连续式真空干燥机在鱼粉加工中应用研究

研究了连续式真空干燥机在鱼粉加工中的工艺过程、工艺结构和工作原理。鱼粉加工中采用连续真空干燥机具有明显的优势,可以减少高温对鱼粉蛋白质的氧化,提高鱼粉蛋白质的含量,提升鱼粉品质,使其在市场竞争中占有优势。     

高水肥密植条件下大豆地上部干物重变化动态

在高施有机肥、地下亚表层灌水、窄行密植栽培模式下,对大豆合农60及对照品种垦丰16地上部干物质变化动态进行分析。结果表明:合农60荚干重增加明显,后期干物重积累迅速。在高水肥和小垄密植栽培条件下,窄行密植品种间存在差异,合农60为抗倒伏,适合于窄行密植的高产品种。     

SN—924酶激活剂在大豆上的应用效果分析

在大豆上应用ＳＮ－９２４酶激活剂，可加快幼苗生长，增加叶片叶绿素含量和光合速率；单株结荚率提高１０％，产量增加１２％。     

大豆蚜防治适期与防治指标研究

在辽宁,6月下旬大豆蚜种群增长最快,是大豆蚜防治的关键时期。日前,生产上推行百株蚜量一万头的防治指标,可放宽。辽河中下游平原铁丰18大豆,可放宽到2.38—4.07万头;辽豆3号放宽到2.65—3.30万头。以查蚜量为指标,生产上应用困难较大。经研究,卷叶株率与百株蚜量密切相关,(?)=4.283 1.8419x(r=0.90)所以提出以卷叶株率为大面积生产防治的指示指标,铁丰18为10%,辽豆3号为8%。     

旱涝胁迫条件下稗草对大豆植株含氮量及蛋白质产量的影响

稗草生长明显降低了大豆籽粒蛋白质产量及氮素向其籽粒中的分配比例,而显著提高了大豆茎、叶、籽含氮量及氮素向其茎、叶中的分配比例。这种影响在座荚期渍涝 鼓粒期干旱条件下最为突出;稗草对大豆籽粒蛋白质生产的危害在幼苗期—开花期的渍涝条件下显著减轻,而在任一时期的干旱条件下均明显加重,且在座荚期的渍涝处理中比在幼苗期—开花期的渍涝处理中大。不同时期、不同旱涝胁迫处理对大豆籽粒蛋白质产量的降低程度不同,其中旱害远大于涝害,后期旱害大于前期旱害,先涝后旱的危害大于先旱后涝的危害,旱涝结合的危害大于只旱或只涝的危害;开花期大豆最不耐涝,鼓粒期最不耐旱。     

A New Cell Wall Located N-rich Protein is Strongly Induced During the Hypersensitive Response in Glycine Max L.

Soybean (Glycine max (L.) Merill, cv. Williams 82) plants and cell cultures respond to avirulent pathogens with a hypersensitive reaction. After inoculation of soybean with Pseudomonas syringae pv. glycinea, carrying the avirulence gene avrA, or zoospores from the fungus Phytophthora sojae Race 1, a resistance-gene-dependent cell death programme is activated. A new gene was identified by differential display of mRNAs that is specifically activated during the early phase of incompatible pathogen-soybean interactions but does not respond to compatible pathogens. The gene is strongly induced within 2h after addition of P. sojae zoospores. A similar kinetic pattern was observed for P. syringae (avrA) inoculated soybean cell cultures. The gene encodes a deduced protein of 368 amino acids with a very high content of asparagine and was therefore termed N-rich protein (NRP). The protein is composed of two distinct domains, of which only the C-terminal domain has striking homology to proteins of unknown function from other plants. An antibody raised against the recombinant NRP recognizes a protein of 42kDa. The protein is located in the cell wall as indicated by cell fractionation studies. Comparison of the genomic DNA-sequence with the cDNA, identified two introns within the open reading frame. The NRP-gene is not directly induced by salicylic acid or hydrogen peroxide, indicating a distinct and specific signal transduction pathway which is only activated during programmed cell death. The NRP-gene appears to be a new marker in soybean activated early in plant disease resistance.     

Aggressiveness of Xanthomonas axonopodis pv. glycines isolates to soybean and hypersensitivity responses by other plants

Xanthomonas axonopodis pv. glycines ( Xag ) causes bacterial pustule disease which can significantly reduce the production of soybean. A collection of 26 isolates of Xag from different soybean-production areas of Thailand was shown to differ with regard to aggressiveness on soybean. They also differed in their ability to induce a hypersensitive response (HR) on four cultivars of tobacco and on other plant species including pepper, tomato, cucumber, pea and sesame. Tomato was most sensitive to HR induction by Xag . Isolate KU-P-34017 caused an HR on all the plant species tested. The minimal concentration of KU-P-34017 needed to induce HR on tobacco was approximately 5 × 10⁸ CFU mL⁻¹. A bacterium–plant interaction period of at least 2·5 h was necessary for HR, and different temperatures, relative humidity and light periods did not affect HR development. Inhibitors of eukaryotic metabolism, including cobalt chloride, lanthanum chloride and sodium orthovanadate (completely), and cycloheximide (partially) blocked the HR on tobacco, indicating the association of an active plant response. In contrast, the HR on tomato was inhibited only by cobalt chloride.     

大豆疫霉菌对大豆下胚轴侵染过程的细胞学研究

 接种后1.5~24h,用光镜和电镜研究了2个大豆品种与大豆疫霉菌Ps411的亲和性和非亲和性互作。观察结果表明,大豆疫霉菌对大豆下胚轴的侵染过程可分为侵入前、侵入、皮层组织中的扩展和进入维管束组织4个连续阶段。大豆下胚轴接种后在25℃保湿培养,1.5h后游动孢子即形成休止孢并萌发产生附着孢,3h后侵入表皮细胞,6h后进入皮层组织,24h后进入维管束组织。病原菌主要以侵染菌丝直接侵入表皮,表皮细胞间隙是主要侵入部位。皮层细胞是病原菌定殖和发展的主要场所,胞间菌丝侵入皮层细胞并形成吸器。在菌丝与寄主细胞接触部位的寄主细胞壁与质膜之间常有胞壁沉积物的形成。在抗病品种上病菌的侵染事件与感病品种基本一致,但不能形成正常的吸器,胞壁沉积物明显多于感病品种,菌丝在寄主组织内的扩展明显受到抑制。利用β-1,3-葡聚糖免疫金标记单克隆抗体进行的免疫细胞化学的研究表明,胞壁沉积物内含有大量的β-1,3-葡聚糖,在大豆疫霉菌菌丝壁中也存在β-1,3-葡聚糖。以上结果表明,病原菌的侵染可诱导抗病寄主细胞内β-1,3-葡聚糖迅速的合成与积累、并形成胞壁沉积物,以抵御病菌的侵染与扩展。     

台湾75毛豆病毒病防治技术研究

研究表明,台湾75毛豆病毒病主要由蚜虫传毒而致,其发生与蚜虫的成虫迁飞时间与发生量关系极为密切.若成虫高峰正遇毛豆1、2叶展平期,毛豆上落蚜量大,发生就重.所以早播的重于迟播的,露地栽培重于套播的.防治上应以栽培避蚜为主,药剂防治为辅,才可取得理想效果.