双刺纺锤水蚤（Acartia bifilosa）基础生物学与生态学研究

20世纪90年代以来，为了确保日益增长的人口对蛋白质的需求，海洋鱼类养殖在全球范围内日趋发展。然而，许多养殖鱼类的品质如抗病力、口味等与野生种类相比大为降低。饵料对于鱼类品质的好坏起着至关重要的作用。在海洋的自然环境中，浮游动物，特别是数量庞大、种类繁多的桡足类是野生鱼类的天然活饵料。哪些桡足类适于作养殖饵料，如何获得、从何处获得桡足类，人工培养是否可行，能否通过加入桡足类来改善养殖鱼类的品质是长期以来业内人士一直关注的问题，需要大量的基础性探索研究工作。 开展有潜在开发价值种的生物学特性及室内培养的基础研究，进而开展大量生产技术的研究与应用，不仅是开发利用桡足类的一个重要途径，而且可以获得一些重要的生态学参数。 本论文自2003年10月－2004年9月之间，在胶州湾采集不同的桡足类种类，通过室内比较培养实验，选定双刺纺锤水蚤作为具有开发潜力的研究培养对象，对其展开一系列培养条件及生物学特性研究，在此基础上进行了小水体增殖培养，结合现场调查资料对与其生活策略相关的生态学问题进行了初步研究探索。结果如下： 筛选：2003年10月－2004年9月全年不同季节共采集11 种桡足类，在室内自然温度、自然海水（盐度30－32）下长时间培养，粗略筛选出能够经受实验室人工养殖水体生活的种类有：强额拟哲水蚤（Paracalanus. crassirostris）、汤氏长足水蚤（Calanopia thompson）、太平洋真宽水蚤（Eurytemora pacifica）、双刺纺锤水蚤（Acartia bifilosa）。对上述种类的成体和子代幼体分别测定其对不同盐度、温度的耐受能力。培养结果表明：18℃室温下，强额拟哲水蚤幼体在盐度20以上的环境中，存活时间不超过11天；汤氏长足水蚤雌体在培养温度低于20℃时，只能存活10天；25℃室温下，当盐度低于20时，汤氏长足水蚤雌体存活时间不超过9天，子代的存活时间不超过7天；太平洋真宽水蚤不适宜在温度较高的夏秋季培养，幼体在不同盐度的实验条件下存活时间不超过5天，不适宜长期培养；双刺纺锤水蚤在全年8－24℃的室内培养温度范围内保持了24－85％的存活率，雌体和子代在盐度10－35的范围内都能存活，最终结果表明双刺纺锤水蚤是其中最适宜进行人工培养的种类。 繁殖：对双刺纺锤水蚤雌体的培养条件和繁殖生物学的研究结果表明：在本实验所使用的6种微藻饵料：微绿球藻（Nannochloropsis oculata）、小球藻（Chlorella.sp）、等鞭金藻（Isochrysis galbana）、三角褐指藻(Phaeodactylum tricornutum)、亚心型扁藻(Platymonas subordiformis)、中肋骨条藻(Skeletonema costatum)中，亚心型扁藻和中肋骨条藻适宜成体培养，亚心型扁藻对雌体存活有利，排粪率也要比中肋骨条藻低得多，亚心型扁藻在高温条件下的饵料利用效率要高于中肋骨条藻，中肋骨条藻对产卵有利，二者混合优势互补；预饥饿处理的双刺纺锤水蚤恢复到最高产卵率需要较长的时间，并且一直保持较低的产卵率；该种繁殖的最适温度范围15－20℃；在10－25℃温度范围内的平均产卵率差异并不显著。 生长及发育：对双刺纺锤水蚤幼体培养条件及发育生物学研究结果表明：在本实验所使用的6种微藻饵料中，微绿球藻是比较理想的开口饵料；粒径小（ 4 m）的微藻——微绿球藻和小球藻不能保证双刺纺锤水蚤后期无节幼体发育至桡足阶段，22℃以下采用微绿球藻 + 亚心型扁藻 + 中肋骨条藻的食物搭配，22℃以上需加入粒径在4m左右的等鞭金藻。 世代时间：通过一系列的温度梯度实验，证明在相同饵料的情况下，温度对双刺纺锤水蚤的发育具有显著的影响，在15－25℃的范围内，随着温度的升高，生长速度加快、世代周期缩短；在温度条件为15、18、20、22、25℃下的世代时间分别为25.5, 18.5, 13, 11.5, 9.5天。 群体培养：研究了适宜的微藻饵料种类搭配比例以及总饵料浓度对种群日均增值率的影响。结果表明：20℃下培养宜采用亚心型扁藻：中肋骨条藻：微绿球藻按含碳量2:1:1的比例组成混合饵料，达到最高增殖率的混合饵料浓度范围在1.0－4.0 μg C ml-1之间；25℃下培养宜采用亚心型扁藻：中肋骨条藻：微绿球藻：等鞭金藻按含碳量2:1:1:2的比例组成混合饵料，日均增殖率在混合饵料总浓度为1.0 μg C ml-1 时最高，低于和高于此浓度都会降低日增值率。 度夏机制：针对野外大面调查发现双刺纺锤水蚤在高温季节的胶州湾内仍然存在的事实（传统观点认为该种在夏季从水体中消失，通过休眠卵度夏），本论文从基础生态学研究出发，根据胶州湾夏季的温度和叶绿素浓度资料，设计实验研究了高温和饵料浓度对成体繁殖和幼体生长发育的影响。实验发现，饵料浓度对高温下雌体的繁殖有着明显的影响，15g Chla l-1浓度下的雌体在28℃都可以保持产卵状态，而且卵的孵化率也在50％以上；各处理中的卵都很快孵化，并保持了60％以上的孵化率；高浓度组15 g Chla l-1和10 g Chla l-1，无节幼体都能发育至成体，低浓度5 g Chla l-1处理组中，28℃下，不能发育至桡足阶段，而25℃下也只能发育至C4期。在本实验中没有发现双刺纺锤水蚤产生休眠卵。在胶州湾自然环境中发现该种全年存在。胶州湾中的双刺纺锤水蚤在夏季能够在不产生休眠卵的情况下安全度夏。

