薇甘菊对其入侵地植物种子萌发和幼苗生长的化感影响

薇甘菊主要入侵我国华南的广东、海南和云南三省，给当地造成了严重的危害，其强烈的化感作用被认为是其成功入侵的原因之一。而目前对薇甘菊化感作用的研究还较少，因而对薇甘菊化感作用的认识还有待深入的研究。另外，在对入侵植物入侵群落进行恢复时，由于入侵植物的凋落物以及生长过的土壤都还含有化感物质，常常导致恢复难以继续。因而选择抗化感能力强的物种来恢复薇甘菊的入侵地也成为该研究的一个主题。本文以薇甘菊为实验材料来研究薇甘菊化感作用对植物种子活力、种子萌发和幼苗生长的影响，同时筛选化感抗性强的物种以进行薇甘菊入侵地的恢复工作。其主要结论如下： 1、薇甘菊根和叶的提取液对植物种子活力、种子萌发和幼苗生长都有很大的抑制作用，并且这种抑制作用随着提取液浓度的升高以及处理时间的延长而加强，这证明了薇甘菊具有很强的化感作用。 2、一些植物种子萌发和幼苗生长在低、中浓度提取液以及高浓度提取液的短时间的处理下能被促进，不过在高浓度的提取液以及长时间的处理下都被抑制，这说明化感作用是抑制还是促进作用在很大程度上受到提取液浓度和处理时间的影响。 3、薇甘菊提取液（50 g L-1）对紫薇(Lagerstroemia indica)、刺槐(Robinia pseudoacacia)、黑麦草(Lolium perenne)和西葫芦（Cucurbita pepo）种子处理50-100 h就能极大的影响到其后的种子萌发和幼苗生长，这说明薇甘菊在短时间（50-100 h）就能给植物产生极强的化感作用，也进一步证实薇甘菊很强的化感作用。 4、由于各物种进化历史的不同，而且各物种在对薇甘菊的化感抗性上也存在着差异，所以各物种对薇甘菊提取液的化感反应也各不相同。 5、薇甘菊根提取液对刺槐和紫薇幼苗根的生长的影响要大于叶提取液对刺槐和紫薇幼苗根的生长的影响，而对刺槐和紫薇种子萌发率、初始萌发时间、萌发速率以及幼苗株高的影响却是叶提取液的化感作用强。这支持了一个新的假设：由于物种间代谢的多样性，至少在根和叶对受试植物根的化感影响方面，对于一些物种来说根的化感作用可能强于叶的化感作用，对于另一些物种来说叶的化感作用可能强于根的化感作用。 6、薇甘菊叶提取液对西葫芦种子活力、种子萌发和幼苗生长的化感影响大，而对其后开花时间以及开花的数目没有明显的影响，这说明薇甘菊对西葫芦生活史前期的化感影响要大于对西葫芦生活史后期的化感影响。 7、薇甘菊叶的水提取液对种子萌发的抑制作用要大于对幼苗生长的抑制作用;对非豆科植物种子萌发的影响要大于对豆科植物种子萌发的影响，而对非豆科植物幼苗生长的影响要小于对豆科植物幼苗生长的影响;对本地种的抑制作用要大于对外来归化种的抑制作用。 本研究证实了薇甘菊强烈的化感作用，根提取液对受体植物幼根生长的影响大于叶提取液对受体植物幼根生长的影响，这种化感作用可能极大的促进了薇甘菊的入侵。另外，在恢复薇甘菊入侵群落时，考虑到薇甘菊的化感作用，理应选择外来的已经归化了的非豆科植物的幼苗。

榴绒粉蚧发生规律及其综合防治研究

：榴城粉蚧是云南蒙自石榴的主要害虫之一，1年发生4代．世代重叠。以成虫、若虫越冬。主要危害代第1，2代 成虫．若虫入果实萼筒中或果与果、果与叶片相接处取食危害，致果皮伤口并将干腐病茵侍入伤口处．果皮伤口经首 次连续降雨雨水浸泡溢出的汁液为干肩病菌提供了生长繁殖条件．谊虫是干腐病的媒介者。一般年份果园有虫株、 果率选85％～95％，75％～90％。采取综合防治后，有虫株、果率降为20％～25％，10％～15％。

