棉花烂铃空间格局及抽样技术研究

本文通过聚集度指标（如：Ｃ、Ｋ、Ｃ＿Ａ、Ｉ、Ｉ＿δ、）测定，以及Ｉｗａｏ’线性回归、Ｔａｙｌｏｒ’ｓＳ￣２一回归和格局纹理分析，结果表明，棉花烂铃空间格而在一切密度下都呈聚集型，且聚集强度随烂铃密度的升高而增加，其空间格局的基本成分是疏松的个体群，其大小约为２～５株棉花，平均约含２．８４个烂铃个体，且个体群内的个体呈随机分布，经μ检验和方差分析，双对角线５点式、棋盘式和平行跳跃式等３种取样方法均适用于棉花烂铃田间调查，尤以双对角线５点式为佳，用双对角线５点式应样法调查的最适抽样数：一般病情普查至少１０个样方（每样方系５株棉花），系统测报和科研调查为２０～３０个样方。最后给出了棉花烂铃平均密度的零频率简易估计模型。     

玉米穗腐病导致产量损失的品种和气候因素分析

1986～1990年的研究结果发现,在玉米穗腐病流行年份,抗病和感病玉米自交系的严量损失分别比常年高21％和35％。在气候因素中,日照时数对发病和产量损失影响较大。同一气候条件下感病系比抗病系产量损失大52％～82％。感病品种因穗腐病造成的玉水产量损失比不利的气候因素更为严重。     

植物抗软腐病基因工程的策略及研究进展

通过基因工程的手段提高植物对软腐病的抗性已被认为是一条切实可行的途径。目前已有大量研究证实,利用植物与病原菌互作的相关基因、病原菌致病性的相关基因以及杀菌肽基因可以或有望提高植物对软腐病的抗性。文章对以上几个方面及相关的抗软腐病基因工程的一些策略与研究进展进行了论述。     

贡柑黑腐病病原菌生物学特性研究

摘要：在贡柑黑腐病病原菌分离鉴定的基础上,对其病原菌的生物学特性进行研究。结果表明,该病原菌（Alternaria citri Ellis & Everhart）在PDA培养基上生长最佳。菌丝生长和分生孢子萌发的适宜温度分别为21~30 ℃和18~30 ℃,适宜pH值分别为5~12和4~7。供试的6种碳源中,葡萄糖和可溶性淀粉较利于菌丝生长,蔗糖较利于孢子萌发;供试的6种氮源中,牛肉膏较利于菌丝生长,酵母膏较利于孢子萌发。光照条件对病原菌产孢影响不大,完全光照与光暗交替12 h较利于菌丝生长和孢子萌发。分生孢子致死温度为51 ℃水浴10 min。     

贡柑黑腐病病原菌的分子鉴定

贡柑黑腐病是近年来在贡柑上发生的一种新型病害,该病害可导致嫩梢快速枯死,大量嫩叶脱落,严重影响树势和产量。本研究从病区采集发病枝叶,对贡柑黑腐病病原菌进行分离、纯化,并采用rDNA-ITS序列分析技术对其进行分子鉴定。结果表明,贡柑黑腐病病原菌为链格孢属（Alternaria Nees）真菌,rDNA-ITS序列与GenBank中芸薹链格孢菌(Alternaria brassicae (Berk.) Sacc.)和柑桔链格孢菌(Alternaria citri Ellis & Everhart)的ITS序列的同源性为99%。结合形态学特征,推断该病原菌为柑桔链格孢菌。     

10种杀细菌剂对火龙果细菌性茎腐病菌的毒力测定

采用抑菌圈法,对10种杀细菌剂在火龙果茎腐病病原上进行了毒力测定。结果表明：72%农用硫酸链霉素可溶粉剂、53.8%氢氧化铜水分散颗粒剂（杜邦TM）、45%代森铵水剂、47%春雷?王铜可湿性粉剂、50%福美双可湿性粉剂和3%中生菌素可湿性粉剂对火龙果茎腐病病原均有一定抑制效果。其中,45%代森铵水剂和50%福美双可湿性粉剂防治效果较好,抑制率分别达到78.88%和71.42%,其直线回归方程分别为y=2.380 2.477x,y=2.896 1.146x,EC50分别为0.4929,0.0240。72%农用硫酸链霉素可溶粉剂效果次之,抑制率达到66.67%,直线回归方程为y=1.020 1.040x,EC50值为2.5686。这3种药剂可作为火龙果茎腐病田间药效试验的首选药剂。     