Effect of Microtopography, Slope Length and Gradient, and Vegetative Cover on Overland Flow Through Simulation

Overland flow on a hillslope is significantly influenced by its microtopography, slope length and gradient, and vegetative cover. A 1D kinematic wave model in conjunction with a revised form of the Green-Ampt infiltration equation was employed to evaluate the effect of these surface conditions. The effect of these conditions was treated through the resistance parameter in the kinematic wave model. The resistance in this paper was considered to be made up of grain resistance, form resistance, and wave resistance. It was found that irregular slopes with microtopography eroded more easily than did regular slopes. The effect of the slope gradient on flow velocity and flow shear stress could be negative or positive. With increasing slope gradient, the flow velocity and shear stress first increased to a peak value, then decreased again, suggesting that there exists a critical slope gradient for flow velocity and shear stress. The vegetative cover was found to protect soil from erosion primarily by enhancing erosion-resisting capacity rather than by decreasing the eroding capability of overland flow.

Influences of strain rate and temperature variation on material intrinsic length of plasticity strain gradient theory

Cowper-Symonds and Johnson-Cook dynamic constitutive relations are used to study the influence of both strain rate effect and temperature variation on the material intrinsic length scale in strain gradient plasticity. The material intrinsic length scale decreases with increasing strain rates, and this length scale increases with temperature.

Distinct Element Analysis on Propagation Characteristics of P-Wave in Rock Pillar with Finite length

以节理岩体等效刚度的概念为基础,讨论了离散元刚性块体模型中节理刚度的选取问题。采用面-面接触模型模拟了纵波在一维岩体中的传播,给出了纵波波形；研究了阻尼比、软弱夹层以及节理间是否可拉对波传播规律的影响。

Experimental Study on the Thermal Argon Plasma Generation and Jet Length Change Characteristics at Atmospheric Pressure

