从牛胃中分离微生物发酵秸秆的研究

试验目的主要是模拟反刍动物发酵作物秸秆多元菌,提高作物秸秆的利用率。通过对稻草秸秆的微贮发酵,提高秸秆的适口性和消化率,而且经过微贮的秸秆饲料成本低、污染少、效率高、经济、安全且利于工业化生产。与单纯饲喂秸秆饲料或饲喂氨化饲料相比,微贮饲料可分别使肉牛增质量提高22.59和8.64kg,增质量速度提高28.33%和8.44%,育肥效果显著,经济效益明显,可操作性强。微贮秸秆技术的推广与应用,不仅可以解决我国大量秸秆资源利用效率不高这一难题,而且可以减少环境污染,促进农业生产和农村经济的发展,增加农民收入,改善人民的肉食结构,提高人民的生活水平,并且为建立节粮型畜牧业结构,更好地发展可持续生态畜牧业做出巨大贡献。     

伊犁地区薰衣草产业发展现状及对策

伊犁是全国最大的薰衣草种植基地,薰衣草作为该区的特色作物给当地经济带来很大效益,为团场增效、职工增收、边疆社会稳定做出贡献。薰衣草除了提炼薰衣草精油和制作干花产品外,在园林观赏、食品、饮料、医疗保健、美容等领域也具有广阔的市场,以薰衣草产业为龙头,可带动其它相     

小黑麦属一新种

本新种系作者以节节麦(Triticum tauschii,DD,2n=14)作母本,与森林黑麦(Secale sylvestre,RSRS,2n=14)杂交,经染色体加倍而合成的双二倍体,其染色体组为DDRSRS,2n=4x=28。本文详细描述了该新种的形态。考虑到Krolow在1973年合成过类似的双二倍体,因此将本新种定名为Triticale rolowii(克氏小黑麦)。     

夏秋蚕新品种浒花、秋星的育成及其一代杂交种的选配

根据长江流域夏秋季的气候特点,采用杂交、回交、系统分离、活蛹缫丝和多代高温多湿环境定向培育等育种方法,分别育成了中系蚕品种“浒花”和日系蚕品种“秋星”。两者都具有抗性强、丝量高、茧丝质优以及繁育容易等特点。其一代杂交种经多次实验室鉴定、农村生产鉴定、试养以及全国蚕品种审定结果表明:该新品种体质强健、孵化、眠起、老熟齐一,茧丝量高,茧层率22％;鲜毛茧出丝率15—16％,茧丝品质优良、解舒率74％,净度93分,茧丝纤度2.53/D,茧丝长超1000m。     

稀土对亚麻产质量效果的研究

对黑龙江省亚麻主要栽培品种──黑亚三号,采用稀土硝酸盐—“农乐一号”,有效成分为３８．７％,对每公顷种予用６００ｇ稀土拌种,能提高亚麻生理功能,并对产质量构成因素有重要促进作用。说明用适量的稀土拌种对亚麻有增加产量,提高纤维品质的效果。     

应用花药培养技术培育苹果新类型

通过对苹果不同品种花培植株的试管苗及其高接树的染色体数目观察,看到大部分为单倍体,还有其他倍性的植株.幼龄期元帅花培植株的植物学性状与原品种元帅之间有显著差异,表现分枝多、有针刺、叶片小而薄、茸毛少、有缺刻等野生性状.在花培植株之间,也表现有明显的差别.田间高接后,花培植株随树龄增长逐渐向栽培性状转化,元帅花培植株元80—3已开始结果,表现出明显的短枝型特征.     

THE CLIMATE CHANGE AND FORESTRY OF HEILONGJI ANG PROVINCE IN 1990''''S

INTRODUCTIONIntheworldoftoday,theglobalclimatechangeanditsinfluenceonecologyhavebe-comeaveryimportantproblem,towhichmanyscientists,governnentleadersandordinarypcoplepaycloseattentionI1-'].Inl979,theWorldClimateResearchProgram(WCP)waslaiddowninthefirstworldclimatemeeting.lnl99(),thesecondworldclimatemeetingwasconvcl1edinGencva,andalltl1eexpertsagreedthattheglobalwarmlngwillbeextremelyseriousdisasterthananynatUralcalamityever.Attl1eMectingof"WorldEnvironmentandDevelopment,"holdinBrazil…     

