临夏地区小麦条锈菌越夏特点

通过多年对临夏州小麦条锈病的调查,明确了小麦条锈病在临夏州的流行规律及越夏条件。临夏州小麦条锈病具有流行危害时期长,越夏菌源量大,突发性强,发生范围广及新的生理小种出现频率高等特点,提出了综合治理临夏州小麦条锈病对保护全国小麦生产的重要意义。     

云南省德宏州小麦条锈菌越夏调查初报

小麦条锈菌越夏菌源量直接影响着小麦条锈病的发生与流行。为了明确云南省德宏州是否是小麦条锈病菌的越夏菌源地,2010年和2011年在德宏州芒市江东乡海拔1 600、1 700、1 800、1 900m和2 000m处设置了小麦条锈病菌源观察圃,对观测圃中小麦品种和周围落粒自生麦苗上条锈病的发病情况进行调查,实时记录各观察点的温湿度。结果表明:(1)海拔2 000m的菌源观察圃能观测到小麦条锈菌越夏和越冬的情况,越冬菌源量和春季条锈病的发病情况存在相互影响的关系;(2)海拔1 900m及以上的地区最高日平均温度和旬平均温度均低于22℃,为小麦条锈菌的越夏区域;1 600~1 900m的区域内其最高日平均温度在22℃至25℃之间,最高旬平均温度均大于20℃小于23℃,符合小麦条锈菌越夏的理论温度要求;并且海拔1 900m及以上地区的菌源观察圃中可观察到小麦条锈菌越夏。以上结论证实了云南省德宏州芒市是小麦条锈菌的越夏菌源地之一。     

1991年小麦条锈菌生理小种监测结果简报

 1991年中国农科院植保所与陕西、甘肃、四川、山西、云南省农科院植保所协作,监测了采自晋、冀鲁、豫、陕、甘、川、青、宁、滇、黔、皖、鄂、浙等14省(区)的共1049个小麦条锈菌标样。     

我国小麦条锈菌寄主范围的研究

 通过温室接种及在栽培草圃和野外进行调查,本研究证实我国小麦条锈菌禾草寄主共有11属62种,其中麦薲草(Elymus tangutorum (Nevski) Hand.-Mazz.)等22种禾草过去国内外尚未见报道可作为该菌的寄主;另外还有16种禾草为国内首次报道的小麦条锈菌寄主。
分小种接种的结果表明,同一禾草材料的感病性,因小种的不同而异;同一小种的致病性也因禾草材料的不同而有所差异。同种但不同来源的禾草材料,对小麦条锈菌的反应也是不尽相同的。     

1989、1990年小麦条锈菌生理小种监测结果简报

1989、1990两年分别监测了采自晋、冀、鲁、豫、陕、甘、川、青、新、藏、黔、滇、鄂等13省(区)小麦成株、秋苗和自生麦苗上的条锈菌标样1590和1656个。主要小种类型出现频率见表。监测结果主要有以下几点: 1.条中29号和洛13类群居优势:两年出     

1992、1993年小麦条锈菌生理小种监测结果简报

１９９２、１９９３年小麦条锈菌生理小种监测结果简报全国小麦条锈菌生理小种鉴定协作组１９９２、１９９３年中国农科院植保所与陕西、甘肃、四川、山西、云南省农科院植保所协作，分别鉴定了采自晋、鲁、豫、陕、甘、川、青、宁、黔、滇、苏、浙、鄂等省区的小麦条锈菌...     

陇南和阿坝地区小麦条锈菌传播的研究

 研究结果表明,甘肃陇南越夏区条锈菌源的主要传播路线是沿康县至略阳的近正西气流轨道和文县至广元的西北气流轨道,主要对汉中地区和绵阳的大多数地区小麦秋苗吹送,并可波及陕西安康地区和商洛部分地区及四川达县和万县等地。四川阿坝州越夏区菌源的主要传播路线是沿汶川至灌县的西北偏北气流轨道。其菌源与成都平原麦区的关系密切,对绵阳地区的北川、平武和绵竹等地也很重要,并可波及南充、内江及江汉流域等地区。湖北秋苗的初始菌源多来自西北越夏区。     

陇东发现一种小麦条锈菌的天敌昆虫

陇东发现一种小麦条锈菌的天敌昆虫高兆国，吴中堡，鱼洁波，张明科（甘肃省泾川县农技推广中心７４４３００）小麦条锈病是陇东地区小麦的一种重要病害，近几年我们在调查锈病病情时，发现一种取食条锈菌的夏孢子堆，约２ｍｍ长的桔红色小虫，经室内饲养并初步鉴定，确认...     