The generation, jet length and flow-regime change characteristics of argon plasma issuing into ambient air have been experimentally examined. Different torch structures have been used in the tests. Laminar plasma jets can be generated within a rather wide range of working-gas flow rates, and an unsteady transitional flow state exists between the laminar and turbulent flow regimes. The high-temperature region length of the laminar plasma jet can be over an order longer than that of the turbulent plasma jet and increases with increasing argon flow rate or arc current, while the jet length of the turbulent plasma is less influenced by the generating parameters. The flow field of the plasma jet has very high radial gradients of plasma parameters, and a Reynolds number alone calculated in the ordinary manner may not adequately serve as a criterion for transition. The laminar plasma jet can have a higher velocity than that of an unsteady or turbulent jet. The long laminar plasma jet has good stiffness to withstand the impact of laterally injected cold gas and particulate matter. It could be used as a rather ideal object for fundamental studies and be applied to novel materials processing due to its attractive stable and adjustable properties.

飞行高度及设计长度对锥形流乘波体优化的影响 Altitude and Design Length Effects of Optimized Waverider Derived from Cone Flow

高超声速条件下,乘波体布局具有高升阻比特性,本文应用单纯形加速法,以最大升阻比为目标,开展了锥形流乘波体布局优化设计研究.特别是,研究了在高层大气飞行时雷诺数效应与气动特性的关系,从乘波体飞行高度与设计长度两方面探讨雷诺数对乘波体优化的影响,结果表明：给定设计马赫数和圆锥角情况下,对于最大升阻比优化乘波体,其雷诺数越小,摩擦阻力越大,而升阻比越低.

Effects of the Spanwise Characteristic Length on the Transition Feature in the Wake of a Cylinder

The transition features of the wake behind a uniform circular cylinder at Re = 200, which is just beyond the critical Reynolds number of 3-D transition, are investigated in detail by direct numerical simulations of 3-D incompressible Navier-Stokes equations. The spanwise characteris-tic length determines the transition features and global properties of the wake.

Effects of Molecular Length, Ortientation and Amino Acid Mutation on Kinetics of Selectin/Ligand interactions

Receptor/ligand interactions are basic issues to cell adhesion, which are important to many physiological and pathological processes such as lymphocyte-mediated cytotoxicity, tumor metastasis and inflammatory reactionl. Selectin/carbohydrate ligand bindings have been found to mediate the fast rolling of leukocytes on activated endothelial monolayer. Kinetic rate and binding affinity constants are essential determinants of cell adhesion...

Effects Of The Length Of A Cylindrical Solid Shield On The Entrainment Of Ambient Air Into Turbulent And Laminar Impinging Argon Plasma Jets

When materials processing is conducted in air surroundings by use of an impinging plasma jet, the ambient air will be entrained into the materials processing region, resulting in unfavorable oxidation of the feedstock metal particles injected into the plasma jet and of metallic substrate material. Using a cylindrical solid shield may avoid the air entrainment if the shield length is suitably selected and this approach has the merit that expensive vacuum chamber and its pumping system are not needed. Modeling study is thus conducted to reveal how the length of the cylindrical solid shield affects the ambient air entrainment when materials processing (spraying, remelting, hardening, etc.) is conducted by use of a turbulent or laminar argon plasma jet impinging normally upon a flat substrate in atmospheric air. It is shown that the mass flow rate of the ambient air entrained into the impinging plasma jet cannot be appreciably reduced unless the cylindrical shield is long enough. In order to completely avoid the air entrainment, the gap between the downstream-end section of the cylindrical solid shield and the substrate surface must be carefully selected, and the suitable size of the gap for the turbulent plasma jet is appreciably larger than that for the laminar one. The overheating of the solid shield or the substrate could become a problem for the turbulent case, and thus additional cooling measure may be needed when the entrainment of ambient air into the turbulent impinging plasma jet is to be completely avoided.

新型可控坍塌芯片连接技术(C4)及芯下材料力学性能研究进展

可控坍塌芯片连接 (C4)技术可以实现高速、高密度、小外形的封装 ,因此日渐得到关注和发展。然而 ,随着C4技术的普及 ,C4封装内由于芯片和基板间热膨胀系数 (CTE)的不匹配而引起的可靠性问题将日益突出 ,为此研究者在C4封装中引入芯下材料来提高C4封装的可靠性。文中侧重于制造工艺、可靠性以及最新进展对C4技术进行介绍 ,并且对C4技术中所用的芯下材料的力学性能及其对C4封装可靠性影响的研究现状进行评述

