磁流体密封液下泵结构设计与试验

为了解决输送核原料的液下泵工作过程中存在无色剧毒氟化氢气体溢出的问题,在此类液下泵的主轴上选取磁流体为密封材料,应用磁流体密封技术,设计了一套采用螺旋齿的磁流体密封结构,并推导出了密封压差设计公式．通过理论分析和试验研究,讨论了液下泵在液体工作环境下的转速、温度、磁流体体积、密封间隙和磁场强度对磁流体密封承压能力的影响．结果表明,设置在液下泵上的磁流体密封结构的承压能力随着转速、温度和密封间隙的增大而下降;随着磁场强度的升高而增大,且密封承压能力试验值最大可达8×10^5Pa;随着磁流体体积的增大而增大,但是当磁流体体积超过一定的临界值后,磁流体密封的承压能力将不再随着磁流体体积的改变而改变,仅仅保持在某一恒定值．该磁流体密封结构的密封方法将会有效地解决输送核原料的液下泵中害氟化氢气体泄漏的问题．     

Degradation and effect of hydrogen peroxide in small‐scale recirculation aquaculture system biofilters

From an environmental point of view, hydrogen peroxide (HP) has beneficial attributes compared with other disinfectants in terms of its ready degradation and neutral by‐products. The rapid degradation of HP can, however, cause difficulties with regard to safe and efficient water treatment when applied in different systems. In this study, we investigated the degradation kinetics of HP in biofilters from water recirculating aquaculture systems (RAS). The potential effect of HP on the nitrification process in the biofilters was also examined. Biofilter elements from two different pilot‐scale RAS were exposed to various HP treatments in batch experiments, and the HP concentration was found to follow an exponential decay. The biofilter ammonia and nitrite oxidation processes showed quick recuperation after exposure to a single dose of HP up to 30 mg L^?1. An average HP concentration of 10–13 mg L^?1 maintained over 3 h had a moderate inhibitory effect on the biofilter elements from one of the RAS with relatively high organic loading, while the nitrification was severely inhibited in the pilot‐scale biofilters from the other RAS with a relatively low organic loading. A pilot‐scale RAS, equipped with two biofilter units, both a moving‐bed (Biomedia) and a fixed‐bed (BIO‐BLOK^®) biofilter, was subjected to an average HP concentration of ～12 mg L^?1 for 3 h. The ammonium‐ and nitrite‐degrading efficiencies of both the Biomedia and the BIO‐BLOK^® filters were drastically reduced. The filters had not reverted to pre‐HP exposure efficiency after 24 h, suggesting a possible long‐term impact on the biofilters.     

Metabolite profiling of the response to high-nitrogen fertilizer during grain development of bread wheat (Triticum aestivum L.)

Wheat yield and quality are dependent largely on nitrogen (N) availability. In this study, we performed the first metabolomic analysis of the response to high-N fertilizer during wheat grain development using non-targeted gas chromatography-mass spectrometry (GC–MS). Quality parameter analyses demonstrated that high-N fertilizer application led to a significant increase in grain protein content and improvement in starch and bread-making quality. Comparative metabolomic profiling of six grain developmental stages resulted in identification of 74 metabolites, including amino acids, carbohydrates, organic acids and lipids/alcohol, which are primarily involved in carbon and N metabolism. Under high-N fertilizer treatment, numerous metabolites accumulated significantly during grain development. Principal component analysis revealed two principal components as being responsible for the variances resulting from N-fertilizer treatments. Metabolite–metabolite correlation analysis demonstrated that the high-N treatment group had a greater number of positive correlations among metabolites, suggesting that high-N fertilizer treatment induced a concerted metabolic change that resulted in improved grain development. Particularly, the high-N treatment-mediated significant accumulation of metabolites involved in the TCA cycle, starch and storage protein synthesis could be responsible for the improvement of grain yield and quality. Our results provide new insight into the molecular mechanisms of wheat grain development and yield and quality.     

Inhibition of postharvest senescence of green leafy vegetables by exogenous D-cysteine and L-cysteine as precursors of hydrogen sulphide

Hydrogen sulphide (H₂S) inhibits senescence in harvested fruit and vegetables but presents logistical, safety and regulatory issues to become a commercial treatment. D-cysteine and L-cysteine are semi-essential amino acids that are metabolised to hydrogen sulphide by plant tissues albeit by different pathways. This paper examines the effect of cysteine on postharvest senescence of three green leafy vegetables. Spraying pak choy leaves with 10 mmol D-cysteine, L-cysteine or DL-cysteine inhibited leaf senescence through a delayed loss of green colour expressed as market life, reduced respiration rate and reduced ethylene production. The beneficial effects of cysteine were similar to those achieved by fumigation with hydrogen sulphide. L-cysteine sprays on parsley and peppermint leaves also showed reduced leaf colour loss and respiration compared to untreated leaves. Cysteine, either as the racemate or individual enantiomers, is considered to have commercial potential for green leafy vegetables as it provides the beneficial effect of hydrogen sulphide but should be easier to register for commercial use due to the GRAS status of L-cysteine.     

