蘑菇培养料集中二次发酵初步研究

本文设计和建造小型二次发酵隧道 ,并就蘑菇培养料集中二次发酵不同填料高度工艺进行详细的研究 ,试验结果发现采用 1 8米的填料高度的发酵方法效果最好 ,产量较一般简易二次发酵方法提高 2 9%。     

大果型鲜食枣新品种‘大白铃’

 ‘大白铃’为大果型鲜食枣优良新品种。果实特大, 平均单果质量24. 5 ~ 25. 9 g, 最大80 g,整齐, 外形美观, 品质优良。早实, 丰产, 抗逆性强。     

早熟优质长豇豆新品种‘鄂豇豆2 号’

 ‘鄂豇豆2号’是经有性杂交选育而成的早熟蔓生豇豆新品种。该品种荚浅绿色, 长60 cm,单荚质量18~ 24 g。早熟, 荚商品性状优良, 产量高, 对光周期反应不敏感, 田间疫病、煤霉病、病毒病发病率低, 适宜于春、夏、秋各季栽培, 已在全国大部分省份推广种植成功。     

甜橙新品种‘兴国甜橙3-5’

 ‘兴国甜橙3-5 ’是从实生‘兴国甜橙’后代中选出的新品种。果皮橙黄至橙红色。果实近圆球形, 平均单果质量167. 7 g , 可溶性固形物含量13. 6% ~ 15. 1%, 总糖含量10. 3% ~ 11. 5%, 总酸含量0. 47%~ 0. 93%, 可食率79. 27%~ 80. 75%, 果汁率65. 18%~ 65. 96%, 11 月上旬成熟。     

Indole-3-acetic acid biosynthesis in <Emphasis Type="Italic">Aciculosporium take</Emphasis>, a causal agent of witches' broom of bamboo

 Aciculosporium take (Ascomycota; Clavicipitaceae) is a causal agent of witches' broom of bamboo plants. The symptoms of this disease are believed to be induced by plant hormones, particularly auxins. Indole-3-acetic acid (IAA) was identified in cultures of this fungus in an l-tryptophan-supplemented liquid medium. IAA production was confirmed on 30 isolates of A. take from various hosts and locations at levels up to 1 mg/l. The biosynthetic pathway of IAA in A. take culture was examined by analyzing intermediate products and by feeding experiments. The results showed that the indole-3-pyruvic acid pathway (l-tryptophan → indole-3-pyruvic acid → indole acetaldehyde → IAA) was the dominant pathway in A. take. Received: June 3, 2002 / Accepted: July 25, 2002     

克萎星对棉花黄萎病的防治效果

克萎星可溶性粉剂是河南省濮阳农业科学研究所研制生产的防治棉花黄萎病的新农药，田间药效试验结果表明：克萎星防治棉花黄萎病，发病初期叶面喷施，防效71．7％～100％，最佳施用浓度500～1000倍液，间隔期7～10d,棉花安全。     

Inconspicuous restraint of rice seedling growth by root-infecting fungi in soil of a rice paddy field

 Rice seedling growth, estimated by plant height and root development and discoloration, was better in pasteurized soil than in unpasteurized soil obtained from a flooded rice field. Rice seedlings also grew better in sterilized soil modified by adding roots harvested from the pasteurized soil than in soil modified by adding roots harvested from the unpasteurized soil. The results demonstrate that seedling growth in the rice field soil was inhibited by soil microorganisms, even though no typical symptoms such as seedling blight or damping-off appeared. Pythium aristosporum is suggested to be involved in the inhibition. Thus, it appears that inconspicuous restraint of rice seedling growth could occur in soils of rice paddy fields. Received: May 20, 2002 / Accepted: October 16, 2002 Acknowledgments The authors thank Dr. T. Ichitani, former professor at Osaka Prefectural University, for providing an isolate of Pythium aristosporum for comparison, and Mr. Mitsuaki Sato of Akita Prefectural College of Agriculture for technical assistance.     

引起糖甜菜细菌性叶斑病的萎蔫短小杆菌新致病变种

 1995年在内蒙古临河市新发现了糖甜菜细菌性叶斑病,从病斑所分离的10个细菌菌株经柯赫氏法则验证,均确系该病的病原菌。采用形态观察、表型特征和生理生化特性测定、数值分析、血清学反应、细胞化学成分分析、DNA G+C mol%和DNA-DNA同源性测定进行了鉴定,并与植物病原棒形细菌15个标准菌株进行了比较。该病原菌为革兰氏阳性细菌,不规则短杆状,有一根鞭毛、亚极生或侧生,结合其生理生化特性、细胞化学成分和DNA G+C mol%和DNA-DNA同源性测定结果,认为应属于短小杆菌属(Curtobacterium)的萎蔫短小杆菌(Cur. flaccumfaciens),数值分析也支持这一结论。此外,据血清学反应结果及其对短小杆菌属的其它植物寄主的致病情况,认为该病原菌应是萎蔫短小杆菌种下的一个新的致病变种,定名为Curtobacterium flaccumfaciens pv. beticola pv. nov. Chen et al.,2000(萎蔫短小杆菌糖甜菜致病变种)。     

金边瑞香花芽形态分化研究

 金边瑞香花芽由顶芽发育而成，花芽分化包括花序分化和小花分化两个过程，分为未分化、开始分化、花序原基分化、小花原基分化、花瓣分化、雄蕊分化和雌蕊分化7个时期，分化的顺序是向心的；分化的临界期为5月中旬，分化时期长达7个月，花芽分化既持续又表现出两个分化高峰，还受温度等因素的影响。