Discussions on slip length measurements by microPIV/PTV in microchannels

Fluid transportation in microfluidic system could be benefit from the slip on solid-liquid interface. Slip length on many kinds of hydrophilic/hydrophobic surfaces have been measured recently. The two common-used experimental methods for boundary slip measurement include: (1) surface force measurement, such as surface force apparatus (SFA), atom force microscope (AFM), and (2) velocity measurement, like microPIV/PTV (Particle image velocimetry / Particle tracking velocimetry), total internal reflection velocimetry (TIRV). However, the measured results are rather scattered, larger measured slip lengths were reported by microPIV/PTV experiments. In this paper, we will investigate the deviations of the measured slip length on smooth hydrophilic surface. After measuring detailed velocity profiles very close to hydrophilic glass wall, we give a discussion on the effects influencing the slip measurements.

Complex Transition of Double-Diffusive Convection in a Rectangular Enclosure with Height-to-Length Ratio Equal to 4: Part I

This is the first part of direct numerical simulation (DNS) of double-diffusive convection in a slim rectangular enclosure with horizontal temperature and concentration gradients. We consider the case with the thermal Rayleigh number of 10^5, the Pradtle number of 1, the Lewis number of 2, the buoyancy ratio of composition to temperature being in the range of [0,1], and height-to-width aspect ration of 4. A new 7th order upwind compact scheme was developed for approximation of convective terms, and a three-stage third-order Runge-Kutta method was employed for time advancement. Our DNS suggests that with the buoyancy ratio increasing form 0 to 1, the flow of transition is a complex series changing fromthe steady to periodic, chaotic, periodic, quasi-periodic, and finally back to periodic. There are two types of periodic flow, one is simple periodic flow with single fundamental frequency (FF), and another is complex periodic flow with multiple FFs. This process is illustrated by using time-velocity histories, Fourier frequency spectrum analysis and the phase-space rajectories.

A block SPP algorithm for multidimensional tridiagonal equations with optimal message vector length

A parallel strategy for solving multidimensional tridiagonal equations is investigated in this paper. We present in detail an improved version of single parallel partition (SPP) algorithm in conjunction with message vectorization, which aggregates several communication messages into one to reduce the communication cost. We show the resulting block SPP can achieve good speedup for a wide range of message vector length (MVL), especially when the number of grid points in the divided direction is large. Instead of only using the largest possible MVL, we adopt numerical tests and modeling analysis to determine an optimal MVL so that significant improvement in speedup can be obtained.

On optimal message vector length for block single parallel partition algorithm in a three-dimensional ADI solver

It has long been recognized that many direct parallel tridiagonal solvers are only efficient for solving a single tridiagonal equation of large sizes, and they become inefficient when naively used in a three-dimensional ADI solver. In order to improve the parallel efficiency of an ADI solver using a direct parallel solver, we implement the single parallel partition (SPP) algorithm in conjunction with message vectorization, which aggregates several communication messages into one to reduce the communication costs. The measured performances show that the longest allowable message vector length (MVL) is not necessarily the best choice. To understand this observation and optimize the performance, we propose an improved model that takes the cache effect into consideration. The optimal MVL for achieving the best performance is shown to depend on number of processors and grid sizes. Similar dependence of the optimal MVL is also found for the popular block pipelined method.

Absolute measurement of roughness and lateral-correlation length of random surfaces by use of the simplified model of image-speckle contrast

We present a method of image-speckle contrast for the nonprecalibration measurement of the root-mean-square roughness and the lateral-correlation length of random surfaces with Gaussian correlation. We use the simplified model of the speckle fields produced by the weak scattering object in the theoretical analysis. The explicit mathematical relation shows that the saturation value of the image-speckle contrast at a large aperture radius determines the roughness, while the variation of the contrast with the aperture radius determines the lateral-correlation length. In the experimental performance, we specially fabricate the random surface samples with Gaussian correlation. The square of the image-speckle contrast is measured versus the radius of the aperture in the 4f system, and the roughness and the lateral-correlation length are extracted by fitting the theoretical result to the experimental data. Comparison of the measurement with that by an atomic force microscope shows our method has a satisfying accuracy. (C) 2002 Optical Society of America.