Arduino物联网系统在连栋大棚中的选型与设计

针对物联网技术在设施蔬菜种植研发及应用成本过高的现状,提出了一种应用于连栋蔬菜大棚的物联网系统选型及构建方案,该方案以Arduino单片机(WeMos D1)为核心,选用性价比高的传感器和开源免费的软件系统,以较低的经济成本和技术难度实现连栋大棚的空气温湿度、二氧化碳浓度、土壤含水量、光照强度的实时监测以及设施控制,为农业信息技术开发人员提供了一种新的技术解决方案。     

Preparation and Characterization of Tilapia Collagen-Thermoplastic Polyurethane Composite Nanofiber Membranes

Marine collagen is an ideal material for tissue engineering due to its excellent biological properties. However, the limited mechanical properties and poor stability of marine collagen limit its application in tissue engineering. Here, collagen was extracted from the skin of tilapia (Oreochromis nilotica). Collagen-thermoplastic polyurethane (Col-TPU) fibrous membranes were prepared using tilapia collagen as a foundational material, and their physicochemical and biocompatibility were investigated. Fourier transform infrared spectroscopy results showed that thermoplastic polyurethane was successfully combined with collagen, and the triple helix structure of collagen was retained. X-ray diffraction and differential scanning calorimetry results showed relatively good compatibility between collagen and TPU.SEM results showed that the average diameter of the composite nanofiber membrane decreased with increasing thermoplastic polyurethane proportion. The mechanical evaluation and thermogravimetric analysis showed that the thermal stability and tensile properties of Col-TPU fibrous membranes were significantly improved with increasing TPU. Cytotoxicity experiments confirmed that fibrous membranes with different ratios of thermoplastic polyurethane content showed no significant toxicity to fibroblasts; Col-TPU fibrous membranes were conducive to the migration and adhesion of cells. Thus, these Col-TPU composite nanofiber membranes might be used as a potential biomaterial in tissue regeneration.     

Effects of exosomes derived from hypoxia-preconditioned umbilical cord mesenchymal stem cells on function of endothelial cells

AIM To investigate the effect of exosomes derived from hypoxia-preconditioned human umbilical cord mesenchymal stem cells (hUCMSCs) on proliferation, migration and tube formation of human umbilical vein endothelial cells (HUVECs). METHODS hUCMSCs and HUVECs were isolated, cultured and identified. Exosomes derived from hUCMSCs were extracted by ultracentrifugation. The morphological change of exosomes was observed under transmission electron microscope. The particle size and concentration of exosomes were detected by nanoparticle tracking analysis, and the surface specific marker proteins of exosomes were determined by Western blot. hUCMSCs were divided into normoxia group and hypoxia group. The viability of hUCMSCs was measured by CCK-8 assay. HUVECs were divided into control group, normoxic exosome group and hypoxic exosome group. The proliferation of HUVECs was detected by EdU assay. The migration ability was detected by cell scratch assay and Transwell experiment. Tube formation ability was evaluated by tube formation experiment. RESULTS Compared with normoxia group, hypoxia pretreatment enhanced the viability and exosome release of hUCMSCs. Compared with normoxic exosome group, hypoxic exosomes enhanced the proliferation, migration and tube formation of HUVECs. CONCLUSION Exosomes derived from hUCMSCs under hypoxia enhances the proliferation, migration and tube formation of HUVECs.     

不同基质对闭鞘姜生长发育和光合作用的影响

采用随机区组设计,研究不同配比的红壤、泥炭、椰糠和珍珠岩6种基质配方对闭鞘姜生长的影响。测定6种基质的物理和化学性质,观测萌芽率、叶片数、茎粗、株高、株幅、光合日变化、根茎鲜重和根茎干重。结果显示,基质S4（泥炭+椰糠+珍珠岩=1∶2∶2）的植株净光合速率（P_n）显著高于其他基质处理。在6种基质生长的植株叶片净光合速率曲线呈单峰或双峰变化,而蒸腾速率曲线呈单峰变化。最大株高、最大根茎鲜重和根茎干重也出现在基质S4种植的植株。从以上结果可知,基质S4比较适合闭鞘姜的生长和根状茎干物质积累。     

