高粱链格孢叶斑病菌生物学特性研究

为明确高粱链格孢叶斑病菌Alternaria alternata的生物学特性, 本文采用生长速率法研究了不同营养及环境条件对该病菌生长的影响。试验结果表明:不同培养基上菌丝生长有明显差异, 其中马铃薯蔗糖琼脂培养基(PSA)最适合菌丝生长和孢子产生; 不同碳、氮源条件下菌丝的生长有显著差异, 其中最适宜菌丝生长碳源为葡萄糖, 氮源是蛋白胨; 该病原菌最适宜营养生长的温度为28℃, pH为7; 菌丝的致死温度为47℃; 光照时间对高粱叶斑病菌丝的营养生长没有影响。     

棉花轮纹斑病研究进展及防控策略

棉花是重要的天然纤维作物和油料作物。棉花轮纹斑病作为一种重要的棉花叶部病害,在我国主要棉区广泛发生,严重影响棉花的产量和品质,造成重大的经济损失,限制了棉花产业的可持续发展。本文围绕棉花轮纹斑病病害症状、发生危害、病原物种类、病害循环和发病条件等进行了综述,并介绍了实际生产中防控该病害发生危害的主要策略。     

云南蓝莓叶斑病的病原菌鉴定

<正>蓝莓(Vaccinium spp.)属于杜鹃花科(Ericaceae)越橘属(Vaccinium)多年生小浆果类果树,广泛应用于医药、保健、化妆品和环境保护等领域,联合国粮农组织将其果实列为世界五大健康食品之一。我国已有10多个省份开始大面积的蓝莓商业化栽培[1],这也是南方酸性土丘陵地区值得发展的经济作物。随着栽培面积的不断扩大,蓝莓病害日趋突出,严重影响和制约蓝莓产业的发展。     

Management of Cercospora leaf spot of groundnut (Arachis hypogaea L.) with a single fungicidal spray

Field trials were conducted during the rainy seasons of 1993/94 for chemical control of groundnut leaf spot using a single spray. A fungicide mixture ofcarbendazim 0.05%+mancozeb 0.2% was applied once in different treatments. Spray timings varied from 30 d.a.s. to 80 d.a.s. at 10-day intervals. Spray application reduced the percent disease index in all treatments. A statistically significant increase in pod yield was obtained in treatments sprayed up to 50 d.a.s. in 1993. The yield data were not significantly different in 1994. Sprays at 40 d.a.s. in 1993 and 50 d.a.s. in 1994 gave maximum returns. The cost of treatmentdid notvary significantly. The benefitto cost ratio oftreatments ranged from 1.1 to 8.1 in 1993 and 4.1 to 5.5 in 1994.     

引起云南省珠芽魔芋叶斑病的链格孢菌种类鉴定

珠芽魔芋Amorphophallus bulbifer是我国西南地区广泛种植的一种特色经济作物,自2015年开始云南省德宏州及西双版纳州珠芽魔芋种植区发生了一种魔芋新病害。典型症状为早期叶片上出现具黄色晕圈圆形斑点,逐渐形成大斑块,最终整个叶片枯死。本研究采用温室接种致病性测定、形态及分子鉴定等方法对珠芽魔芋叶斑病病原进行研究。结果表明：从各种植区采集的37份叶部病样中分离得到37个生长较一致的真菌分离物;致病性试验证实,均为珠芽魔芋叶斑病病原菌,显微镜下观察该病原菌具有细极链格孢Alternaria tenuissima的形态特征;将其rDNA-ITS、EF-1ɑ和β-tubulin基因序列在GenBank中进行同源性比对分析显示,其序列与A.tenuissima的相似性为99%～100%,分子鉴定与形态学鉴定结果一致。这是国内首次发现由细极链格孢侵染所引起的珠芽魔芋叶斑病。     

Multiple Alternaria species groups are associated with leaf blotch and fruit spot diseases of apple in Australia

