泵站配电变压器优化选型设计研究

根据泵站排涝运行特点，从降低变压器损耗入手，采用综合经济比较等优化选型方法，从初选的三种系列变压器方案中优选出最佳方案，以取得良好的综合效益。     

智能粮食水分测试仪的研制

给出以AT89C52单片机为核心的粮食水分测试仪的硬件结构组成,并详细介绍了信号处理和测量方法;通过对传感器的标定并进行相应的数据处理。通过实验发现,该仪器使用方便,测量精度高。     

多孔管沿程压力分析

针对目前多孔管沿程水头损失计算方法存在的问题,推导出了一个新的多孔管沿程水头损失近似计算公式。利用导出的公式,分析了多孔管沿程的压力变化,这无论是对喷、滴灌工程的规划设计,还是对多孔管水力特性的进一步研究都是有益的。     

Transpiration response of two bread wheat lines differing in drought resilience and their backcross parent under dry-down conditions

Improving wheat productivity in drylands largely depends on how plants manage limited water resources. Using fraction of transpirable soil water threshold (FTSW_Th) and drought stress response function, we characterized the water conservation traits of two wheat multiple synthetic derivative lines (MSD53 and MSD345) which both contain introgressed segments from Aegilops tauschii but differ in drought resilience. The lines and their backcross parent, ‘Norin 61’, were subjected to dry-down conditions. MSD53 had a higher FTSW_Th for transpiration decrease than ‘Norin 61’ and MSD345. In terms of drought stress response function, MSD53 had the lowest threshold suction, suggesting a lower drought resilience capacity compared with MSD345. However, MSD53 exhibited an effective-water-use trait whereas MSD345 exhibited a water-saving trait under dry-down conditions. These results are consistent with the reported higher yield of MSD53 in comparison with MSD345 under drought stress in Sudan, and demonstrate that high FTSW_Th supports effective water use for improved agricultural productivity in drylands. The differences in water conservation traits between the two MSD lines may be attributed to variation in introgressed segments, which can be further explored for drought resilience breeding.     

我国水产品全产业链损耗研究

本文通过调研水产品在流通、加工、贮藏和零售四个产业链环节的损耗情况,对不同类型水产品损耗原因和差异进行分析,提出降低我国水产品产业链损耗的建议措施.单一水产品品种的损耗率数据通过调研直接获得,水产品(整体)及各品类产业链损耗率基于2008-2019年水产品品类及品种产量结构加权计算所得.结果显示:2008-2019年,...     

当前我国农业保险发展的主要问题及对策建议

我国农业保险正面临着极好的发展机遇,出现了良好的发展势头,但目前仍然存在制约我国农业保险发展的诸多因素,主要是:农业风险本身的可保性差;农业保险经营技术落后;农民收入低,政府投入少;以及法律法规建设的缺位等。我国农业保险要健康有序的发展,必须改进农业保险经营技术;建立有效的再保险机制;增加政府投入,逐步实行以支持农业保险为主的农业保护政策;加快农业保险立法进程,使农业保险走上规范化制度化发展的轨道。     

基于EDEM小麦收获机清选损失监测试验装置设计

针对小麦损失监测传感器结构复杂、成本较高的问题,对收获机清选排杂口不同物料运动特性进行研究,揭示小麦与秸秆撞击敏感板的作用规律,从清选抛出物冲击敏感板的力学特性出发,设计一种小麦收获机清选损失监测试验装置。通过离散元分析软件EDEM分析小麦籽粒、50mm秸秆、100mm秸秆撞击敏感板产生的作用力,分析接触力变化曲线,证明可通过判断物料撞击敏感板产生的信号进行损失监测。为增强信号采集准确率,采用两片压电传感器串联的方式,增大损失信号。设计损失监测试验台机械结构及控制系统,使监测装置模拟收获机清选排杂过程且可以实时监测信号,有效提高监测效率。最后,通过不同高度物料运动损失监测试验,得出300mm高度下传感器识别较为精准,对小麦籽粒的识别率达到98.4%,整体监测误差小于5%,损失监测试验装置能够达到设计目的和要求。     

基于改进YOLOv5算法的农田杂草检测

随着智慧农业技术和大田种植技术的不断发展,自动除草具有广阔的市场前景。关于除草剂自动喷洒的有效性,农田杂草的精准、快速地识别和定位是关键技术之一。基于此提出一种改进的YOLOv5算法实现农田杂草检测,该方法通过改进数据增强方式,提高模型泛化性;通过添加注意力机制,增强主干网络的特征提取能力;通过改进框回归损失函数,提升预测框的准确率。试验表明,在芝麻作物和多种杂草的复杂环境下,本文方法的检测平均精度均值mAP为90.6%,杂草的检测平均精度AP为90.2%,比YOLOv5s模型分别提高4.7%和2%。在本文试验环境下,单张图像检测时间为2.8 ms,可实现实时检测。该研究内容可以为农田智能除草设备提供参考。     

Heterologous expression of the ThIPK2 gene enhances drought resistance of common wheat

Th IPK2 is an inositol polyphosphate kinase gene cloned from Thellungiella halophila that participates in diverse cellular processes. Drought is a major limiting factor in wheat(Triticum aestivum L.) production. The present study investigated whether the application of the Th IPK2 gene could increase the drought resistance of transgenic wheat. The codon-optimized Th IPK2 gene was transferred into common wheat through Agrobacterium-mediated transformation driven by either a constitutive maize ubiquitin promoter or a stress-inducible rd29 A promoter from Arabidopsis. Molecular characterization confirmed the presence of the foreign gene in the transformed plants. The transgenic expression of Th IPK2 in wheat led to significantly improve drought tolerance compared to that observed in control plants. Compared to the wild type(WT) plants, the transgenic plants showed higher seed germination rates, better developed root systems, a higher relative water content(RWC) and total soluble sugar content, and less cell membrane damage under drought stress conditions. The expression profiles showed different expression patterns with the use of different promoters. The codon-optimized Th IPK2 gene is a candidate gene to enhance wheat drought stress tolerance by genetic engineering.