5龄蚕立体条桑育研究

研究了5龄立体饲育架制作，条桑收获及饲养技术，明确了全年采用立体条桑育对蚕茧产质量及桑树秋末生长的关系，条桑收获及饲育是一项省工高效的养蚕技术。     

应用热脉冲技术对小美旱杨耗水量的研究

应用热脉冲对河套灌区农田防护小美旱杨（Populus popular’s）日蒸腾耗水量进行了研究。结果表明：在正常生长状态下，小美旱杨的日蒸腾耗水量变化曲线呈宽峰状，随着林龄增加，日蒸腾耗水量逐渐增加，在不同水分条件下,灌水时日蒸腾耗水量：萌生苗日蒸腾耗水量大于扦插日蒸腾耗水量。     

黑龙江省西部地区重瓣白玫瑰引种栽培及繁育技术

经在黑龙江省齐齐哈尔地区对重瓣白玫瑰引种栽培及繁育技术研究表明：该树种　１９９７～２０００年的平均抗寒指数为　２．７，冻害小于Ⅲ级，枝条冻伤长度小于　５０％，能正常开花，可以在此安家落户。同时对其形态特征、主要物候期、繁育技术和抚育管理作了介绍。     

基于网络技术的电力系统通信及调度方案设计

电力网络传输距离长、覆盖面广，利用电力网络实现通信和控制具有很大的发展潜力。为此,介绍了网络技术的发展及特点，并结合电力系统自身的优势，对电力系统通信方案进行了设计。     

虚拟仪器技术及其在距离保护中的

介绍了虚拟仪器的发展过程以及虚拟仪器的软件与硬件的基本构成原理,设计了一套虚拟仪器系统，并在此基础上对距离保护进行了仿真实验。认为虚拟仪器在电力系统具有广泛的应用前景，是今后一段时间的发展方向。     

特优175高产结构分析和配套栽培技术探讨

特优175分蘖力中强、穗大粒重、株型理想、高产稳产.经调查分析,其高产结构中,以每穗结实粒数的变异(cv=17.20%)最大,与产量相关最密切(r=0.591 1**,对产量的通径(p=1.035 6)和净贡献率(pr=0.612 1)最大;其次为有效穗(cv=10.40%,p=0.709 5,r=0.184 4,pr=0.130 8);千粒重是品种的稳定性状,对产量的贡献有限.每公顷产量7 500 kg左右的适宜产量结构为:每公顷250万穗,每穗结实120粒、千粒重28 g左右.在保持一定的穗数下,较高的每穗结实粒数是高产栽培的主攻重点.配套栽培技术是:(1)适时播种,培育壮秧;(2)适时移栽,合理密植(每公顷基本苗150～180万);(3)合理调控水肥,每公顷施纯氮150～180 kg,氧化钾120～160 kg,五氧化二磷60～80 kg;(4)综合防治病虫害.     

RAPD技术对地方鸡种群体遗传结构的分析

利用ＲＡＰＤ技术对４个地方鸡种和１个引进鸡种的群体遗传结构进行分析，通过筛选的５个随机引物ＯＰＨ－０２、ＯＰＨ－０５、ＯＰＨ－１３、ＯＰＨ－１６、ＯＰＧ－０７对５个鸡种的池ＤＮＡ进行多态性研究，结果表明：５个引物共产生条带６１个，扩增产物片段的长度一般从１５０ｂｐ－４ｋｂ。     

日本落叶松在四川引种栽培的初步研究

报道了日本落叶松在四川20多年来的引种。栽培试验结果,证明引种是成功的。并进一步探讨了日本落叶松在四川各地的引种效果和树种生态适应性,提出了按四川自然地理分区和森林分区为基础的引种适生区划分标准。综合分析认为日本落叶松应成为四川省中山地带和高山峡谷区低海拔地带主要速生丰产造林树种之一。     

Genetic Engineering Approaches to Pig Production*

Modern biotechnology promises a number of new applications in animal breeding and production. Although conventional pig breeding has achieved a high level of efficiency and productivity numerous problems have been encountered with animal health and the loss of meat quality. Selection based on phenotypic performance data of individual animals does not take into account the importance of specific genes and their relevance within a complex regulatory system. In most cases it is therefore difficult to trace back the genetic origins of clinically important disorders. The application of genetic engineering techniques in pig production will facilitate diagnosis, improvement of productivity, and animal health by allowing direct genetic manipulation. Attention must be focussed on the physical and genetic analysis of the procine genome. The isolation and characterisation of genes, DNA-markers, polymorphic DNA-fragments, and their chromosomal assignment will be important prerequisites and tools for the elucidation of genetic disorders. Especially the detection of heterozygous carriers of recessive disorders and their elimination from the breeding stock will increase selection accuracy and decrease the generation intervals. But also the rapid and simple detection of infectious diseases, which is sometimes difficult if not impossible at present, will improve animal health and welfare. Although the production of transgenic animals either by DNA-microinjection into zygotes or the use of embryonal stem cells manipulated in vitro is less straightforward than DNA-based diagnosis it will play an important role in the direct manipulation of the porcine genome and genes. Breeding programmes including the use of transgenic livestock have already been developed. There is no doubt that genetic engineering has reached a degree of practical feasibility, allowing it to play an important role in pig breeding in particular and animal production in general.     

木瓜剖分原理研究及新机型设计

针对我国目前对木瓜剖半设备研究较少,剖切方式不合理,切割效果差等问题,设计开发了新型木瓜剖半机。该机切割方式选用滑切切割的方式,由运料系统、切割系统、出料系统组成,设计合理,结构简单。为此,计算了滑切角、切割角等主要切割参数,并给出了新型剖半机的主要技术参数。试验表明:该机切割效果好,能够有效提高生产效率。