Leaf blotch and fruit spot of apple caused by Alternaria species occur in apple orchards in Australia. However, there is no information on the identity of the pathogens and whether one or more Alternaria species cause both diseases in Australia. Using DNA sequencing and morphological and cultural characteristics of 51 isolates obtained from apple leaves and fruit with symptoms in Australia, Alternaria species groups associated with leaf blotch and fruit spot of apples were identified. Sequences of Alternaria allergen a1 and endopolygalacturonase gene regions revealed that multiple Alternaria species groups are associated with both diseases. Phylogenetic analysis of concatenated sequences of the two genes resulted in four clades representing A. arborescens and A. arborescens‐like isolates in clade 1, A. tenuissima/A. mali isolates in clade 2, A. alternata/A. tenuissima intermediate isolates in clade 3 and A. longipes and A. longipes‐like isolates in clade 4. The clades formed using sequence information were supported by colony characteristics and sporulation patterns. The source of the isolates in each clade included both the leaf blotch variant and the fruit spot variant of the disease. Alternaria arborescens‐like isolates were the most prevalent (47%) and occurred in all six states of Australia, while A. alternata/A. tenuissima intermediate isolates (14%) and A. tenuissima/A. mali isolates (6%) occurred mostly in Queensland and New South Wales, respectively. Implications of multiple Alternaria species groups on apples in Australia are discussed.     

Alternaria leaf spot of basil caused by <Emphasis Type="Italic">Alternaria alternata</Emphasis> in Japan

An outbreak of black mottle and dieback on basil (Ocimum basilicum L.; Lamiaceae) was recorded in a greenhouse in Okinawa Prefecture, Japan during 2004. The causal agent was identified as Alternaria alternata (Fr.) Keissler based on morphological characters and growth temperature. This report is the first of Alternaria leaf spot of basil caused by A. alternata.     

Incidence,pathogenicity and diversity of Alternaria spp. associated with alternaria leaf spot of canola (Brassica napus) in Australia

Studies were undertaken to determine Alternaria spp. associated with leaf spot symptoms on canola (Brassica napus) in two cropping seasons (2015, 2016) across southern Australia. Major allergen Alt a1 and plasma membrane ATPase genes were used to identify Alternaria spp. In 2015, 112 isolates of seven Alternaria spp. were obtained, with A. metachromatica predominating. In 2016, 251 isolates of 12 Alternaria spp. were obtained, with A. infectoria predominating. Alternaria spp. isolates were morphologically and phylogenetically identified and studies to determine their pathogenicity on both B. napus (cv. Thunder TT) and B. juncea (cv. Dune) confirmed 10 species (A. alternata, A. arborescens, A. brassicae, A. ethzedia, A. hordeicola, A. infectoria, A. japonica, A. malvae, A. metachromatica and A. tenuissima) as pathogenic on both Brassica species. Alternaria ethzedia, A. hordeicola and A. malvae were recorded for the first time in Australia on any host and the record of A. arborescens was the first for New South Wales (NSW) and South Australia (SA). Other first records included A. infectoria on B. napus in NSW; A. japonica on B. napus in NSW and Western Australia (WA); A. metachromatica on any host in NSW, Victoria (VIC), WA and SA; and A. tenuissima on B. napus in NSW, SA and WA. It is evident that alternaria leaf spot on canola across southern Australia is not solely caused by A. brassicae, but that a range of other Alternaria spp. are also involved to varying degrees, depending upon the year and the geographic locality.     

