The first occurrence of leaf mold of tomato caused by races 4.9 and 4.9.11 of <Emphasis Type="Italic">Passalora fulva</Emphasis> (syn. <Emphasis Type="Italic">Fulvia fulva</Emphasis>) in Japan

Tomato leaf mold caused by Passalora fulva was found on two tomato varieties carrying the Cf-9 gene in Japan, in 2007. The isolates obtained from Chiba and Fukushima were identified as race 4.9.11, and those from Gunma were races 4.9 or 4.9.11. This is the first report in Japan of tomato leaf mold caused by P. fulva strains that can overcome the Cf-9 gene.     

Further identification of races of Cladosporium fulvum (Fulvia fulva) on tomato originating from the Netherlands France and Poland

Races ofCladosporium fulvum, which can overcome the resistance of the genes Cf₂, Cf₄, Cf₅, Cf₈, Cf₉ and Cf₁₁ have appeared in the Netherlands, France and Poland. Known isolates from the Netherlands and France and three new isolates from Poland have been investigated for the presence of virulence genes using a set of genotypes carrying resistance genes Cf₂ to Cf₁₁.Several Dutch isolates of races, earlier designated as 2.4, 2.4.5 and 2.4.5.9, were found to break down the resistance gene Cf₁₁. These races must therefore be designated as 2.4.11, 2.4.5.11 and 2.4.5.9.11 respectively. In the new Polish isolates virulence genes, overcoming the resistance genes Cf₂, Cf₄, Cf₈, Cf₉ and Cf₁₁ were found. Since all races able to grow on genotypes with Cf₄, could also grow on genotypes carrying Cf₈, it was impossible to discriminate between the genes Cf₄ and Cf₈. These Polish isolates were designated as races 4.11, 2.4.11 and 2.4.9.11. The consequences of the occurrence of these races for tomato breeding are discussed.Samenvatting Fysio's vanCladosporium fulvum, die de resistentie-genen Cf₂, Cf₄, Cf₅, Cf₈, Cf₉ en Cf₁₁ kunnen doorbreken, zijn in Nederland, Frankrijk en Polen opgetreden. Met behulp van een groep genotypen, die de resistentie genen Cf₂ tot en met Cf₁₁ dragen, zijn Nederlandse, Franse en enkele nieuwe Poolse isolaten onderzocht op de aanwezigheid van virulentiegenen. Enkele Nederlandse isolaten, eerder aangeduid met 2.4, 2.4.5. en 2.4.5.9, bleken het resistentie-gen Cf₁₁ te kunnen doorbreken. Deze moeten daarom aangeduid worden als respectievelijk 2.4.11, 2.4.5.11 en 2.4.5.9.11. In de nieuwe Poolse isolaten werd virulentie gevonden voor Cf₂, Cf₄, Cf₈, Cf₉ en Cf₁₁. Alle fysio's die op genotypen met Cf₄ konden groeien, groeiden ook op genotypen met Cf₈. Daarom kon geen ondersheid gemaakt worden tussen Cf₄ en Cf₈. De Poolse isolaten behoren tot de fysio's 4.11, 2.4.11 en 2.4.9.11. De gevolgen van het voorkomen van deze fysio's voor de tomateveredeling worden besproken.     

Passalora blight of anise (Pimpinella anisum) and its control in Turkey

Passalora blight of anise, caused byPassalora malkoffii (Bubák) U. Braun, is an important disease of anise in Turkey. The disease affects all the aboveground parts of plants including flower clusters. Infected seeds have dark, linear stromata. Detection of the pathogen on seeds was studied by the blotter method, agar method, washing test and sowing infected seeds in disease-free soils. The pathogen was recovered only by the washing test and to a limited extent by water agar + seed decoction agar. Sixteen of 24 seed samples from diseased regions were found to be infected. The pathogen was not detected by any other methods. However, several indigenous fungi,e.g. Alternaria alternata, were isolated, which may have prevented the growth of the pathogen. Seed washings of infected seed samples had typical spores of the pathogen up to 10⁶ conidia per gram of seed. Transmission of the pathogen was shown by sowing infected seeds in disease-free field soils in two locations where anise had not been grown previously. Azoxystrobin, chlorothalonil + carbendazim and flutriafol seed treatments at 0.04 g a.i. kg⁻¹ seed, 1.0 g + 4.5 g a.i. kg⁻¹ seed and 0.015 g a.i. kg⁻¹ seed reduced the disease by 92.5%, 89.6% and 36.2% in 2002 and by 78.9%, 75.8% and 41.2% in 2003, respectively. Three foliar applications of axosystrobin, chlorothalonil + carbendazim and flutriafol at the rates of 187.5 g a.i. ha⁻¹, 1500 g + 6750 g a.i. ha⁻¹ and 31.3 g a.i ha⁻¹ reduced disease incidence by 92.5%, 86.0% and 96.8% in 2002 and by 97.5%, 90.8% and 97.0% in 2003, respectively. http://www.phytoparasitica.org posting May 17, 2005.     

