红松实生种子园建园技术研究

建立红松种子园,培育遗传品质优良的繁殖材料,对于发展扩大红松阔叶林资源,加快培育红松优质材后备资源,具有重要意义,同时还可为红松食用种子林建设提供重要参考。本文根据红松实生种子园系列研究结果和生产经验,总结提出了包括优树选择标准和方法、播种苗培育和定植方法在内的红松第一代实生种子园营建技术及包括土壤管理、树体管理、抚育管理、病虫害防治、档案管理等内容的红松第一代实生种子园的经营管理技术。     

山葡萄"双红"组培快繁技术的研究

对山葡萄“双红”组培快繁技术的研究结果表明:B5培养基为最佳基本培养基,BA0.03 mg.L-1 IBA0.2 mg.L-1为最佳激素水平配比,生根率达100%;年增殖次数8.5次,每次增殖倍数3.2倍,年增殖倍数为27.2倍;移栽炼苗平均成活率为92.5%,圃地定植成活率可达99.9%。     

微波固样方法研究与应用

采用4种不同微波固样工艺以常规蒸汽固样为对照进行了研究比较,认为用微波火Ⅳ3min（加盖）固样→摊凉→微波火Ⅰ连续8min（敞开）烘至八成千→烘箱烘至足干的方法可替代常规蒸汽固样,特别适合茶树育种单株早期鉴定时样品总数多、单个样品量少的固样。     

野生大豆种质资源对大豆疫霉根腐病抗性评价

由大豆疫霉菌引起的大豆疫霉根腐病是严重影响大豆生产的毁灭性病害之一.防治该病经济有效的方法是抗病育种,而抗性资源筛选又是抗病育种的基础.本研究采用下胚轴伤口接种法,用黑龙江省的大豆疫霉菌的1号优势生理小种对来自全国19个省份的415份野生大豆资源进行了抗性鉴定,表现抗病的有96份,占总鉴定资源的23.1%,表现中抗的资源有152份,占36.6%,表现感病的资源有167份,占40.2%.根据野生大豆的来源分析发现,在我国,抗性野生大豆资源分布较广泛.     

Modelling optimal timing and frequency of insecticide sprays for knockdown in preparation for other control measures

A modelling investigation was conducted into optimizing the number of sprays and inter-spray interval to reduce an insect population to a low level, for example, prior to pheromone trapping or the release of sterile males. The model population was age-structured and density-dependent. If spray mortality is 100% for each spray, then the ideal spraying schedule is easily determined from the durations of the various life stages. For spray mortality of less than 100%, a simulation was used to determine optimal spraying schedules. Relative length of the larval period, fertility rate and age to first oviposition were found to be the most important biotic parameters for this determination. Their importance is magnified as spray mortality decreases. The stage targeted by sprays and the percent mortality caused by each spray are also important in determining the required number of sprays. Using medfly (Ceratitis capitata Wiedmann) biotic parameters as an example when the spray targets adults, it appeared that neither the stage at which density-dependent mortality takes effect, nor the form of the adult survivorship curve are important in determining the optimal spray schedule.     

禾田稻2号选育技术报告

禾田稻2号(代号松辽628)是公主岭市松辽农业科学研究所以白粳1为母本、长白19为父本,双亲配组,有性杂交,后代材料经世代选拔培育,系谱法、穿梭育种,最终选育而成的水稻新品种.该品种株高适中、株型紧凑、分蘖力较强,成穗率好,结实率高,中感稻瘟病,米质好,产量高,综合性状优良,2020年通过内蒙古自治区农作物品种审定委员...     

氮肥种类及施氮水平对桂牧一号杂交象草体外发酵特性的影响

为更好地指导桂牧一号杂交象草的优质高产栽培,设7个处理,分别为:A1(施尿素,150 kg/hm2),A2(施尿素,300 kg/hm2),A3(施尿素,450 kg/hm2),B1(施碳铵,411.3 kg/hm2),B2(施碳铵,821.4 kg/hm2),B3(施碳铵,1 231.65 kg/hm2),CK(不施氮肥),用体外产气法测定了不同氮肥及施氮水平下桂牧一号杂交象草的产气量以及干物质和有机物的体外消失率.结果表明:各处理组牧草间产气动力学参数差异显著(P<0.05),理论最大产气量、产气速率常数、产气延滞时间和干物质体外消化率分别以处理B1,B1,A3和B1最高,而以处理A1,A1,B2和B3最低.相关性分析表明,理论最大产气量与产气速率呈显著正相关,干物质、有机物体外消失率与中性洗涤纤维含量呈显著正相关,干物质体外消化率与牧草中磷含量呈显著负相关,产气速率与延滞时间之间的相关不显著,其他各参数与营养成分之间的相关性较低.从桂牧一号杂交象草体外发酵的特性来看,施用碳铵要优于尿素,碳铵的施用量以411~821 kg/hm2较为适宜.     

水产品等食品中磺胺类抗生素残留分析与预处理方法的研究进展

对水产品等食品中磺胺类抗生素常用的分析方法和预处理方法进行了综述,归纳和比较了毛细管电泳法、微生物方法、液相色谱-质谱法、免疫法、气相色谱法、分光光度法、高效液相色谱法等特点。其中高效液相色谱法由于操作简便、快速、灵敏、准确的特点,是当前检测磺胺类抗生素的主要方法。同时,对包括固相萃取、分子印迹等预处理方法进行了综述。     

应用间接荧光抗体技术快速检测花鲈病原菌——鳗弧菌

以花鲈（Lateolabrax japonicus)弧菌病的病原菌-鳗弧菌（Vibrio anguillarum)W-1为抗原，制备兔抗血清；利用异硫氰酸荧光素标记的羊抗兔免疫球蛋白（FITC-IgG）为荧光标记二抗，并以罗丹明标记的牛血清白蛋白为背景染色，建立检测鳗弧菌的间接荧光抗体快速检测技术。应用该技术对人工感染后的花鲈组织（肌肉、鳃、肠、肾）样品和养殖水体样品进行了鳗弧菌检测，结果显示间接荧光抗体技术不仅可以用于诊断发病的感染花鲈，也可用于检测带菌状态或未发病的感染花鲈。     

Assessment of gut microbiota in different developmental stages of Malaysian Mahseer (Tor tambroides)

Malaysian Mahseer (Tor tambroides) has a good prospect for aquaculture because of its high market demand. However, there is a scarce information on gut microbiota associated with Malaysian Mahseer unlike other fish species. Therefore, we constructed and compared gut microbiota in different developmental stages (larval, juvenile, fingerling, yearling, and adult) using culture dependent and PCR‐DGGE fingerprinting technique for better understanding of gut microbiota composition associated with T. tambroides. Culturable gut microbiota composition in all developmental stages were composed of β‐ and γ‐Proteobacteria, and Bacilli. Biodiversity analysis of culturable gut microbiota showed that larval, juvenile, and adult stages have higher diversity than fingerling and yearling stages. Ward's linkage cluster analysis showed that culturable gut microbiota composition in larval and juvenile stages were close to adult stages, whereas fingerling and yearling stage composed same cluster. PCR‐DGGE fingerprinting technique showed that unculturable gut microbiota were constituted by α‐and γ‐Proteobacteria, and Actinobacteria. Ward's linkage cluster analysis showed that unculturable gut microbiota composition in both larval and juvenile stages were distinct from other developmental stages. Our results revealed that gut microbiota composition were varied in different developmental stages of Malaysian Mahseer and continuous shifts of gut microbiota from larval to adult stages.