磷对奶牛红细胞膜脂质的影响

对１５例临床上有明显低磷血症的奶牛血清磷、红细胞膜脂质成分进行了测定。结果表明，低磷血症奶牛血清磷、红细胞膜磷脂明显降低；红细胞膜胆固醇及膜胆固醇／磷脂摩尔比值（ｎｃｈ／ｎｐｌ）明显升高，与健康对照组牛相比差异极显著（Ｐ＜０．０１）；直线相关分析表明，血清磷与红细胞膜磷脂之间呈极显著正相关（ｒ＝０．９１７，ｙ＝１０．８５２ｘ＋３．１９６，Ｐ＜０．０１）；与红细胞膜胆固醇以及ｎｃｈ／ｎｐｌ之间分别呈显著负相关（ｒ＝－０．９４０，ｙ＝２．８５０ｘ－１．０７２，Ｐ＜０．０１；ｒ＝－０．９２０，ｙ＝１．９６８ｘ－１．４０１，Ｐ＜０．０１）。此外，红细胞膜微粘度与膜磷脂之间呈显著负相关（ｒ＝－０．９５４，ｙ＝１９．１２２ｘ－４．３８４，Ｐ＜０．０１），而与膜胆固醇以及ｎｃｈ／ｎｐｌ之间呈显著正相关（ｒ＝０．９８８，ｙ＝０．９２７ｘ＋０．９６４，Ｐ＜０．０１；ｒ＝０．９７８，ｙ＝－０．２９３ｘ＋１．１１３，Ｐ＜０．０１）。结果表明，磷是红细胞膜脂质成分改变的先决因素，而后者又是红细胞膜流动性及膜结构、功能发生变化并导致膜损伤的一个重要因素。     

益生素预防畜禽腹泻机理的研究

用革兰氏阳性的嗜酸乳杆菌和枯草杆菌的活菌和死菌喂饲了８０只雏鸡，用嗜酸乳杆菌的活菌和死菌喂饲了３７头仔猪和２４头犊牛，观察这些细菌防畜禽腹泻的效果。结果证明这两种细菌的活菌与死菌都有预防腹泻的功能，嗜酸乳杆菌的效果好于枯草杆菌。两种菌的活菌和死菌都有预防作用说明是菌体成分或代谢产物可能是预防腹泻的主要有效成分。     

用免疫荧光、酶标技术检测赭曲霉毒素A的研究

该项研究采用本课题组提纯的赭曲霉毒素A(Ochratoxin A·简称OA)和研制的兔抗OA抗体等,进行间接荧光法和ELISA间接法检测OA的试验。通过对不同浓度的OA纯品和含毒饲料浸提液及中毒死亡鸡内脏的间接荧光染色,均能检出分布均匀、大小有别的黄绿色荧光亮点;用OA为被检抗原和兔抗OA抗体与羊抗兔IgG-HRP进行ELISA间接法试验,对含不同浓度OA的试验孔和对照孔的检测,结果均正确稳定。研究结果证明,以上两种检测方法检测OA均具有灵敏、特异、快速等优点。     

银荆引种育苗试验

报道了引种银荆过程中播种，芽移育苗，苗木生长及其抗冻性，耐涝性，病害发生情况。     

桃需冷量遗传特性的研究

对桃的９个杂交组合４６３株杂种实生苗需冷量进行测定,统计结果表明：桃需冷量是由多基因控制的,Ｆ＿１需冷量平均值较亲中值短,不同组合偏离程度不同,南山甜桃、红日、玛丽维拉、白凤、大久保需冷量育种值分别为１５９、２１６、３１９、８３１、８３４ｈ,遗传传递力分别为７９%、５４%、９２%、８３%、９３%。需冷量的遗传力为８９．６９%。萌芽开花与需冷量密切相关。     

干巴菌根际土壤理化性质的研究

本言语报道昆明小哨和宜良良竹山两地区两种植被类型和两种成土母质发育的土壤上，干巴菌只能在弱酸性的沉积岩类（石灰岩或砂页岩）或河流沉积物类成土母质发育形成的山原红壤的针叶林型的云南松或阔叶林型的麻栎林下生长发育。而其它成土母质形成的土壤中云南松林或麻栎林下，不会长出干巴菌。（２）干巴菌根际土壤必须具有良好的理化性质－－土壤疏松多孔、透水透气和土温传递优良；ＰＨ值在４．５－５．５区间内；土质富含钙和铁     

不同供钙方式对海兰蛋鸡生产性能的影响

576只190日龄蛋用父母代海兰种鸡随机分为3组,分别在常规料供钙、傍晚额外加喂供钙和早晨及下午各供钙一次的三种方式下饲养8周。结果表明:早晨和下午各一次的供钙方式提高了蛋鸡的生产性能,较常规料供钙方式和傍晚额外加喂钙方式蛋重分别提高3.503％(P<0.01)和3.658％(P<0.01),产蛋量提高3.185％(P<0.01)和3.992％(P<0.01),饲料报酬提高4.485％(P<0.01)和5.298％(P<0.01)。大幅度降低了不合格蛋比例,和常规料供钙方式差异显著(P<0.05),额外加喂供钙方式使鸡产沙壳蛋的比例上升,早晨和下午供钙方式显著改善了鸡蛋的蛋壳品质。     

大肠杆菌耐热性肠毒素ST1—K99／LacZ基因重组的研究

将构建的ｐＢＳＴ２～６工程菌质粒用限制性内切酶ＢａｍＨＩ／ＢｇｌⅡ酶切，经琼脂糖凝胶电泳和电洗脱，回收１４７ｂｐ的目的ＳＴ１基因。随之将该基因分别重组到能有效表达Ｋ９９菌毛抗原和ＬａｃＺ酶的ｐＧＫ９９之Ｋ９９基因ＢｇｌⅡ位点和ｐＵＣ１８的ＢａｍＨＩ位点中。通过ＳＴ１基因探针菌落原位杂交、特定酶切分析及ＤＮＡ序列分析，筛选并鉴定出了理想重组子，从而构建出了能分别表达ＳＴ１融合基因产物的工程菌株ｐＳＫ２１９和ｐＸＳＴ１。     

林木瘿螨

概述林木瘿螨研究现状及其亲缘关系,最后扼要地介绍了林木瘿螨的防治。     

Factors influencing decline in soil pH in Hawaiian Eucalyptus and Albizia plantations

Soil pH declined from 5.9 to 5.0 in 8 years beneath plantations of Eucalyptus saligna (Sm.) in Hawaii. In stands of Albizia falcataria, (L.) Fosberg, the soil pH change was more dramatic, declining from 5.9 to 4.6. We measured several components of soil acidity beneath four mixtures of the two tree species to gain insight on the processes responsible for the decline in soil pH. These components were studied using an empirical method of comparing acid quantity, degree of neutralization (depletion of base cations), and acid strength. The decline in soil pH differed between species as a result of differences in the degree of neutralization of the soil exchange complex; the larger decrease in soil pH under Albizia was produced by greater acidification of the exchange complex. Empirical titration curves suggested that differences in acid strength moderated the divergence in soil pH beneath the species. Had the acids accumulating in the soil under Albizia been as strong as those in the Eucalyptus soil, the difference in soil pH would have been greater. Though the two species had contrasting effects on soil pH, the differences in degree of neutralization, responsible for the pH decline, were small compared with differences in the amount of cations stored in tree biomass. Continued supply of nutrient cations (from weathering or fertilization) will ultimately control both the extent of soil pH decline and the level of productivity sustained by the forest.