花卉常规杂交育种的研究进展

本对花卉育种的历史和花卉常规常规杂交育研究进展及各种杂交技术方法进行综述。花卉常规杂交育种的应用领域人：（1）培育花色、花型和香味等观赏性状更加新颖的品种；（2）改变花期；（3）提高花卉适应性和抵抗病虫害能力。并对花卉常规杂交育种未来的研究方向作了展望。     

Flowering-pattern and yield components at inflorescence nodes of snap bean as affected by irrigation and plant density

This paper reports the results of a 2 × 2 factorial experiment on bush snap beans ‘Oregon 1604’. The treatments were 2 contrasted irrigation regimes and 2 contrasted plant densities, and were applied in 1978 and repeated in 1979. Data were collected on the number of flowers and pods, and pod size, at each node of the terminal inflorescence (6-T) of the main stem, and at each node of the oldest inflorescence (2-A) at Node 2. High and low plant densities were 45 and 18 plants m^?2 in 1978 and 54 and 33 plants m^?2 in 1979. High temperatures, frequently above 32°C, prevailed during bloom and pod development in 1978, but for the most part occurred only during the week prior to bloom in 1979. Inflorescences 6-T and 2-A usually formed 4 and 3 RN's, respectively, in 1978 and 3 and 2 RN's in 1979. The flowers at the proximal nodes of each inflorescence all opened within a few days of one another (duration of flowering at proximal nodes between 3 and 5 days); the flowering-periods of adjacent nodes overlapped, and the flowering period increased acropetally within the inflorescence (duration of flowering at distal nodes between 7 and 13 days). In general, number of flowers, pods formed, pods harvested and percent set decreased acropetally within each inflorescence. The rate of acropetal decline was lessened by high irrigation or low plant density. In both years, high irrigation increased the percent set of all RN's of the 2-A inflorescences, but few other consistent effects between years were observed. The 2 most proximal RN's together produced 93% or more of the yield of each inflorescence. High irrigation significantly increased the total number of pods harvested from these RN's of inflorescences 6-T and 2-A, and low density had a similar effect on 2-A.     

潜蝇姬小蜂幼虫空间分布型研究

本文应用Iwao和Tayla’s回归模型以及6个聚集度指标(C、CA、M^*、M^8／m、I、K),对蚕豆田潜蝇姬小蜂幼虫的空间分布型进行了研究。测定结果属聚集分布,为田间调查及保护天敌提供了依据。     

庆阳地区黄花菜越冬覆盖水热效应研究

在西峰设置田间黄花菜越冬期地膜覆盖和玉米秸秆覆盖小区试验,观察越冬期土壤水分损耗、早春地温变化特征,并分析不同覆盖材料水、热资源对黄花菜发育期、生长量、产量构成要素的影响。结果发现:在秋季降水充沛、土壤底墒充足、冬季气温偏高、降水明显偏少的年型,越冬地膜覆盖能最大限度保持土壤水库蓄水,增加土壤水分利用率;提高春季地温,促使黄花菜生长发育进程加快,生长势旺盛,并在一定程度上降低春旱造成的危害,对增产增收十分有利。     

Lipid metabolism in tomato and bean as a sensitive monitor for biocontrol of wilt diseases

The lipids metabolism of tomato and bean plants during biological control of wilt pathogens (Fusarium oxysporum f.sp.lycopersici andF. oxysporum f.sp.phaseoli, respectively) byBacillus subtilis was investigated. The interaction of wilt pathogens with both tomato and bean caused an imbalance and drastic reduction in total lipids, triacylglycerol, sterol and all phospholipd fractions except phosphatidic acid. The application of a formulated biocontrol agent,B. subtilis, eliminated the detrimental effect of both wilt pathogens and consequently prevented catabolism of lipid fractions in both tomato and bean. Moreover, the changes in the lipid fractions as a sensitive monitor for biocontrol of wilt diseases suggest a positive correlation between the application ofB. subtilis and improvement in the host metabolism towards anabolism. http://www.phytoparasitica.org posting Sept. 20, 2006.     

枇杷花腐病病原菌的初步研究

初步研究了枇杷花腐病在不同发病时期及不同组织的病原菌种类及其致病性,结果表明:(1)细菌不是引起花轴维管束变褐的最初病原菌,它是在维管束变褐之后寄生上去,引起花轴表皮腐烂的病原菌。(2)灰葡萄孢菌是在花腐病的中后期腐生上去的,应该不是引起花穗腐烂的关键性致病病原菌。(3)引起枇杷花腐病最初发病的病原可能与2种真菌有关,一种是引起灰斑病的拟盘多毛孢菌(PestalotiaeriobofoliaDesm),另一种是长出粘孢团的真菌(尚待鉴定)。(4)室外接种拟盘多毛孢菌的花穗发生明显花腐症状的比例显著高于对照,该菌可能是引起枇杷花腐的病原菌之一;而接种粘孢团的处理与对照差异不明显,它可能不是引起花穗腐烂的关键性致病病原菌。     

TritonX-100对月季切花效应的研究

以月季为材料,研究聚乙二醇辛基苯基醚(TritonX-100)预处理缓解水分胁迫对切花的影响.结果表明:体积分数0.01 % TritonX-100预处理1 h能有效缓解短期水分胁迫对月季切花水分代谢的影响,从而使切花瓶插寿命接近正常水平.     

紫花桔梗和白花桔梗的RAPD指纹图谱鉴定研究

用RAPD方法对紫花桔梗和白花桔梗进行了指纹图谱的研究，以期为桔梗花色的鉴定提供分子依据。采用BSA法从200个随机引物中筛选出具有多态性的7个引物。结果引物OPG02在检测的紫花桔梗个体中均能各自扩增出一条580bp左右的特异带，而在白花桔梗中则未见。表明该RAPD标记具有紫花桔梗特异性，可用于鉴别紫花桔梗和白花桔梗。     

中国牡丹切花保鲜研究进展

对近20年来中国牡丹切花保鲜方面的最新研究进行了综述,以期为正在和将要从事牡丹切花保鲜研究的人们提供参考.我国的牡丹切花保鲜研究的对象多为中原牡丹品种群的品种,研究问题主要涉及乙烯、水分、保鲜剂等方面,关于分子水平上牡丹切花保鲜机理的研究未见报道.牡丹切花保鲜方面还有不少问题亟待开展或进行深入研究.     

Integrated disease management of ascochyta blight in pulse crops

Ascochyta blight causes significant yield loss in pulse crops worldwide. Integrated disease management is essential to take advantage of cultivars with partial resistance to this disease. The most effective practices, established by decades of research, use a combination of disease-free seed, destruction or avoidance of inoculum sources, manipulation of sowing dates, seed and foliar fungicides, and cultivars with improved resistance. An understanding of the pathosystems and the inter-relationship between host, pathogen and the environment is essential to be able to make correct decisions for disease control without compromising the agronomic or economic ideal. For individual pathosystems, some components of the integrated management principles may need to be given greater consideration than others. For instance, destruction of infested residue may be incompatible with no or minimum tillage practices, or rotation intervals may need to be extended in environments that slow the speed of residue decomposition. For ascochyta-susceptible chickpeas the use of disease-free seed, or seed treatments, is crucial as seed-borne infection is highly effective as primary inoculum and epidemics develop rapidly from foci in favourable conditions. Implemented fungicide strategies differ according to cultivar resistance and the control efficacy of fungicides, and the effectiveness of genetic resistance varies according to seasonal conditions. Studies are being undertaken to develop advanced decision support tools to assist growers in making more informed decisions regarding fungicide and agronomic practices for disease control.