江西永修凤凰山桃实腐病病原鉴定

桃实腐病是江西永修凤凰山桃园发生的一种新的重要病害,其主要危害挂果期的果实,严重影响桃产量和品质。病果主要表现为脐部变褐腐烂,并在病部表面密生黑色小点（分生孢子器）,病果易脱落。本文对病果进行了组织分离,对获得的病菌纯培养进行了回接,同时对病菌的形态及大小观察和测量,结果表明引起凤凰山桃实腐病的病原菌为核果果腐拟茎点菌（Phomopsis amygdalina Canonaco）。     

一株马铃薯干腐病生防菌的鉴定及其抑菌活性研究

镰孢菌引起的马铃薯干腐病是影响马铃薯贮存期间产量与品质的重要病害之一。寻找高效低毒的防治马铃薯干腐病的生防药剂对提高马铃薯的产量与质量具有重要意义。本研究以腐皮镰孢Fusarium solani为病原菌, 测定分离自马铃薯块茎的菌株2-1-9-CJK-2的抑菌活性。该菌株发酵液、无菌发酵液、菌悬液、胞内组分以及挥发性有机物对腐皮镰孢均具有抑菌活性, 抑制率分别为93.37%、61.92%、80.82%、44.01%和49.16%。结合形态学、生理生化特征和多基因系统发育树构建鉴定其为贝莱斯芽胞杆菌Bacillus velezensis。马铃薯切片试验和马铃薯块茎试验表明, 当菌株发酵液浓度为1×109 cfu/mL时, 对病原菌的抑制效果最好。除此之外, 菌株可以分泌蛋白酶、淀粉酶、纤维素酶, 具有溶磷能力和生物膜形成能力, 但不具有溶血性, 并且对供试的其他6种病原真菌有较强的抑菌活性。研究表明贝莱斯芽胞杆菌2-1-9-CJK-2抑菌谱广, 具有生物安全性, 对腐皮镰孢有较强的抑菌活性, 在植物病害防治中具有一定的应用潜力, 可为马铃薯干腐病生防制剂的开发奠定基础。     

Screening of antagonistic Trichoderma strains and their application for controlling stalk rot in maize

Maize is one of the major crops in China, but maize stalk rot occurs nationwide and has become one of the major challenges in maize production in China. In order to find an environment-friendly and feasible technology to control this disease, a Trichoderma-based biocontrol agent was selected. Forty-eight strains with various inhibition activities to Fusarium graminearum, and Fusarium verticillioides were tested. A group of Trichoderma strains(DLY31, SG3403, DLY1303 and GDFS1009) were found to provide an inhibition rate to pathogen growth in vitro of over 70%. These strains also prevented pathogen infection over 65% and promoted the maize seedling growth for the main root in vivo by over 50%. Due to its advantage in antifungal activity against pathogens and promotion activity to maize, Trichoderma asperellum GDSF1009 was selected as the most promising strain of the biocontrol agent in the Trichoderma spectrum. Pot experiments showed that the Trichoderma agent at 2–3 g/pot could achieve the best control of seedling stalk rot and promotion of maize seedling growth. In the field experiments, 8–10 g/hole was able to achieve over 65% control to stalk rot, and yield increased by 2–11%. In the case of natural morbidity, the control efficiency ranged from 27.23 to 48.84%, and the rate of yield increase reached 11.70%, with a dosage of Trichoderma granules at 75 kg ha~(-1). Based on these results, we concluded that the Trichoderma agent is a promising biocontrol approach to stalk rot in maize.     

A novel glycoside hydrolase 74 xyloglucanase CvGH74A is a virulence factor in Coniella vitis

Grape white rot is a destructive fungal disease occurring worldwide. Recently, Coniella vitis was identified as the predominant pathogen causing this disease in China. As the periderms of grape shoots are severely degraded by C. vitis, it was speculated that cell wall-degrading enzymes (CWDEs) might play a key role in the pathogenesis of this disease. Therefore, this study aimed to examine the hydrolytic activity of the CWDEs of C. vitis. The results showed that xylanase (Xy) and xyloglucanase (XEG) had high levels of hydrolytic activity both in vitro and in vivo. Furthermore, a high-virulence fungal strain exhibited higher levels of Xy and XEG activities compared with a low-virulence strain. The genome of the fungus was found to harbor two XEG-coding genes CvGH74A and CvGH74B, which belonged to the glycoside hydrolase (GH)74 family. The expression level of CvGH74A was found to be high during pathogen infection. CvGH74A gene deletion mutants were generated using the split-marker method. The deletion of CvGH74A decreased both the hydrolytic activities of XEG and Xy and also the ability of the fungus to infect the grape leaves. No differences in the hyphal growth, morphology of colonies, or conidiation were found between the ΔCvGH74A mutant strains and the wild-type strain. Together, these results suggested that CvGH74A acted as an important virulence factor, and its enzymatic activity might regulate the virulence of the pathogen. This study was novel in reporting that GH74 XEG acted as a virulence factor in C. vitis.