‘Plantibodies’: a flexible approach to design resistance against pathogens

Engineering resistance against various diseases and pests is hampered by the lack of suitable genes. To overcome this problem we started a research program aimed at obtaining resistance by transfecting plants with genes encoding monoclonal antibodies against pathogen specific proteins. The idea is that monoclonal antibodies will inhibit the biological activity of molecules that are essential for the pathogenesis. Potato cyst nematodes are chosen as a model and it is thought that monoclonal antibodies are able to block the function of the saliva proteins of this parasite. These proteins are, among others, responsible for the induction of multinucleate transfer cells upon which the nematode feeds. It is well documented that the ability of antibodies to bind molecules is sufficient to inactivate the function of an antigen and in view of the potential of animals to synthesize antibodies to almost any molecular structure, this strategy should be feasible for a wide range of diseases and pests.Antibodies have several desirable features with regard to protein engineering. The antibody (IgG) is a Y-shaped molecule, in which the domains forming the tips of the arms bind to antigen and those forming the stem are responsible for triggering effector functions (Fc fragments) that eliminate the antigen from the animal. Domains carrying the antigen-binding loops (Fv and Fab fragments) can be used separately from the Fc fragments without loss of affinity. The antigen-binding domains can also be endowed with new properties by fusing them to toxins or enzymes. Antibody engineering is also facilitated by the Polymerase Chain Reaction (PCR). A systematic comparison of the nucleotide sequence of more than 100 antibodies revealed that not only the 3′-ends, but also the 5′-ends of the antibody genes are relatively conserved. We were able to design a small set of primers with restriction sites for forced cloning, which allowed the amplification of genes encoding antibodies specific for the saliva proteins ofGlobodera rostochiensis. Complete heavy and light chain genes as well as single chain Fv fragments (scFv), in which the variable parts of the light (V_L) and heavy chain (V_H) are linked by a peptide, will be transferred to potato plants. A major challenge will be to establish a correct expression of the antibody genes with regard to three dimensional folding, assembly and intracellular location.     

新型杀蜂螨烟剂蜂乐1号的研究

蜂乐1号烟剂是一种最近研制成功的新型杀蜂螨药剂,其有效成分为溴螨酯.经室内外试验结果,对蜂螨有较强杀伤力,对蜜蜂十分安全.烟剂中的溴螨醋对雅氏大蜂螨的LC_(50)为0.26克/米~3,LC_(95)为2.92克/米~3 对蜜蜂则分别为71.45克/米~3和218.70克/米~3,二者分别相差274.8倍和74.9倍.一平箱蜂群一次用含0.45克有效成分的药,对蜂体上大蜂螨的防除效果平均93%以上.对蜂群每隔5天施药一次,经3次施药后蜂群状况正常.在施药3次后对所取蜜样进行检测,其中溴螨酯的残留量远远低于联合国粮农组织所规定的参考限量.该烟剂适于在蜂箱外施药,比目前国内一般的开箱施药方法提高工效15倍以上,更适用于许多过去不便用药的场合.     

茭白肉质茎膨大过程中的糖代谢与激素含量变化

 以单季茭白品种‘蒋墅茭’和双季茭白品种‘葑红早’为试材, 研究了秋季肉质茎膨大过程中物质运转的相关生理生化变化。结果表明, 随着肉质茎鲜质量、干质量快速增加, 非结构性碳水化合物主要成分含量总体上升, 后期出现下降, 蒋墅茭肉质茎中蔗糖含量较高; 糖分转化关键酶活性总体较高,转化酶活性以酸性转化酶较高且呈快速下降, 蒋墅茭的酸性转化酶活性高于葑红早而中性转化酶活性较低;蔗糖合成酶的分解方向活性显著高于合成方向, 且后期维持较高水平, 葑红早的双向活性均高于蒋墅茭;Z + ZR总体含量最高、下降最明显, GA₄ 其次, IAA也呈缓慢下降趋势, GA₃、ABA含量极低, 且各激素均以葑红早高于蒋墅茭。茭白肉质茎干、鲜质量处于快速增长阶段的同时, 而内部生理生化快速下降, 说明茭白肉质茎膨大过程具有特殊性, 并且品种间存在差异。