高寒草甸主要植物地上地下生物量分布及退化对根冠比和根系表面积的影响

研究高寒草甸主要植物地上地下生物量的分布及其对退化的响应有利于了解高寒草甸的退化过程。该研究首先在西藏那曲生态环境综合观测研究站小嵩草围栏内(2009年围封)选择原生植被较好的地点随机选择小嵩草(Kobresia pygmaea)、矮嵩草(K.humilis)、紫花针茅(Stipa purpurea)、二裂委陵菜(Potentila bifurca)和青藏苔草(Carex moorcroftii)等5种植物斑块,选择退化斑块上(与原生植被相比)的二裂委陵菜和青藏苔草;然后用烘箱烘至恒重并称重,用扫描仪对根系进行扫描用于估算根系表面积;最后利用2因子方差分析检验不同物种个体、不同取样层次对地上和地下生物量的影响,利用物种和退化状态2因子方差分析检验对地上生物量的影响,以及利用物种、取样层次和退化状态3因子方差分析检验对二裂委陵菜和青藏苔草地下生物量、根冠比和根系表面积的影响。结果表明:在未退化条件下,小嵩草、矮嵩草和紫花针茅0~10cml地下生物量占0~30cm地下生物量的70%以上,0~30cm地下生物量占其地上地下总生物量的96%以上;二裂委陵菜(Potentilla bifurca)和青藏苔草(Carex moorcroftii)0~10cm地下生物量占0~30cml地下生物量的50%以上,其中二裂委陵菜0~30cm地下生物量占其地上地下总生物量的57%,青藏苔草0~30cm地下生物量占其地上地下总生物量的87%;对于退化草甸的主要植物,退化显著降低了二裂委陵菜的地上生物量、地下生物量和根冠比,对其根系表面积影响不大,但显著增加了青藏苔草的地上生物量,降低了其根冠比,对其地下生物量和根系表面积影响不大。     

Tissue Fe/Zn ratio as a diagnostic tool for prediction of Zn deficiency in crop plants

Summary Critical Zn levels in tissues currently used for the prediction of Zn deficiency in crop plants often fail to explain the anomaly of diminished yield levels in spite of the higher tissue Zn levels, much above the critical Zn levels in crop plants. The study on tissue Zn content, Fe content and tissue Fe/Zn ratios in maize (at the time of appearance of deficiency symptoms-25 day old plants) reveals that the tissue Fe/Zn ratio appears to be a promising diagnostic tool for the prediction of Zn deficiency in crop plants. It also explains the phenomenon of diminished yield levels associated with the high Zn levels often much above the critical Zn levels in crop plants. Correlations between dry matter yields and tissue Fe/Zn ratios were found to be negative and significant. This shows that the yield diminishes as the tissue Fe/Zn ratio increases beyond a certain critical Fe/Zn ratio. Relative per cent yields against the tissue Fe/Zn ratios were plotted using the approach of Cate and Nelson² which shows that there is a certain critical Fe/Zn ratio in crop plants beyond which there is a hidden Zn deficiency and a probable response to Zn application. Critical Fe/Zn ratio in maize was found to be around 6.0.Former Ph.D. Scholar (Now Scientist S-1 (Soil Sci.) Central Soil and Water Conservation Research and Training Institute, Research Centre, Kota, Rajasthan) and former Director of Research Services, JNAU-Jabalpur (Now Adviser to the Gujrat Agricultural University, Anand, Gujrat) respectively.     

Synthesis and characterisation of bis(2 methyl-8-hydroxyquinoline) zinc nanoparticles for organic light emitting diode applications

In this paper, bis(2 methyl-8-hydroxyquinoline) zinc (Zn(mq)₂) nanoparticles were synthesised at room temperature by a simple chemical precipitation method. The Zn(mq)₂ nanoparticles were characterised by powder X-ray diffraction (PXRD) analysis to confirm the crystalline nature of the Zn(mq)₂ nanoparticles. The morphology and the elemental composition of Zn (mq)₂ nanoparticles were analysed by high-resolution scanning electron microscopy (HR-SEM) and energy dispersive X-ray analysis (EDAX). The functional groups of the compound were studied with the help of Fourier transform infrared spectroscopy (FTIR) and FT Raman spectroscopy. Further, Zn (mq)₂ nanoparticles were characterised by C-13 NMR spectroscopy, mass spectroscopy and CHN analysis. The thermal stability of the particles was studied using TG-DSC curve. The optical properties of the particles were studied by means of UV–Visible spectroscopy. The luminescence property of the synthesised particles was observed from the photoluminescence spectrum to confirm the possible application in organic light emitting diode.     

Effects of plant intraspecific variation on the prediction of C3/C4 vegetation ratio from carbon isotope composition of topsoil organic matter across grasslands

植物种内变异对草地表层有机质碳同位素组成预测C₃/C₄植被比的影响植物群落中C₃和C₄植物的比例和组成对诸多生态系统过程具有重要影响。解析C₃和C₄植物碳同位素的环境驱动过程与调控因子,对于从土壤碳同位素的角度来预测C₃/C₄植被比和组成具有重要意义。本研究旨在评估草原植物碳同位素特征的种内变异将如何影响C₃和C₄植物的碳同位素组成以及C₃/C₄植被比的预测。沿中国北方草原的自然干旱梯度选择26个植物群落,通过分析植物和土壤的碳同位素组成,采用混合模型来预测C₄植物对土壤有机碳的相对贡献。本研究对比分析了如下3种情境：(1)考虑C₃和C₄植物碳同位素的种内和种间效应;(2)仅考虑碳同位素的种间变异;(3)忽略碳同位素的种内和种间变异。研究结果表明,植物碳同位素组成沿中国北方草原自然干旱梯度的变化具有物种特异性。C₃和C₄植物的碳同位素组成与干旱指数之间呈显著负相关关系,但C₃植物比C₄植物对环境的干旱变化更为敏感。植物碳同位素特征的种内变异在驱动C₃植物功能群碳同位素沿干旱梯度的分布格局中发挥着重要作用。如果忽略植物碳同位素特征的种内变异将会显著高估C₄植物的相对贡献。本研究结果表明,草原植物碳同位素特征的种内变异对于准确预测C₃/C₄植被组成具有重要意义。     

A stochastic model for the synthesis and degradation of natural organic matter part II: molecular property distributions

A stochastic biogeochemical model has been developed to simulate the transformation and degradation of natural organic matter (NOM) using an agent-based algorithm which treats each molecule as a separate and potentially unique entity. Molecules react when a pseudo-random number is lower than the calculated reaction probability in a given time step; repeated time steps simulate the transformation of precursor molecules into a complex NOM assemblage. The data for each molecule—elemental and functional group composition—can be used to calculate many properties directly and exactly for each molecule in the assemblage, e.g., molecular weight (MW), fraction of aromatic C (Ar), and charge at pH 7 (Z). Empirical quantitative structure activity relationships (QSARs) are developed which permit the estimation of thermodynamic quantities K _ow (the octanol–water partition coefficient) and pK _a (acidity) for each molecule. Root mean square errors for these QSARs are 0.39 log units for log K _ow and 0.45 log units for pK _a. Distributions of both exactly calculated (MW, Ar, Z) and estimated thermodynamic (K _ow, pK _a) properties are examined and compared with published experimental data. Molecular weight distributions from size exclusion HPLC experiments on aquatic NOM are quantitatively similar to simulation results. pH titrations and polarity distributions from reversed-phase HPLC are qualitatively similar to simulation results. This agreement suggests that the agent-based model can be used to explore hypotheses regarding both compositional and thermodynamic properties of NOM. Robert Wetzel—deceased.