中国柑橘黑腐病和褐斑病病原菌的系统发育分析

 近些年链格孢属真菌的分类有了长足的进展,但柑橘褐斑病和黑腐病的病原却还是存在着一些争议。本研究从中国柑橘果实上收集了49株黑腐病菌菌株,并选取了8株从柑橘叶片上分离的具代表性的褐斑病菌菌株,基于Alta1 、endoPG、LSU、OPA10-2、OPAl-3和OPA2-1 等6个基因位点串联序列构建系统发育树。结果表明,柑橘黑腐病和褐斑病都可由不止一种链格孢菌引起,均以Alternaria alternata为主。两种病害的病原菌之间不能通过该系统发育树区分,但在致病性上存在差异,且能通过扩增ACT毒素合成基因进行区分。为了使两种病害的病原更加方便阐述,作者建议以它们的主要类群对其进行命名,柑橘褐斑病病原学名还是遵循前人的称呼,为the tangerine pathotype of A. alternata,即链格孢菌橘致病型,而柑橘黑腐病病原应为A. alternata,即链格孢菌。     

中国柑橘黑腐病和褐斑病病原菌的系统发育分析

近些年链格孢属真菌的分类有了长足的进展,但柑橘褐斑病和黑腐病的病原却还是存在着一些争议。本研究从中国柑橘果实上收集了49株黑腐病菌菌株,并选取了8株从柑橘叶片上分离的具代表性的褐斑病菌菌株,基于Alta1、endoPG、LSU、OPA10-2、OPAl-3和OPA2-1等6个基因位点串联序列构建系统发育树。结果表明,柑橘黑腐病和褐斑病都可由不止一种链格孢菌引起,均以Alternaria alternata为主。两种病害的病原菌之间不能通过该系统发育树区分,但在致病性上存在差异,且能通过扩增ACT毒素合成基因进行区分。为了使两种病害的病原更加方便阐述,作者建议以它们的主要类群对其进行命名,柑橘褐斑病病原学名还是遵循前人的称呼,为the tangerine pathotype of A.alternata,即链格孢菌橘致病型,而柑橘黑腐病病原应为A.alternata,即链格孢菌。     

Epidemiology of dark leaf spot caused by Alternaria brassicicola and A. brassicae in organic seed production of cauliflower

In organic seed production of Brassica vegetables, infections by Alternaria brassicicola and A. brassicae can cause severe losses of yield and seed quality. Four field experiments with or without artificial inoculation with A. brassicicola were conducted in organically managed seed‐production crops of cauliflower cv. Opaal RZ in 2005 and 2006 in the Netherlands. The development of A. brassicicola and A. brassicae on pod tissues and developing seeds was followed and seed quality was assessed. Alternaria brassicicola was externally present on 1·2% of the seeds 14 days after flowering and observed internally within 4 weeks after flowering. In both seasons, seed colonization by the pathogen increased slowly until maturation but sharply increased during maturation. A similar pattern was found for the colonization of pod tissues by A. brassicicola as quantified by TaqMan‐PCR. The incidence of A. brassicicola on mature seeds reached 70–90%. Internal colonization was found for 62–80% of the seeds. External and internal seed colonization by A. brassicae was much lower, with incidences below 3%. The quality of harvested seeds was generally low, with less than 80% of seeds able to germinate. Seed quality was not affected by warm water treatments. It was concluded that A. brassicicola and A. brassicae have the potential to infect pods and seeds soon after flowering. For the production of high quality seeds, producers must prevent such early infections. Therefore, new control measures are needed for use in organic cropping systems.     

Influence of rate of soil fertilization on alternaria leaf blight (Alternaria dauci) in carrots

The possibility of suppressingAlternaria dauci (Kühn) Groves & Skolko, the causal agent of Alternaria leaf blight in carrot, by excess application of fertilizer was examined in greenhouse and field experiments. Reducing the rate of fertilization by one half from the optimal rate (100 ppm N, 19 ppm P and 74 ppm K) resulted in a 23–30% increase in the severity of Alternaria leaf blight. However, doubling the rate of fertilization resulted in only a 10–15% decrease in disease severity. Inoculating with different concentrations ofA. dauci spores (10³ or 10⁴ spores/ml) did not alter the response of the plants to the fertilization rate, although significantly higher disease severity was observed in plants inoculated with the higher spore concentration. These results were corroborated in the field, where neither disease severity nor harvested yield was significantly affected by tripling the amount of soil fertilization. Application of foliar fungicides, on the other hand, had substantial effects on both disease and yield. Therefore, it was concluded that carrot crops should be fertilized and maintained for optimum yield, and thatA. dauci should be managed by properly timed applications of fungicides during the growing season. Contribution no. 533/99 from the Inst. of Plant Protection, Agricultural Research Organization.     

