海峡西岸经济区生态系统格局特征分析

运用景观生态学的空间格局指数法,结合遥感和GIS技术,研究海峡西岸经济区(海西区)2007年生态系统组成及景观格局特征,以期为海西区资源的合理利用及生态环境保护等工作提供科学依据。研究表明:海西区主要由森林、草地、农田、水域、湿地、城镇和荒地构成;海西区斑块数量较多,形状简单,破碎化程度较低,景观整体比较完整,多样性不高,异质性较低,稳定性较高;森林是海西区的优势景观类型,呈规模化集中分布;草地和农田是海西区重要景观类型,斑块数量最多,分布零散;湿地斑块形状最为规则,表明人类对其进行了良好的保护和利用;城镇和荒地的结构特征最差,表明其稳定性差,受人为干扰强烈;水域的景观特征处于中间水平。     

基于析因设计的多种重金属对发光菌联合毒性研究

文章采用析因设计的方法,研究沉积物水浸提液掺杂的多种重金属Cu、Cd、Zn、Pb和Ni对发光菌的联合毒性。通过对试验结果进行方差分析和多元线性回归,建立了重金属浓度和发光菌发光抑制率的关系模型:T=97.983Cu+41.111Cd-27.297Zn+129.869Pb+16.715Ni-5 803.639Cu*Cd+2 270.182Cd*Zn-6 411.870Cd*Pb-675.052Cd*Ni-3 108.544Pb*Ni+15 9552.434Cd*Pb*Ni+274 718.434Zn*Pb*Ni。模型分析结果表明:Zn对联合毒性产生负的影响,Cu、Cd、Pb、Ni对联合毒性具有正的贡献;Cd*Zn二元交互作用和Cd*Pb*Ni、Zn*Pb*Ni三元交互作用表现为协同作用,Cu*Cd、Cd*Pb、Cd*Ni、Pb*Ni二元交互作用表现为拮抗作用,而重金属四元和五元交互作用对联合毒性的贡献不显著。上述重金属联合毒性的作用可为沉积物中重金属复合污染控制提供参考。     

Management strategies to mitigate the impacts of climate change on sea turtle’s terrestrial reproductive phase

Climate change poses a serious threat to sea turtles (Cheloniidae) as their terrestrial reproductive phase is only successful within a limited range of environmental and physical conditions. These conditions are likely to become less optimal as climate change progresses. To date, management and conservation of sea turtles has focused almost entirely on non-climatic stressors, due at least in part to practitioners not knowing what strategies to take and the feasibility and risks of potential strategies. To aid the management of sea turtles in a changing environment, we identified management strategies via a focus workshop and surveys to mitigate the impacts of climate change to the terrestrial reproductive phase of sea turtles. The effectiveness, ecological risks and potential social and logistical constraints associated with implementing each of the identified management strategies is discussed. Twenty management strategies were identified; strategies varied from habitat protection to more active and direct manipulation of nests and the nesting environment. Based on our results, we suggest a three-pronged approach to sea turtle conservation in light of climate change, where managers and researchers should: 1) enhance sea turtle resilience to climate change by mitigating other threats; 2) prioritise implementing the ‘no regret’ and ‘reversible’ management strategies identified here; and 3) fill the knowledge gaps identified to aid the trial and implementation of the potential strategies identified here. By combining these three approaches our collective toolkit of sea turtle management strategies will expand, giving us an array of viable approaches to implement as climate change impacts become more extreme.     

基于多线程技术的中国海风暴潮数值预报可视化程序开发

首先简要介绍了中国海的风暴潮及灾害情况,对杭州湾一带的风暴潮进行了重点阐述。在风暴潮二维数值模型FBM的基础上开发了具有可视化界面的数值计算程序,能直观的显示风暴潮发展时历,包括风暴潮最大增水、台风风向和移速。采用了多线程技术,可节省时间,程序具有Windows风格的人机交互界面,操作方便。通过几个算例测试,本程序计算结果符合工程预报需要,可为同类研究做一些参考,具有推广意义。     

近江牡蛎Crassostrea hongkongensis体内细菌的周年变化及细菌产酶能力

对近江牡蛎体内异养细菌进行1周年的监测(2010年1月～2010年12月),分离得到的异养菌(180株)鉴定到属,并检测产生蛋白酶、淀粉酶和脂肪酶的能力。结果显示,正常贝体内异养菌和弧菌数分别为7.3×103～6.6×104CFU/g和8.0×10～8.2×103CFU/g,随机分离的菌株分属肠杆菌科的部分属Enterbacteriaceae、弧菌属Vibrio、气单胞菌属Aeromonas、假单胞菌属Pseudomonas、葡萄球菌属Staphylococcus、发光杆菌属Photobacterium、无色杆菌属Achromobacter、芽孢杆菌属Bacillus等。产酶试验结果表明,正常贝体分泌蛋白酶和纤维素酶的菌株数量最高出现于9月份,产酶菌株比例分别高达91.7%和63.9%,分泌淀粉酶和脂肪酶菌株数量高峰出现于7月份,产酶菌株比例均达81.8%,其中15株能同时分泌这4种酶。     

Dimensional analysis and scaling in mechanical mixing for fabrication of metal matrix nanocomposites

