不同落叶提取液对豇豆种子化感效应的研究

以豇豆种子为受体材料,研究5种落叶提取液对豇豆种子的化感作用.结果表明:不同浓度的落叶提取液对豇豆种子发芽和幼苗的生长有不同的影响,落叶提取液对种子萌发表现出高浓度抑制、低浓度促进的现象.对幼苗的生长有一定的促进作用,小叶榕、黄桷兰落叶提取液不同程度地抑制豇豆的干物质重,且随着浓度的增加,抑制作用逐渐增强;桂花落叶提取液对豇干物质重的影响呈现出低浓度促进、高浓度抑制现象.     

豇豆与锈菌互作中的多酚氧化酶和过氧化物酶活性及其与抗性的关系

测定了具有不同抗性水平的5个豇豆Vigna sesquipdalis Wight品种在受锈菌Uromyces vignae Barcl侵染前和侵染后的若干阶段中的多酚氧化酶(PPO)和过氧化物酶(POD)活性,并分析其与抗性的关系.结果表明,在接种后24h内,免疫和抗病品种的PPO比活性及其变化率均高于感病品种,且前者PPO比活性变化率高峰出现早,后者出现迟.在接种后,各品种的POD比活性及其变化率均上升,但中抗和感病品种的高峰出现早,免疫和高抗品种出现晚.此外,中抗和感病品种的POD比活性及其变化率在接种12h左右出现高峰后立即下降,而高抗品种的则持续上升至24h左右出现高峰,免疫品种的POD比活性也在24h左右出现高峰,但其POD比活性变化率则持续到48h左右达到高峰,且免疫和抗病品种的峰值明显大于感病品种.     

水杨酸对盐胁迫下豇豆幼苗生长发育的影响

在300 mmol/L Na Cl胁迫条件下,研究了水杨酸对豇豆[Vigna unguiculata(L.)Walp]幼苗生长发育的影响。结果表明,经水杨酸处理的豇豆幼苗株高、茎粗明显提高,促进了幼苗的形态构建。并且幼苗的超氧化物歧化酶和过氧化物酶活性均显著高于对照,丙二醛含量和电解质渗透率显著或明显降低;水杨酸在适宜的施用浓度范围内能够缓解豇豆幼苗的盐害症状,提高抗盐能力,对豇豆幼苗的生长有一定的促进作用,当水杨酸的处理浓度为100~150 mg/L时,作用效果最明显。     

湖南省饭豆地方种质资源遗传多样性的RAPD和ISSR分析

为揭示湖南省饭豆地方品种的遗传多样性,促进种质资源的有效保护和利用。本研究利用RAPD和ISSR标记分析了源于湖南省各地36份古老饭豆地方品种的遗传多样性,并采用UPGMA方法进行了遗传聚类分析。结果表明：12个RAPD引物和4个ISSR引物在供试材料中共扩增产生81条带型清晰的条带,平均每个引物扩增产生5.06个条带;其中59个为多态性条带,占总扩增条带的72.84%,具有多态性引物的PIC值在0.397~0.968之间;通过UPGMA法进行聚类分析表明供试材料的遗传相似系数在0.605~0.877之间,供试材料被分为4大类,且聚类结果表现明显的地域特征。本研究结果可为本省饭豆种质资源保护和育种研究提供理论依据。     

理化诱变小豆京农6号突变体的鉴定

选用小豆品种京农6号种子,分别采用甲基磺酸乙酯(EMS)(0.5%、0.9%和1.4%处理12h和24h)、电子束(100、300、600Gy)、60Co-γ(400Gy)诱变处理,将处理后的种子种于大田,鉴定后代植株性状的变异。观察表明,EMS诱变的变异类型最丰富、60Co-γ射线次之、电子束产生的变异类型较单一。EMS处理小豆以浓度0.5%和0.9%处理24h为宜;0.5%EMS处理的粒色和荚色变异突出,有鲜红、黄白、绿白粒色和黑荚、褐荚、黑褐荚变异;0.9%处理的叶形变异突出,有鸡爪叶、剑叶、肾形叶、小密叶等突变类型;电子束诱变后,M2变异率分别为4.09%、3.64%和2.22%。400Gy60Co-γ射线处理种子,后代变异率为7.23%。通过两年的鉴定筛选,获得937个EMS诱变M3代株系,934个60Co-γ射线和电子束诱变M2代株系,已得到株高、叶形、叶色、粒形、粒色、荚色、无分枝、多分枝、叶簇生、分枝簇生、光叶、蔓生、有限结荚习性、株型松散、育性、成熟特性等突变体材料1490份。本研究为小豆基因遗传分析、基因定位与克隆及其进一步的基因功能分析奠定了基础,为小豆育种提供了重要的材料。     

Nitrogen and phosphorus use in maize sole cropping and maize/cowpea mixed cropping systems on an Alfisol in the northern Guinea Savanna of Ghana

