establish the optimal estimation models for each organ (leaf, stem, and root), aboveground and total biomass of 14 common shrub species in Mountain Luya, Shanxi Province, China. Furthermore, we explored biomass allocation characteristics of these shrub species by using the index of leaf biomass fraction (leaf to total biomass), stem biomass fraction (stem to total biomass), root biomass fraction (root to total biomass), and root to shoot mass ratio (R/S) (belowground to aboveground biomass).
Methods We used plant height, basal diameter, canopy diameter and their combination as variables to establish the optimal biomass estimation models for each shrub species. In addition, we used the ratios of leaf, stem, root to total biomass, and belowground to aboveground biomass to explore the difference of biomass allocation patterns of 14 shrub species.
Important findings Most of biomass estimation models could be well expressed by the exponential and linear functions. Biomass for shorter shrub species with more stems could be better estimated by canopy area; biomass for taller shrub species with less stems could be better estimated by the sum of the square of total base diameter multiply stem height; and biomass for the rest shrub species could be better estimated by canopy volume. The averaged value for these shrub species was 0.61, 0.17, 0.48, and 0.35 for R/S, leaf biomass fraction, stem biomass fraction, and root biomass fraction, respectively. Except for leaf biomass fraction, R/S, stem biomass fraction, and root biomass fraction for shrubs with thorn was significantly greater than that for shrubs without thorn.