3PZ-6000型智能苹果植保机设计

为减小果树的病虫害影响，设计一种3PZ-6000型智能苹果植保机。该机结构紧凑，具有可升降轴流风送式喷雾装置、液力驱动无级变速履带式行走机构。并配备无线射频控制平台，可实现对机器启停、速度和药量调整等智能控制，极大提高苹果植保环节的作业效率，经济、生态和社会效益明显，是促进苹果生产全程机械化的一种重要机型。      

健康和患根腐病西洋参根水提液化感作用差异性分析

以黄瓜、萝卜和白菜种子为试材,采用西洋参水提液处理的方法,研究了不同浓度的健康和患根腐病西洋参水提液对3种受试植物种子萌发率、幼苗下胚轴长、根长和鲜质量的影响,分析健康和患根腐病西洋参的差异性化感作用,以期为进一步筛选和鉴定差异化感物质提供参考依据.结果 表明:患根腐病西洋参水提液分别在25000 mg·L-1和2500 mg·L-1显著抑制黄瓜和白菜种子萌发,抑制率最高分别为37.25％和24.00％,而健康西洋参水提液则无明显抑制作用.此外,患根腐病西洋参水提液也明显降低了黄瓜、白菜、萝卜幼苗的根长和下胚轴长,抑制了幼苗的生长,而健康西洋参水提液不明显.总体上表明健康和根腐病西洋参水提液对黄瓜、萝卜和白菜种子的化感作用存在显著差异性.     

枯草芽孢杆菌在番茄病害防治上的应用与研究进展

综述了枯草芽孢杆菌在防治植物病害中的生防机制,包括竞争作用、拮抗作用、溶菌作用、诱导植物产生抗性和促进植物生长5个方面,介绍了枯草芽孢杆菌在6种番茄病害即灰霉病、青枯病、早疫病、立枯病、枯萎病、根腐病防治中的应用,并对其应用中存在的主要问题进行了总结、前景进行了展望。     

杉木组培苗生根质量优化研究

从两个方面优化杉木[Cunninghamia lanceolata(Lamb.)Hook.]组培苗生根质量,一是在增殖阶段对其进行高浓度和低浓度激素培养基交替处理以优化组培芽苗的质量,从而达到优化杉木组培苗生根质量;二是在生根阶段改变光源,以优化杉木组培苗生根质量。结果表明,高浓度激素和低浓度激素交替处理后的杉木增殖芽苗,具有增殖率高、生长快、节间距适中、木质化程度较高等表观性状,且这些性状随着继代次数的增加表现比较稳定,增殖芽接种到生根培养基后,生根率最高达到86.5%,生根数量最高达到2.7条。LED复合光源红蓝光配比为2∶1时生根率最高,达到86.7%;在红蓝光配比为4∶1时生根数量最高,达到2.8条。     

Preparation of Atherosclerosis Model Using Guangxi Bama Mini-pig

The atherosclerosis (AS) model was prepared in Guangxi Bama mini-pig,and the atherosclerosis index (AI) was preliminarily identified in occurrence of AS to provide the basis for the preparation of related models.20 Guangxi Bama mini-pigs were randomly divided into control group and experimental group which were fed with high fat and cholesterol diet to prepare the AS model.Blood biochemical indexes were detected in the process of model preparation and the correlation between AI and the results of vascular slices was analyzed to initially draw up AI of AS.The results of vascular slices showed that the incidence rates of AS of Guangxi Bama mini-pigs in experimental group and control group were 20% and 0,respectively.The association analysis between the results of vascular slices and AI in the pathogenic Guangxi Bama mini-pigs preliminarily suggested that AI was above 3.8 and lasted for more than 3 months during the attack.     

Development of Nucleic Acid Lateral Flow Immunoassay Detection Method for Foot-and-mouth Disease Virus

In this article, through the combination of nucleic acid probes and immune chromatography, a simple, sensitive and specific detection system——nucleic acid lateral flow immunoassay (NALFIA) for amplifing foot-and-mouth disease virus (FMDV) 3D RT-PCR products was established.An ultrasensitive nucleic acid biosensor (NAB) based on streptavidin-labeled gold nanoparticles dual labels and lateral flow strip biosensor (LFSB) were used in this system.The biotinylated goat anti-rabbit IgG was marked to the NC membrane as the alleged strip and the anti-digoxin antibody was labeled to the NC membrane to capture the digoxin probe.After assemblying gold-labeled strip and detecting RT-PCR products, the detection limit of NALFIA was 0.3×10^-3 to 3×10^-3 μg/μL.The NALFIA was compared with agar gel electrophoresis analysis, the results showed that the sensitivity of NALFIA was higher than agar gel electrophoresis.There was an excellent agreement between the two methods.NALFIA was a method with high sensitive, low cost and short time.In conclusion, this method provided a good alternative to detect FMDV.