Plant Responses to Herbivory,Wounding, and Infection

Plants have various self-defense mechanisms against biotic attacks, involving both physical and chemical barriers. Physical barriers include spines, trichomes, and cuticle layers, whereas chemical barriers include secondary metabolites (SMs) and volatile organic compounds (VOCs). Complex interactions between plants and herbivores occur. Plant responses to insect herbivory begin with the perception of physical stimuli, chemical compounds (orally secreted by insects and herbivore-induced VOCs) during feeding. Plant cell membranes then generate ion fluxes that create differences in plasma membrane potential (Vm), which provokes the initiation of signal transduction, the activation of various hormones (e.g., jasmonic acid, salicylic acid, and ethylene), and the release of VOCs and SMs. This review of recent studies of plant–herbivore–infection interactions focuses on early and late plant responses, including physical barriers, signal transduction, SM production as well as epigenetic regulation, and phytohormone responses.     

高压直流输电线路对通信明线影响的仿真研究

如何评价高压直流输电线路直流谐波对附近通信明线的影响,对确保通信线路正常、安全运行,以及直流输电工程的建设有着十分重要的意义.根据强电线路对弱电线路的耦合影响理论,高压直流输电线路对通信明线的影响分为危险影响和干扰影响两部分,本文介绍了高压直流输电线路对通信明线影响的原理及计算分类,以及目前国内主要的高压直流输电线路对通信明线影响的限值,并对不同参数变化下的静电感应电压和杂音电动势变化情况进行了仿真,得出了结论,为直流工程设计提供了一些参考.最后给出了具体模型进行了计算.     

Crosstalk between Growth and Osmoregulation of GHRH-SST-GH-IGF Axis in Triploid Rainbow Trout (Oncorhynchus mykiss)

Smolting is an important development stage of salmonid, and an energy trade-off occurs between osmotic regulation and growth during smolting in rainbow trout (Oncorhynchus mykiss). Growth hormone releasing hormone, somatostatin, growth hormone and insulin-like growth factor (GHRH-SST-GH-IGF) axis exhibit pleiotropic effects in regulating growth and osmotic adaptation. Due to salmonid specific genome duplication, increased paralogs are identified in the ghrh-sst-gh-igf axis, however, their physiology in modulating osmoregulation has yet to be investigated. In this study, seven sst genes (sst1a, sst1b, sst2, sst3a, sst3b, sst5, sst6) were identified in trout. We further investigated the ghrh-sst-gh-igf axis of diploid and triploid trout in response to seawater challenge. Kidney sst (sst1b, sst2, sst5) and sstr (sstr1b1, sstr5a, sstr5b) expressions were changed (more than 2-fold increase (except for sstr5a with 1.99-fold increase) or less than 0.5-fold decrease) due to osmoregulation, suggesting a pleiotropic physiology of SSTs in modulating growth and smoltification. Triploid trout showed significantly down-regulated brain sstr1b1 and igfbp2a1 (p < 0.05), while diploid trout showed up-regulated brain igfbp1a1 (~2.61-fold, p = 0.057) and igfbp2a subtypes (~1.38-fold, p < 0.05), suggesting triploid trout exhibited a better acclimation to the seawater environment. The triploid trout showed up-regulated kidney igfbp5a subtypes (~6.62 and 7.25-fold, p = 0.099 and 0.078) and significantly down-regulated igfbp5b2 (~0.37-fold, p < 0.05), showing a conserved physiology of teleost IGFBP5a in regulating osmoregulation. The IGFBP6 subtypes are involved in energy and nutritional regulation. Distinctive igfbp6 subtypes patterns (p < 0.05) potentially indicated trout triggered energy redistribution in brain and kidney during osmoregulatory regulation. In conclusion, we showed that the GHRH-SST-GH-IGF axis exhibited pleiotropic effects in regulating growth and osmoregulatory regulation during trout smolting, which might provide new insights into seawater aquaculture of salmonid species.     

