小麦根腐病菌鉴定及其生物学特性测定

分离鉴定小麦根腐病菌，并对其进行生物学特性测定，结果表明，小麦根腐病菌属于半知菌亚门平脐蠕孢属麦根腐平脐蠕孢（Bipolaris sorokiniana(Sacc.)Shoemakey)。该菌生长的最适温度为30℃，最适PH值为7，最适培养基为PDA，60℃5min为致死温度。分生孢子在水滴中才能萌发，萌发的最适PH值为7，最适温度为25℃，在供试的营养液中，以土壤浸液中萌发率最高。     

大豆疫病种子带菌和传病研究

本文对大豆疫病种子带菌和种子传病研究作了详细报道。试验证明，从大豆疫病的感病植株可以获得病英和带菌种子。种子带菌具有传病作用。并阐明了种子带菌规律和病菌在种子里的存在部位。提出了适合植物检疫的种子检验鉴定技术。     

壳聚糖对草莓冷藏和货架期间品质的影响

以"达赛莱克特"草莓为试材,研究1%壳聚糖处理的草莓果实在0℃低温贮藏7 d后20℃常温货架6 d期间的品质变化规律。结果表明:与对照(0.1%醋酸溶液处理)相比,壳聚糖处理降低了低温贮藏后期和货架期草莓果实的呼吸速率、花青素、类黄酮及酚类物质的含量,保持较高的果实硬度,显著减少了货架期草莓果实腐烂和霉菌的发生,对果实失重率和可溶性固形物含量无显著影响。表明1%壳聚糖处理可有效延缓草莓的采后衰老进程,延长果实的货架期。     

草莓根腐病病原菌分离与鉴定

为了有效防控草莓根腐病,采用组织分离法,对徐州地区草莓根腐病病原菌进行分离与鉴定,分离、纯化后获取了5个真菌菌株,经形态学与分子生物学碱基序列测定结果比对发现：CMGF-1是胶孢炭疽菌或其亚种,CMGF-2和CMGF-3是棒孢拟盘多毛孢或其亚种,CMGF-4和CMGF-5是串珠镰刀菌或其亚种。黑根根腐的致病菌主要是镰刀菌和拟盘多毛孢菌,而红中柱根腐的致病菌是胶孢炭疽菌。     

异型葡枝霉感染不同金针菇后防御酶系的活性变化

绵腐病是金针菇栽培中常见的真菌性病害之一,致病菌为异型葡枝霉(Cladobotryum varium)。为了探究其抗性机制,以L3002、L3003、L3005为材料,通过测定同一时期不同品种金针菇子实体接种与未接种病原菌子实体内的苯丙氨酸解氨酶(PAL)、多酚氧化酶(PPO)、过氧化物酶(POD)和超氧化物歧化酶(SOD)等4种防御酶活性变化,为研究金针菇品种对绵腐病的抗病性差异及筛选优良菌株提供科学依据。结果表明,接种病原菌处理后,各品种金针菇子实体内PAL、PPO、POD和SOD活性变化不同。金针菇L3005品种4种酶活峰值最高,其次是L3002和L3003,说明4种防御酶对金针菇抗绵腐病有一定的关联性。     

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。     

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。     

玉米自交系及杂交种抗青枯病鉴定

1986-1989年采用自然鉴定和人工土壤接种鉴定的方法，对602份玉米材料的青枯病抗性进行了鉴定。人工接种鉴定397份，其中204份材料表现抗病。在正常年份，人工接种鉴定效果明显好于自然鉴定，但在重病区或青枯病流行年份，在尚未具备人工接种条件时，利用自然发病作为选育抗病材料仍有一定效果。玉米苗期接种青枯病重于成株期     

大白菜软腐病苗期抗性及其与成株期抗性的关系

对６６个大白菜品种苗期抗性的测定结果表明，不同品种对细菌根系侵入和潜伏侵染的抗性存在显著差别；同一品种幼苗对侵入侵染的抗性与对潜伏侵染的抗性间没有相关性。幼苗期的组织含菌量与成株的田间软腐病发病程度有一定的相关性。并初步建立了大白菜对软腐病苗期抗性的鉴定方法。     

Breeding wheat and rye for resistance to Fusarium diseases

Fusarium culmorum and F. graminearum Groups 1 and 2 cause seedling blight, crown rot, foot rot and head blight in wheat and rye that may affect grain yield and quality for baking and feeding. This review starts with an analysis of Fusarium populations with regard to their genetic variation for aggressiveness, mycotoxin production, and isolate-by-host genotype interaction. To assess resistance in the different host growth stages, quantitative inoculation and disease assessment techniques are necessary. Based on estimated population parameters, breeding strategies are reviewed to improve Fusarium resistance in wheat and rye. Epidemiological and toxicological aspects of Fusarium resistance that are important for resistance breeding are discussed. F. culmorum and F. graminearum display large genetic variation for aggressiveness in isolate collections and in naturally occurring populations. The production of mycotoxins, especially deoxynivalenol and its derivatives, is a common trait in these populations. Significant isolate-by-host genotype interactions were not found across environments in wheat and rye. Artificial infections in the field are indispensable for improving Fusarium crown rot, foot rot and head blight resistance in wheat and rye. For a reliable disease assessment of large populations, disease severity ratings were found to be the most convenient. The differentiation of host resistance is greatly influenced by an array of nongenetic factors (macro-environment, microclimate, host growth stage, host organ) that show significant interactions with host genotype. Selection for environmentally stable resistance has to be performed in several environments under a maximum array of different infection levels. Selection in early growth stages or on one plant organ does not in most cases allow prediction of resistance in adult-plant stages or another plant organ. Significant genetic variation for resistance exists for all Fusarium-incited diseases in breeding populations of wheat and rye. The patho-systems studied displayed a prevalence of additive gene action with no consistent specific combining ability effects and thus rapid progress can be expected from recurrent selection. In wheat, intensive testing of parental genotypes allows good prediction of the mean head blight resistance after crossing. Subsequent selection during selfing generations enables the use of transgression towards resistance. In hybrid breeding of winter rye, the close correlation between foot rot resistance of inbred lines and their GCA effects implies that selection based on the lines per se should be highly effective. This is not valid for F. culmorum head blight of winter rye caused by a greater susceptibility of the inbred lines compared to their crosses. For both foot rot and head blight resistance, a high correlation between the resistance to F. graminearum and F. culmorum was found in wheat and rye. Mycotoxin accumulation occurs to a great extent in naturally and artificially infected plant stands. The correlation between resistance traits and mycotoxin contents are medium and highly dependent on the environment. Further experiments are needed to clarify whether greater resistance will lead to a correlated reduction of the mycotoxin content of the grains under natural infection.