For a successful enhancement of mechanical properties of metal matrix nanocomposites, a homogeneous nanoparticle dispersion and distribution in the solidified metal is required. Mechanical mixing can be used for initial break-up of agglomerates, and its study can be simplified with dimensional analysis. Using this technique, mixing time and vortex height were assessed while varying fluid properties, impeller angle, and angular speed. Three relevant dimensionless numbers were recognized: the Reynolds (Re), Froude and Galilei (Ga) numbers. Based on blade and impeller shaft angles, a modified Froude number (Fr*) was defined. These parameters were calculated experimentally, varying angular speed from 200 to 1000 rpm for three different impeller angles: 0°, 15° and 30°. This procedure was performed with three fluids: water, and two aqueous glycerin solutions (25% and 50% by volume). Digital images were taken and processed to measure vortex height. Mixing time was measured for water at 0° impeller angle, angular speed ranging from 200 to 1200 rpm. Results showed an optimal dimensionless mixing time with respect to Re. A linear relationship was found between dimensionless vortex height and Fr*. The first had a second order polynomial relationship with the product ReFr*, regardless of impeller angle. This relationship, together with the Ga, specific for each fluid, allows scaling the results to other fluids such as molten pure aluminum. This study allows experimenting in simpler systems that involve transparent fluids, room temperature and low cost, to then elaborate a prediction of vortex height in fluids where measurements are difficult and costly, such as molten metals.     

Analysis of machined surface quality in a single-pass of ball-end milling on Inconel 718

The ball-end milling process is widely used for generating three-dimensional sculptured surfaces with definite curvature. In such cases, variation of surface properties along the machined surface curvatures is not well understood. Therefore, this paper reports the effect of machining parameters on the quality of surface obtained in a single-pass of a ball-end milling cutter with varying chip cross-sectional area. This situation is analogous to generation of free form cavities, pockets, and round fillets on mould surfaces. The machined surfaces show formation of distinct bands as a function of instantaneous machining parameters along the periphery of cutting tool edge, chip compression and instantaneous shear angle. A distinct variation is also observed in the measured values of surface roughness and micro-hardness in these regions. The maximum surface roughness is observed near the tool tip region on the machined surface. The minimum surface roughness is obtained in the stable cutting zone and it increases towards the periphery of the cutter. Similar segmentation was observed on the deformed chips, which could be correlated with the width of bands on the machined surfaces. The sub-surface quality analysis in terms of micro-hardness helped define machining affected zone (MAZ). The parametric effects on the machining induced shear and residual stresses have also been evaluated.     

Modeling and interpretation of fiber orientation-based failure mechanisms in machining of carbon fiber-reinforced polymer composites

The development and implementation of a microstructure-based finite element model for the machining of carbon fiber-reinforced polymer composites is presented. A new approach to interfacial modeling is introduced where the material interface is modeled using continuum elements, allowing failure to take place in either tension or compression. The model is capable of describing the fiber failure mode occurring throughout the chip formation process. Characteristic fiber length in the chips, and machining forces for microstructures with fibers orientated at 0°, 45°, 90°, and 135° are examined. For model validation purposes, the model-based machining performance predictions are compared to the machining responses from a set of orthogonal machining experiments. A parametric study is presented that identifies a robust tool geometry, which minimizes the effects of fiber orientation and size on the machining forces.     

Automated micro-transfer printing with cantilevered stamps

This paper demonstrates the use of a flexible instrumented stamp to enable automated micro transfer printing as a route to large-area, deterministic assembly of microstructured device components or ‘inks’. The ability to instrument the stamp, a critical component for retrieval and placement of a micro device, to detect contact and monitor localized forces during critical events in the printing process not only allows for the development of a robust manufacturing process, but also for a unique vantage point from which to study fundamental issues and phenomena associated with adhesion and delamination of thin films from a variety of substrate materials. This paper presents basic design analysis on the requirements of the cantilevers for compatibility with a typical transfer printing environment. Off-the-shelf thin film strain gages are integrated with a thin elastomeric post as a preliminary prototype and the feasibility of transfer printing with it is demonstrated. Further, the set-up is calibrated to produce force signals for event detection and in situ diagnosis of the process.     

Does safety climate moderate the influence of staffing adequacy and work conditions on nurse injuries?

PROBLEM: Hospital nurses have one of the highest work-related injury rates in the United States. Yet, approaches to improving employee safety have generally focused on attempts to modify individual behavior through enforced compliance with safety rules and mandatory participation in safety training. We examined a theoretical model that investigated the impact on nurse injuries (back injuries and needlesticks) of critical structural variables (staffing adequacy, work engagement, and work conditions) and further tested whether safety climate moderated these effects. METHOD: A longitudinal, non-experimental, organizational study, conducted in 281 medical-surgical units in 143 general acute care hospitals in the United States. RESULTS: Work engagement and work conditions were positively related to safety climate, but not directly to nurse back injuries or needlesticks. Safety climate moderated the relationship between work engagement and needlesticks, while safety climate moderated the effect of work conditions on both needlesticks and back injuries, although in unexpected ways. DISCUSSION AND IMPACT ON INDUSTRY: Our findings suggest that positive work engagement and work conditions contribute to enhanced safety climate and can reduce nurse injuries.