Infection of onion leaves by Alternaria porri and Stemphylium vesicarium and disease development in controlled environments

Infection of onion by Alternaria porri and Stemphylium vesicarium was investigated under a range of controlled temperatures (4–25°C) and leaf wetness periods (0–24 h). Conidia of A. porri and S. vesicarium germinated within 2 h when incubated at 4°C. Terminal and intercalary appressoria were produced at similar frequencies at or above 10°C. The maximum number of appressoria was produced after 24 h at 25°C. Penetration of leaves by both pathogens was via the epidermis and stomata, but the frequency of stomatal penetration exceeded that of epidermal penetration. There was a strong correlation ( R ² > 90%) between appressorium formation and total penetrations at all temperatures. Infection of onion leaves occurred after 16 h of leaf wetness at 15°C and 8 h of leaf wetness at 10–25°C, and infection increased with increasing leaf wetness duration to 24 h at all temperatures. Interruption of a single or double leaf wetness period by a dry period of 4–24 h had little effect on lesion numbers. Conidia of A. porri and S. vesicarium separately or in mixtures caused similar numbers of lesions. Alternaria porri and S. vesicarium are both potentially important pathogens in winter-grown Allium crops and purple leaf blotch symptoms were considered to be a complex caused by both pathogens.     

Induction of Resistance in Mustard (Brassica juncea) against Alternaria Black Spot with an Avirulent Alternaria brassicae Isolate-D

Resistance in susceptible mustard cv. PR-15 against the highly virulent A. brassicae isolate A (AbA) and moderately virulent isolate C (AbC) was induced using an avirulent Alternaria brassicae isolate D (AbD). The induction of resistance due to AbD against AbA or AbC resulted in significant reduction in disease severity. The A. alternata (Aa) failed to induce resistance against AbA and AbC, on the contrary it induced susceptibility against them.     

A rare leaf spot disease of Scorzonera hispanica,caused by Alternaria scorzonerae (Aderhold) comb. nov.

Samenvatting In 1982 is in Nederland op twee plaatsen in Noord-Brabant bij schorseneer een bladvlekkenziekte geconstateerd die werd veroorzaakt door een schimmel die te boek staat alsSporidesmium scorzonerae Aderhold (syn.Macrosporium tau-saghyzianum Zerova). Het betreft een zeldzaam optredende ziekte, die niet eerder buiten Oost-Europa bij de produktieteelt van schorseneren is aangetroffen. Onderzoek naar de morfologie van de schimmel wees uit dat deze behoort tot Alternaria sect. Noncatenatae. Derhalve werd voor het pathogeen de nieuwe combinatieAlternaria scorzonerae (Aderhold) Loerakker geïntroduceerd.     

Factors affecting the incubation period of dark leaf and pod spot (Alternaria brassicae) on oilseed rape (Brassica napus)

Experiments to investigate the factors affecting the incubation period of dark leaf and pod spot (Alternaria brassicae) on leaves and pods of oilseed rape (Brassica napus) were done in controlled environment (constant temperatures) and glasshouse conditions (fluctuating temperatures). The length of the incubation period of dark leaf and pod spot decreased as infection and incubation temperatures increased from 6 to 20 °C. The incubation period decreased as wetness period increased from 2 to 12 h, as inoculum concentration increased from 80 to 2 × 10³ spores ml^–1 and as leaf age increased from 4 to 10 days. Asymptotes of leaf age and inoculum concentration, above which the length of the incubation period did not decrease, were 10 days and 2 × 10³ spores ml^–1, respectively. The shortest and longest incubation periods were 1 and 11 days. The mechanism by which the infection conditions influenced the incubation period of dark leaf and pod spot on oilseed rape seemed to be linked to lesion density. Usually, the length of the incubation period decreased greatly with increasing lesion density.     