陕西省小麦条锈菌群体遗传结构分析

 利用TP-M13-SSR自动荧光检测技术,对陕西省小麦条锈菌群体遗传结构进行了分析。研究结果显示,在物种水平上,陕西省小麦条锈菌群体Nei’s基因多样性指数（H）为0.18、Shannon 信息指数（I）为0.29,表明该省条锈菌群体遗传多样性较为丰富。同时,条锈菌群体遗传多样性在地区之间也存在明显的差异,在7个条锈菌群体中,宁强种群遗传多样性相对较高（H为0.18,I为0.28）。AMOVA分析显示,陕西省小麦条锈菌在地区间、种群间和群体内的遗传分化分别为：12.26%、10.88%和76.86%,表明陕西省小麦条锈菌群体存在一定的遗传分化,但遗传变异主要发生在群体内部。     

Attempted somatic hybridization of Puccinia striiformis f. sp. tritici and P. striiformis f. sp. hordei

Attempts were made to produce somatic hybrids between isolates of Puccinia striiformis f. sp. tritici and f. sp. hordei. A mixed infection was produced on a common susceptible barley host, Fong Tien, using white-spored isolates of P. striiformis f. sp. tritici and yellow-spored isolates off. sp. hordei. Selection was made for non-parental spore colour on selective wheat and barley hosts, and variants thus isolated were analysed for virulence markers, and for isozyme and double-stranded RNA (dsRNA) markers, all of which clearly differentiated the parental isolates. Two white-spored (non-parental) isolates were found on the selective barley host which otherwise resembled the parental f. sp. hordei isolate in virulence, isozyme and dsRNA markers. The most likely explanation of the origin of these isolates is mutation to white spore colour in the f. sp. hordei isolate.     

中国小麦条锈菌主要流行菌系的寄生适合度研究

 为了预测我国未来小麦条锈菌的优势种群,本研究采用抗性组分法测定了我国条锈菌主要流行菌系的寄生适合度。结果表明:决定我国小麦条锈菌最重要的寄生适合度属性为条锈菌的产孢能力(繁殖力),其次为条锈菌的侵染能力,再次为扩展能力;建立了小麦条锈菌寄生适合度属性3个主成份的数学模型;在供试的菌系中,Su11-4、Su11-14和CY32相对寄生适合度较高,已经成为我国目前小麦条锈菌的优势小种(类型);CY31由于其寄生适合度较低,出现频率逐年下降,已成为次要小种,感染"中四"苗期的新菌系T4类型,由于其寄生适合度低,也不会成为今后一个时期的流行小种。     

小麦条锈菌冬孢子生物学特性研究进展

由小麦条锈菌引起的小麦条锈病是我国广大麦区的严重病害,研究其冬孢子产生原因与作用对于解析该病菌的生活史及遗传变异机制至关重要.通过对国内外相关研究成果的整理,综述了小麦条锈菌冬孢子的形态特征、生物学特性、寄主范围及其作用与功能等方面的研究进展.     

中国小麦条锈菌4个主要流行小种的寄生适合度

 以12个全国大面积种植的小麦生产品种和1个高感品种为试材,利用抗性组分法研究了中国小麦条锈菌(Puccinia striiformis f.sp.tritici,Pst)4个主要流行小种条中32号、条中31号、水源11-14和水源11-4的寄生适合度。因子分析结果表明,病害量是度量条锈菌生理小种寄生适合度最重要的参数,其次是夏孢子生活力、产孢能力、产孢面积、产孢期,由此提出寄生适合度=(产孢量×侵染概率×夏孢子堆密度×夏孢子萌发率)/潜育期。研究还发现,条中32号的寄生适合度最高,致病性最强,与目前该小种为优势小种的事实相符;水源11-14的寄生适合度较高,有较大的发展潜力,在抗病育种中应予以高度重视。     