Characteristics of blood flow in microchannels and relevant impact on modelling blood behaviour in biochip separators

This paper reports a perspective investigation of computational modelling of blood fluid in microchannel devices as a preparation for future research on fluid-structure interaction (FSI) in biofluid mechanics. The investigation is carried out through two aspects, respectively on physical behaviours of blood flow in microchannels and appropriate methodology for modelling. The physics of blood flow is targeted to the challenges for describing blood flow in microchannels, including rheology of blood fluid, suspension features of red blood cells (RBCs), laminar hydrodynamic influence and effect of surface roughness. The analysis shows that due to the hyperelastic property of RBC and its comparable dimension with microchannels, blood fluid shows complex behaviours of two phase flow. The trajectory and migration of RBCs require accurate description of RBC deformation and interaction with plasma. Following on a discussion of modelling approaches, i.e. Eulerian method and Lagrangian method, the main stream modelling methods for multiphase flow are reviewed and their suitability to blood flow is analysed. It is concluded that the key issue for blood flow modelling is how to describe the suspended blood cells, modelled by Lagrangian method, and couple them with the based flow, modelled by Eulerian method. The multiphase flow methods are thereby classified based on the number of points required for describing a particle, as follows: (i) single-point particle methods, (ii) mutli-point particle methods, (iii) functional particle methods, and (iv) fluid particle methods. While single-point particle methods concentrate on particle dynamic movement, multipoint and functional particle methods can take into account particle mechanics and thus offer more detailed information for individual particles. Fluid particle methods provide good compromise between two phases, but require additional information for particle mechanics. For furthermore detailed description, we suggest to investigate the possibility using two domain coupling method, in which particles and base flow are modelled by two separated solvers. It is expected that this paper could clarify relevant issues in numerical modelling of blood flow in microchannels and induce some considerations for modelling blood flow using multiphase flow methods. © 2012 IEEE.

污水处理厂中浮游生物群落DNA指纹及其与水质指标的关系

以武汉龙王嘴污水处理系统为研究对象,揭示了污水处理各阶段中浮游生物群落的DNA指纹拓扑结构,进而探索了其与浮游生物群落结构和环境理化因子的关系.首先建立了污水处理系统中浮游生物群落总DNA提取方法,然后用原核与真核特异性引物对流程(A2/O氧化沟工艺)中不同阶段的浮游生物群落总DNA进行PCR扩增,用变性梯度凝胶电泳(DGGE)检测,并对平行水样分别进行常规理化因子和浮游生物物种的检测与鉴定.结果显示,各采样点理化因子、物种组成与浮游生物DNA指纹的统计分析结果十分吻合,厌氧、缺氧和好氧阶段间差异较小,进

The design of multi-element airfoils through multi-objective optimization techniques

This paper presents the development and the application of a multi-objective optimization framework for the design of two-dimensional multi-element high-lift airfoils. An innovative and efficient optimization algorithm, namely Multi-Objective Tabu Search (MOTS), has been selected as core of the framework. The flow-field around the multi-element configuration is simulated using the commercial computational fluid dynamics (cfd) suite Ansys cfx. Elements shape and deployment settings have been considered as design variables in the optimization of the Garteur A310 airfoil, as presented here. A validation and verification process of the cfd simulation for the Garteur airfoil is performed using available wind tunnel data. Two design examples are presented in this study: a single-point optimization aiming at concurrently increasing the lift and drag performance of the test case at a fixed angle of attack and a multi-point optimization. The latter aims at introducing operational robustness and off-design performance into the design process. Finally, the performance of the MOTS algorithm is assessed by comparison with the leading NSGA-II (Non-dominated Sorting Genetic Algorithm) optimization strategy. An equivalent framework developed by the authors within the industrial sponsor environment is used for the comparison. To eliminate cfd solver dependencies three optimum solutions from the Pareto optimal set have been cross-validated. As a result of this study MOTS has been demonstrated to be an efficient and effective algorithm for aerodynamic optimizations. Copyright © 2012 Tech Science Press.