Laboratory Evaluation of Citrus Cultivars Susceptibility and Influence of Fruit Size on Fortune Mandarin to Infection by Alternaria alternata pv. citri

Young leaves of 62 citrus cultivars were inoculated with conidia of three Spanish isolates of Alternaria alternata pv. citri, the causal agent of brown spot of citrus. Hybrids with Dancy mandarin, King mandarin or their derivates as a parent, grapefruit cultivars and the mandarin cultivars Guillermina, Emperor, Clemenpons and Esbal were highly susceptible to the pathogen. Satsuma cultivar Clausellina and orange cultivars, with the exception of Sanguinelli, were slightly susceptible. Lemon and lime cultivars were not susceptible, with the exception of Mexican lime (Citrus aurantifolia), which was slightly susceptible. Although this study shows a range of potential hosts for this pathogen, to date the only affected cultivars in Spain are Fortune and Nova mandarins, and Minneola tangelo. The susceptibility of Fortune fruits decreased as diameter increased, being susceptible through the whole season. This was confirmed with field observations in autumn where fruit infections have been detected when the diameter reaches 6–7 cm.     

Development of an effective screening method for partial resistance to Alternaria brassicicola (dark leaf spot) in Brassica rapa

In order to develop a method to measure resistance to Alternaria brassicicola (cause of dark leaf spot disease) in Brassica rapa, the effects of inoculum concentration, leaf stage, leaf age and incubation temperature of inoculation on infection were studied under controlled conditions using several B. rapa genotypes. Three inoculation methods (cotyledon, detached leaf and seedling inoculation) were evaluated for this purpose. The detached leaf inoculation test was the most suitable for screening B. rapa genotypes because clear symptoms were observed on the leaves in less than 24 h, and there was a significant positive correlation between the results from the detached leaf inoculation test and the seedling inoculation test, an established method considered to yield reliable results. In addition, it was very easy to screen plants for resistance on a large scale and to maintain standard physical conditions using detached leaves. For successful infection, inoculum concentration should be adjusted to 5 × 10⁴ conidia ml⁻¹, and incubation temperature should be between 20 °C and 25 °C. The 3rd/4th true leaves from 30 day-old plants were optimal for inoculation. In a screening test using 52 cultivars of B. rapa, the detached leaf test effectively discriminated between various levels of partial resistance among cultivars. As a result, we identified two cultivars, viz Saori and Edononatsu, as highly resistant and five cultivars, viz Tokinashi Taisai, Yajima Kabu, Purara, Norin-F₁-Bekana and Tateiwa Kabu, as having borderline resistance.     

Conidial dispersal by Alternaria brassicicola on Chinese cabbage (Brassica pekinensis) in the field and under simulated conditions

This study investigated conidial dispersal in the field, and effects of simulated wind and rain on the dispersal of A. brassicicola on Chinese cabbage ( Brassica pekinensis ). Spores were sampled using a Burkard volumetric spore sampler and rotorod samplers in a Chinese cabbage crop. Disease incidence in the field was well fitted by a Gompertz curve with an adjusted r ² of >0·99. Conidia of A. brassicicola were trapped in the field throughout the growing season. Peaks of high spore concentrations were usually associated with dry days, shortly after rain, high temperature or high wind speed. Diurnal periodicity of spore dispersal showed a peak of conidia trapped around 10·00 h. The number of conidia trapped at a height of 25 cm above ground level was greater than that at 50, 75 and 100 cm. Conidial dispersal was also studied under simulated conditions in a wind tunnel and a rain simulator. Generalized linear models were used to model these data. The number of conidia caught increased significantly at higher wind speeds and at higher rain intensities. Under simulated wind conditions, the number of conidia dispersed from source plants with wet leaves was only 22% of that for plants with dry leaves. Linear relationships were found between the number of conidia caught and the degree of infection of trap plants.