Summary The use of N and P by mixed and by sole cropping (crop rotation) of maize and cowpeas were compared in a field experiment on an Alfisol at the Nyankpala Agricultural Experiment Station in the northern Guinea Savanna of Ghana, using two levels of N (0 and 80 kg N ha^-1 year^-1 as urea) and P application (0 and 60 kg P ha^-1 year^-1 as Volta phosphate rock). Maize grain yields were significantly reduced in the mixed cropping system. This yield difference became smaller with the application of N and P fertilizer. The N and P concentrations in maize ear leaves at silking indicated that a deficiency in N and P contributed to the maize yield depression in mixed cropping. Competition for soil and fertilizer N between maize and cowpeas was suggested by: (1) A similarity in total N uptake between the two cropping systems; (2) efficient use of soil nitrate by the cowpeas; and (3) low N₂ fixation by the cowpeas, calculated with the aid of an extended-difference method. In general, N₂ fixation was low, with the highest values in the sole cropping (53 kg ha^-1) and a substantial reduction in the mixed cropping system. The application of N fertilizer further reduced N₂ fixation. This was substantiated by nodule counts. The lower N₂ fixation in the mixed cropping system was only partly explained by the lower density of cowpeas in this system. In addition, dry spells during the cropping season and shading by the maize component could have reduced the nodulation efficiency. No N transfer from the legume/rhizobium to the non-legume crop was observed. Impaired P nutrition in the mixed compared with the sole-cropped maize might have been due to less P mobility in the soil. This was indicated by lower soil moisture contents in the topsoil under mixed cropping, especially during the dry year of 1986. The results show that mixed cropping of maize and cowpeas did not lead to improved use of soil and fertilizer N and P or to an enhanced N₂ fixation. On the contrary, an annual rotation of maize and cowpeas was clearly superior.     

苯丙氨酸解氨酶和过氧化氢酶活性与豇豆抗锈病性的关系

在豇豆（Vigna sesquipdalis Wight)不同梯度抗性品种与锈菌（Uromyces vignae Barcl)互作的早期（于接种后12h内），苯丙氨酸解氨酶（Phenylalaninge ammonia lyase,PAL）的比活性与品种抗性梯度一致；地氧化氢酶（Catalase,CAT)的比活性变化率与品种抗性有较密切的关系，在免疫和抗病品种中降低，在感病品种中则上升。     

绿豆抗豆象基因PCR标记的构建与应用

 采用PCR分子标记技术，对16个绿豆品种（系）进行了遗传分析。在选用的56个随机引物中，发现抗豆象品种与感豆象品种间有一定差异。根据聚类分析结果将它们分成抗豆象野生种（TC1966）、抗豆象栽培种（V2709）、抗豆象杂交后代（VC3890A2/TC1966-23）和混合类型4个大组。以绿豆抗豆象和感豆象品种及抗豆象品种×感豆象品种组合的F2群体为试验材料，利用BSA法，对抗（感）豆象品种池和一个组合F2的抗（感）豆象池进行了鉴定，获得一个共显性标记。经F2分析，在抗豆象个体中扩增出约1.79 kb的特异片段或2个特异片段（1.79 kb/1.03 kb）；在感豆象个体中仅扩增出约1.03 kb的特异片段。初步认为此标记与TC1966的抗豆象基因位点紧密联锁，可用于绿豆抗豆象种质鉴定和遗传育种的分子标记辅助选择。     

小豆SSR-PCR反应条件的优化

笔者对小豆SSR-PCR扩增体系的反应条件进行了优化,分析了Mg2+浓度、dNTP浓度、DNA模板浓度、引物浓度、Taq聚合酶浓度对PCR扩增结果的影响。结果表明:在10 μL的PCR反应体系中,Mg2+的最适浓度为2 mmol/L,dNTP最适浓度为0．25 mmool/L,反应体系中Taq聚合酶宜加入1 U,引物的最适浓度为 0．15 mmol/L,DNA模板加入量为20 ng。     

Temporal variation in mineral nitrogen in soil as influenced by incorporation of legume or cereal residues under submergence or well drained conditions

A laboratory study was conducted at the Indian Agricultural Research Institute, New Delhi on a sandy clay loam soil of pH 7.9 and organic C content of 0.34% to study the effect of incorporating Sesbania or Vigna legume residues or wheat straw at 15 and 30t ha^?1 on temporal variation in ammoniacal and nitrate‐N in soil under submergence and well drained conditions. Under submergence most mineral N was present as ammoniacal‐N, while under well drained conditions it was present as Nitrate‐N. The content of ammoniacal N in soil was the highest after 30 days of incubation and declined thereafter under submergence. On the other hand under well drained conditions the mineral‐N (mostly nitrate) content in soil at 30 DAI was very little and showed increases only later, reaching the highest level at 90 DAI. Application of wheat straw specially at 301 ha^?1 level resulted in immobilization of native soil‐N. These results show that rice which is grown under submergence can be transplanted soon after incorporation of legume residues, but for wheat or other crops which are grown under well drained condition a time interval of 30 days or more needs to be provided before sowing the crop.