长江宜宾江段渔业资源调查

国务院三峡办和中国长江三峡工程开发总公司资助项目[SX(98)-15/KHB/JS]

Multi-objective optimization of a fluid structure interaction benchmarking

The integration and application of a new multi-objective tabu search optimization algorithm for Fluid Structure Interaction (FSI) problems are presented. The aim is to enhance the computational design process for real world applications and to achieve higher performance of the whole system for the four considered objectives. The described system combines the optimizer with a well established FSI solver which is based on the fully implicit, monolithic formuFlation of the problem in the Arbitrary Lagrangian-Eulerian FEM approach. The proposed solver resolves the proposed uid-structure interaction benchmark which describes the self-induced elastic deformation of a beam attached to a cylinder in laminar channel ow. The optimized ow characteristics of the aforementioned geometrical arrangement illustrate the performance of the system in two dimensions. Special emphasis is given to the analysis of the simulation package, which is of high accuracy and is the core of application. The design process identifies the best combination of ow features for optimal system behavior and the most important objectives. In addition, the presented methodology has the potential to run in parallel, which will significantly speed-up the elapsed time. Finite Element Method (FEM), Fluid-Structure Interaction (FSI), Multi-Ojective Tabu search (MOTS2). Copyright © 2013 Tech Science Press.

A 40 Gb/s optical bus for optical backplane interconnections

Optical technologies have received large interest in recent years for use in board-level interconnects. Polymer multimode waveguides in particular, constitute a promising technology for high-capacity optical backplanes as they can be cost-effectively integrated onto conventional printed circuit boards (PCBs). This paper presents the first optical backplane demonstrator based on the use of PCB-integrated polymer multimode waveguides and a regenerative shared bus architecture. The backplane demonstrator is formed with commercially-available low-cost electronic and photonic components onto conventional FR4 substrates and comprises two opto-electronic (OE) bus modules interconnected via a prototype regenerator unit. The system enables interconnection between the connected cards over four optical channels, each operating at 10 Gb/s. Bus extension is achieved by cascading OE bus modules via 3R regenerator units, overcoming therefore the inherent limitation of optical bus topologies in the maximum number of cards that can be connected to the bus. Details of the design, fabrication, and assembly of the different parts of this optical bus backplane are presented and related optical and data transmission characterisation studies are reported. The optical layer of the OE bus modules comprises a four-channel three-card waveguide layout that is compatible with VCSEL/PD arrays and ribbon fibres. All on-board optical paths exhibit insertion losses below 13 dB and intra-channel crosstalk lower than -29 dB. The robustness of the signal distribution from the bus inputs to all respective bus output ports in the presence of input misalignment is demonstrated, while 1 dB input alignment tolerances of approximately ±10 μm are obtained. The electrical layer of the OE bus modules comprises the essential driving circuitry for 1×4 VCSEL and PD arrays and the corresponding control and power regulation circuits. The interface between the optical and electrical layers of the bus modules is achieved with simple OE connectors that enable end-fired optical coupling into and out of the on-board polymer waveguides. The backplane demonstrator achieves error-free (BER < 10-12) 10 Gb/s data transmission over each optical channel, enabling therefore, an aggregate interconnection capacity of 40 Gb/s between any connected cards. © 1983-2012 IEEE.

Ultrathin FBG pressure sensor with enhanced responsivity

An ultrathin fiber Bragg grating pressure sensor with enhanced sensitivity is demonstrated. A novel piston-like diaphragm with a hard core in the center is used as the sensing element to enhance the responsivity. Both the theoretical analysis and the experimental results show that the Young's modulus of the diaphragm and the radius of the hard core have significant effect on the pressure responsivity. By optimizing these two parameters, a pressure responsivity of 7 nm/MPa has been achieved.

Second-Order Raman Scattering from n- and p-Type 4H-SiC

The results of second-order Raman-scattering experiments on n- and p-type 4H-SiC are presented,covering the acoustic and the optical overtone spectral regions.Some of the observed structures in the spectra are assigned to particular phonon branches and the points in the Brillouin zone from which the scattering originates.There exists a doublet at 626/636cm-1 with energy difference about 10cm-1 in both n- and p-type 4H-SiC,which is similar to the doublet structure with the same energy difference founded in hexagonal GaN,ZnO, and AlN.The cutoff frequency at 1926cm-1 of the second-order Raman is not the overtone of the A1(LO) peak of the n-type doping 4H-SiC,but that of the undoping one.The second-order Raman spectrum of 4H-SiC can hardly be affected by doping species or doping density.