不同培养载体对小麦条锈菌夏孢子人工萌发的影响

为探索适合小麦条锈菌寄主体外萌发的载体,并建立基于不同研究目的的小麦条锈菌夏孢子人工萌发技术,采用超声波水雾培养法,以小麦条锈菌生理小种CYR32为供试材料,探讨了不同培养载体对小麦条锈菌夏孢子萌发特性的影响.在最适温度和湿度条件下,以4种不同材料为培养载体,小麦条锈菌夏孢子的萌发率、芽管生长率和外观显示情况有显著差异.在尼龙纱网上的夏孢子萌发速度和芽管伸长速度最快,12 h内萌发率最高可达93.40％,芽管最长可达446.71 μm;亲水滤膜上夏孢子的萌发率和芽管长仅次于纱网;亲水塑料膜和PVDF膜上夏孢子的萌发率均高于普通亲水载玻片,而芽管长度低于普通亲水载玻片.采用侧光照明时,在亲水滤膜和PVDF膜上极易清晰观测到夏孢子及其芽管内的黄色颗粒物.在亲水塑料膜上,还可观察到夏孢子萌发12 h后,芽管尾部膨大形成类似附着胞的结构.结果显示,超声波水雾可使条锈菌夏孢子处于水分饱和的环境,而纱网纤维组成的小格具有很好的保水结露功能,能使夏孢子萌发快,萌发效率高,芽管生长快;另一方面,使用其他培养载体还可满足观测条锈菌夏孢子内黄色颗粒物向芽管内转移和芽管尾部形成类似附着胞结构的目的.     

Temperature adaptation in Australasian populations of Puccinia striiformis f. sp. tritici

Stripe rust, caused by Puccinia striiformis f. sp. tritici, is one of the major fungal pathogens of wheat. A new pathotype was introduced to Australia in 2002 and several derivative pathotypes were detected in subsequent seasons. It has been suggested that the severity of stripe rust outbreaks in Australia since 2002 could be as a result of traits other than virulence in the pathogen population. This study was conducted to investigate the hypothesis that the stripe rust pathogen population dominant in Australia since 2002 was better adapted to warm temperature conditions compared to previous pathogen populations. Sixteen pathotypes were selected to examine the influence of two contrasting temperature regimes during the 24 h incubation (10°C and 15°C) and the subsequent post‐inoculation (17°C and 23°C) periods on latent period and infection efficiency on four susceptible wheat cultivars. In addition, the effect of two contrasting incubation temperatures on urediniospore germination was examined. The results indicated that pathotypes of P. striiformis f. sp. tritici detected after 2002 did not show evidence of adaptation to high temperatures, which suggests that other factors contributed to the observed increased aggressiveness.     

Local dispersal of Puccinia striiformis f. sp. tritici from isolated source lesions

Understanding how disease foci arise from single source lesions has not been well studied. Here, single wheat leaves were inoculated with Puccinia striiformis f. sp. tritici urediniospores, and all wheat leaves within two intersecting 0.3 × 3.0 m transects were sampled in eight replicates over 3 years. The lesions observed on each of the top three leaves on plants within 1.5 m from the source lesion were three‐dimensionally mapped. The total number of lesions within a 1.5 m radius was estimated by dividing the number of lesions observed within each 0.025 m‐wide annulus by the fraction of the annulus sampled. The estimated total number of lesions produced within 1.5 m of a single source lesion ranged from 27 to 776, with a mean of 288 lesions. Eighty percent of the lesions were recorded within 0.69 m of the source infection. The proportion of total lesions observed at a given distance from the source was fitted well by the Lomax and Weibull distributions, reflecting the large proportion of lesions arising close to the source, and when fitted by an inverse power distribution had a slope (b) of 2.5. There were more lesions produced on leaves higher in the canopy than on lower leaves, with more lesions being detected above than below the point of inoculation. Simultaneous measurement of lesion gradients and spore dispersal in the final year of the study suggests that this pattern is due to greater susceptibility of upper leaves, rather than increased dispersal to upper leaves.     

利用小种标记分析云南省两个县的小麦条锈菌群体

 小麦条锈病是由小麦条锈菌（Puccinia striiformis f.sp. tritici）引起的气流传播病害,在世界各主要麦区均有发生,也是我国小麦生产上危害最严重的病害之一。小麦条锈菌毒性变异频繁,易产生新毒性小种,导致小麦品种的抗病基因失效,引起小麦条锈病周期性流行。因此,了解小麦种植区的条锈菌群体结构组成及变异,对于制定更为有效的条锈病控制方法具有重要的意义。