构件库模糊查询技术研究

本文研究了在构件库管理系统中模糊查询理论,引入新概念,在此基础上给出了一种领域字典库 Ｄ Ｄ Ｄ 的定义、构造算法及构件库模糊查询算法。     

一种结合区域检测和语义分割的SLAM技术

提出一种结合区域检测和语义分割的即时定位和建图（SLAM）技术，通过引入高精度图像描述子SIFT来实现前端视觉里程计（VO）过程中帧间像素匹配的精度。为了降低引入操作带来的计算复杂度，设计一个实时区域检测算法，在相邻帧间检测大致相似的ROI(Region of Interest)关键区域，使得SIFT描述子的提取和匹配只在ROI区域内完成，其余区域仍旧采用精度略低、效率更高的ORB算子。同时，为了提高后端BA(Bundle Adjustment)的精度，减少累积误差，结合语义图，在原有的基本投影误差函数上添加一个语义误差。该语义图采用实时语义分割算法完成，同时只针对ROI区域进行分割。通过与原SLAM方案对比实验，表明本文提出的方法，在提高一定精度的同时，仍能满足SLAM实时定位和建图的要求。最后，在电力作业场景下验证了该方案的效果。     

循环流化床锅炉点火系统的数值模拟分析

循环流化床(CFB)锅炉点火系统主要以风道燃烧器为主。风道燃烧器在实际运行时,燃油着火和燃尽性能不是很理想,会出现火焰贴壁、壁面结焦等现象,因此对CFB锅炉点火系统进行数值模拟研究。针对内蒙古某电厂CFB锅炉风道燃烧器实际燃烧工况,选用非结构化有限元体积网格模型进行数值模拟。通过对点火系统的数值模拟和实测结果比较分析,验证了针对内蒙古某电厂CFB锅炉点火系统进行理论模拟所设置的物理模型和边界条件是符合实际的,理论模拟和实测结果的相对误差在10%范围内,结果较为理想。说明利用FLUENT软件对点火系统内温度场及压力场的情况进行模拟分析是可行的,对同类电厂具有一定的参考价值。     

射频电容液位计在海上溢油液位检测中的应用

简单介绍了射频电容液位计进行油水双液位检测的基本原理,阐述了海上溢油回收检测装置的基本构造及其工作过程。针对海上特殊应用环境的测量需求,提出分别按油、按水标定的液位检测方案。油水混合状态下,对2组实验测试数据进行误差和线性度的数值计算,通过曲线拟合对比分析,最终确定了海上溢油回收集油箱油位检测的最优化方案—按油标定检测。实验证明,该方案可以满足现场实际测量环境的要求,液位计的测量精度高、线性度好。     

数—模综合仿真接口算法分析

针对微电网的推广应用还面临着诸多技术难题的问题,将电力系统数字仿真与物理模拟各自的优点与不足结合起来,充分发挥各自优势便可形成数模综合仿真模型,该模型将在微电网技术研究中发挥重大的作用。数模综合仿真接口是数模综合仿真系统的核心部件,而接口算法的选取是数模综合仿真接口设计的基础。在总结现有算法的基础上重点分析了理想变压器模型的稳定性,提出加强稳定性的有效措施及不稳定情况的处理方案。最后,通过算例仿真验证了各措施的有效性。     

CMOS器件p、γ、β辐照损伤等效剂量分析计算

建立了CMOS电子元器件中质子、电子和光子辐照损伤 (电子 空穴对和离位原子浓度 )计算模型。利用微机化的电子 光子簇射过程模拟程序EGS4和TRIM程序分别计算了电子 ( β)、光子 (γ)和质子 ( p)辐照在CMOS器件各层中产生的电子 空穴对和离位原子浓度。计算结果表明 ,在CMOS器件桥结绝缘层中 ,电子产生的电子 空穴对和离位原子浓度最高 ,光子次之 ,质子最低 ,这表明电子辐照损伤最高 ,光子次之 ,质子最小。