不同金属离子对生物质发酵产氢的影响

为揭示不同金属离子在生物质发酵产氢中的作用规律,以混合菌群发酵产氢为研究对象,采用正交试验设计的方法,考察了7种金属离子对生物质发酵产氢的影响。通过对不同金属离子质量浓度及相互关系对发酵产氢影响的综合比较,获得以下结论：促进混合菌群发酵产氢的金属离子组成为：Fe2+ 20 mg/L,Zn2+ 0 mg/L,Ni2+ 1 mg/L,Mg2+ 10 mg/L,K+ 100 mg/L,Fe3+ 100 mg/L,Mn2+ 1 mg/L;H2与CO2、总产气量存在显著的正比关系,与糖利用率无直接关系;以PDB（马     

一种测定巴西橡胶树树皮中过氧化氢含量的方法

研究植物体内 H2O2 的含量变化有助于确认植物提高非生物胁迫耐性的生物技术策略。Ti(Ⅳ)-PAR-H2O2 比色法灵敏度高、特异性强、稳定性好,广泛用于植物 H2O2 测定,但不同研究所用的反应条件不一致。在本研究中,系统优化了 Ti(Ⅳ)-PAR-H2O2 比色法的反应条件,并比较了丙酮提取法和 TCA 提取法对橡胶树萌条韧皮部 H2O2 的提取效果。结果表明,丙酮提取法稳定性差,TCA 提取法稳定性好。本研究报道了一种简单、快速的测定橡胶树树皮 H2O2 的方法,为进一步研究橡胶树中 H2O2 的生理功能打下良好基础。     

滴灌紫花苜蓿根层水分稳定同位素特征分析

为了明确滴灌紫花苜蓿根层水分运移,进一步阐明滴灌节水机理,采用液态水稳定氢氧同位素技术,分析了滴灌紫花苜蓿根层水分稳定氢氧同位素分布特征。结果表明,紫花苜蓿根层水分稳定氢氧同位素在下层富集,且随土壤剖面深度的增加同位素富集量有增加的趋势。滴灌条件下,紫花苜蓿根层发育有较多细根,可迅速而高效地利用灌溉水,灌溉后紫花苜蓿对灌溉水的利用不明确偏向于某一深度土层,根层内各土层土壤水均有利用。灌溉前土壤干旱时,滴灌紫花苜蓿以30 cm上下土层土壤水作为主要水分来源的概率较高。     

基于空间分布的草原化荒漠地区红砂种群水分利用策略研究

[目的]研究区域尺度上荒漠灌木水分适应与分布格局相呼应关系,揭示干旱半干旱地区植物种群对环境响应的过程与机理,为深入理解植物与环境协同进化规律提供依据。[方法]采用点格局分析方法和氢氧稳定同位素示踪技术,分析了红砂(Reaumuria songarica)种群的空间分布格局、水分利用策略。[结果](1)在完全空间随机零模型下,红砂种群在<3 m尺度内均匀分布,在>32 m尺度内聚集分布,种群内部生态关系由竞争向促进转变;消除生境异质性后,种群在>30 m尺度下呈现随机分布,种内生态关系呈现减弱的趋势。红砂种群空间分布格局的形成过程中生境异质性在大尺度上起到了重要作用。(2)随着多年平均降水量的减少,红砂种群的水分利用深度由0—20 cm加深到60—100 cm;红砂种群的密度与多年降水呈现极显著负相关(p<0.01),样地的植被盖度变化主要受草本盖度影响,红砂植被盖度变化不显著。[结论]随着多年平均降水量的减少,红砂种群的分布格局受环境异质性影响。通过增加植株密度,红砂可以利用更深层的土壤水分适应环境胁迫。     

植物细胞H_2O_2的产生及其生理作用

过氧化氢（hydrogen peroxide,H2O2）是细胞有氧代谢的产物,激素等发育信号和胁迫刺激都可以诱导细胞内H2O2的产生和积累。H2O2在细胞内浓度的升高和降低以及变化模式可能介导了不同的信号转导途径,并调控相应生长发育、胁迫应答等生物学过程。     

NaHS引发提高裸燕麦种子活力的生理机制

硫化氢(H2S)信号在作物种子萌发中发挥着重要作用.为探讨外源H2S供体NaHS引发提高作物种子活力的作用及其生理机制,以裸燕麦种子为材料,分别用不同浓度NaHS(0、50、100、200、400、800、1600μmol·L-1)引发18 h和800μmol·L-1 NaHS引发不同时间(6、9、12、15、18、2...