PVX病毒载体介导2种马铃薯Y病毒科病毒VPg蛋白表达诱导烟草叶片系统坏死的研究

芜菁花叶病毒（Turnip mosaic virus, TuMV）和槟榔坏死环斑病毒（Areca plam necrotic ringspot virus, ANRSV）是马铃薯Y病毒科（Potyviridae）中分别可诱导十字花科作物和槟榔产生坏死病症的2种不同属病毒。VPg（Viral protein genome linked）作为与马铃薯Y病毒科病毒基因组5′端的结合蛋白,在病毒复制、翻译和运动等侵染过程中发挥重要作用。本研究利用In-Fusion克隆策略分别构建了可表达3′端融合Strep蛋白标签序列的ANRSV和TuMV VPg全长编码基因的马铃薯X病毒（Potato virus X, PVX）载体pPVX-VPg-AR和pPVX-VPg-Tu。通过农杆菌渗透注射接种本生烟（Nicotiana benthamiana）,利用RT-PCR、Strep蛋白标签亲和层析和Western blot等方法证明了PVX病毒载体能够介导VPg-AR和VPg-Tu蛋白在本生烟中系统表达,且发现这2种VPg蛋白的过量表达诱导本生烟叶片产生了不同程度的系统性坏死病症。进一步采用DAB和NBT染色,在产生坏死症状叶片中检测到大量活性氧（reactive oxygen species, ROS）的积累。因此,推测VPg可能是TuMV和ANRSV诱发植物病症产生的一个决定因子,为后续研究这2种病毒诱导症状形成机制奠定了基础。     

除草剂对作物产生药害的原因及治理对策

本文论述了我国除草剂使用过程中作物产生药害的主要原因和除草剂药害的治理对策。提出:除草剂使用不合理,除草剂和作物本身的因素,异常的环境条件是药害产生的主要原因。杜绝假冒伪劣及不合格产品,加强除草剂试验、示范、推广工作,深化除草剂应用技术研究,加强农民用药技术水平培训是除草剂安全使用应解决的问题。     

民勤绿洲现代农业发展对策

民勤绿洲是以农业为主的经济实体,绿洲生态环境局部好转、总体恶化,可持续发展形势严峻,在绿洲内部进行现代农业生产,尤为重要和关键。本文分析了民勤绿洲农业发展的优劣势和现代农业发展中存在的问题,提出了民勤绿洲现代农业发展的具体对策,以期为当地可持续发展提供科学依据。     

玉嘧磺隆原药的高效液相色谱分析

本文叙述了高效液相色谱外标法测定玉嘧磺隆含量的方法,方法的标准偏差为0.13,变异系数为0.14%,线性相关系数为0.9997,回收率为99.7%～100.4%。     

菠萝灌溉施肥技术研究进展

季节性干旱是限制菠萝增产提质增效的重要原因,发展“以水促肥,以肥促产,水肥高效耦合”的现代灌溉施肥技术,是应对季节性干旱,促进菠萝增产提质增效的重要途径。本文从华南地区季节性干旱时空分布特征、干旱胁迫对菠萝生长发育的影响、我国菠萝水肥管理现状、灌溉施肥技术对菠萝生长发育的影响等4个方面简要阐述了我国菠萝灌溉施肥技术发展的必要性,重点从现代灌溉施肥方式、耗水规律和养分吸收规律等3方面总结了菠萝灌溉施肥技术研究进展,并结合研究进展提出我国菠萝灌溉施肥技术目前存在的问题,探讨未来可能的研究重点和发展方向,为菠萝灌溉施肥技术的研究与应用提供参考。     

桃蚜高效氯氰菊酯抗药性与乙酰胆碱酯酶的关系

于室内对桃蚜进行高效氯氰菊酯抗药性筛选,选育至10代后抗性倍数增长到49.9倍。生化分析表明,抗性品系乙酰胆碱酯酶(AChE)活性均显著高于敏感品系。比较两个品系乙酰胆碱酶活性个体频率分布发现,更多的桃蚜个体向酶活性高的区域分布。酶动力学测定结果显示,抗性桃蚜酯酶对底物的Vmax、Km显著大于敏感品系。