Occurrence of azoxystrobin‐resistant isolates in Passalora fulva,the pathogen of tomato leaf mould disease

Since 2007, serious damage to tomato from leaf mould caused by Passalora fulva has frequently been observed in commercial greenhouses in Gifu Prefecture, Japan. One of the factors relating to this damage was suspected to be a decrease in azoxystrobin sensitivity of the pathogen. Biological and molecular studies were conducted to characterize fungicide resistance. In in vitro sensitivity tests using mycelial homogenate placed on fungicide‐amended medium, the minimum inhibitory concentrations (MIC) of azoxystrobin for mycelial growth of the isolates divided into two ranges, 0.031–0.5 mg L^?1 and 8–32 mg L^?1. Isolates with MICs within the two ranges were considered as sensitive and resistant, respectively, to azoxystrobin because, in in vivo tests, the percentage protection conferred by this fungicide (100 mg a.i. L^?1) against these isolates was 89.7–100% and 4.5–31.1%, respectively. Resistant isolates had a replacement of phenylalanine with leucine at codon 129 (F129L) in cytochrome b. Forty‐five percent of the 271 isolates collected from 63 tomato greenhouses from 2007 to 2008 were resistant to azoxystrobin. In many greenhouses where the isolation frequency of resistant isolates was 80% or more, azoxystrobin had been used twice per crop for approximately 6 years. In 2012, 27% of the 405 isolates collected were resistant to azoxystrobin, and there was a marked difference in the frequency of occurrence of resistant isolates in the field populations between the three locations sampled. The occurrence of azoxystrobin‐resistant P. fulva isolates (F129L mutants) inflicted considerable damage on greenhouse tomatoes.     

Allelic test proves genes Cf4 and Cf8 for resistance to Cladosporium fulvum (Fulvia fulva) on tomato to be undistinguishable

In an allelic test it was proven that the genes Cf₄ and Cf₈ for resistance toC. fulvum in tomato are undistinguishable, confirming a recent suggestion that Cf₈ does nott provide a novel source for resistance toC. fulvum.Samenvatting In een allelie-toets werd aangetoond dat de genen Cf₄ en Cf₈ voor resistentie tegenC. fulvum van tomaat niet te onderscheiden zijn. Hiermee werd een recente suggestie bevestigd, dat Cf₈ geen nieuwe resistentie tegenC. fulvum verschaft.     

四霉素对番茄叶霉病菌的毒力效应及田间防治效果

为评价四霉素对番茄叶霉病的防治效果,采用菌丝生长速率法和孢子萌发法分别测定了四霉素对9株不同地区来源的叶霉病菌（Passalora fulva）菌丝生长、孢子萌发以及芽管伸长的毒力,并进行了田间药效试验。结果表明:四霉素对番茄叶霉病菌具有较高的抑制活性,其中抑制孢子萌发、芽管伸长的活性较高,其EC50值分别为0.002 30~0.012 7 μg/mL、0.000 50~0.013 μg/mL;对菌丝生长抑制活性略低,其EC50值为0.601 6~1.394 μg/mL。显微观察发现:经四霉素处理后,番茄叶霉病菌新生菌丝生长受阻、部分菌丝末端分支增多、变粗;分生孢子萌发受抑制,芽管膨大变粗、生长受阻。田间试验结果表明:经四霉素有效成分6.75和20.25 g/hm2处理后,对番茄叶霉病的保护防效分别为74.40%和83.09%,治疗防效分别为67.92%和76.68%,均显著高于对照药剂甲基硫菌灵（有效成分540 g/hm2）的处理防效。     

Gray mold of pearl lupine caused by <Emphasis Type="Italic">Botrytis cinerea</Emphasis>

Severe blight of stems, leaves and pods caused by Botrytis cinerea was found on pearl lupine (Lupinus mutabilis), a legume crop, grown in Kagawa Prefecture, Japan, in March–June 1996–2002. This disease was named “gray mold of pearl lupine” as a new disease. One of the fungal isolates obtained in this study was deposited in Genebank, National Institute of Agrobiological Sciences as accession MAFF238557.     

球孢白僵菌定殖提高番茄对灰霉病抗性及其作用机理

为明确球孢白僵菌Beauveria bassiana定殖对番茄植株抗病性的影响及作用机理,采用灌根法将球孢白僵菌芽生孢子悬浮液接种于番茄植株内,并通过人工接种灰霉菌Botrytis cinerea评价球孢白僵菌定殖后番茄对灰霉病的抗性水平;检测灰霉菌胁迫下番茄植株不同位置叶片内球孢白僵菌的相对含量;测定番茄叶片内草酸氧化酶（oxalate oxidase,OXO）、几丁质酶（chitinase,CHI）和ATP合成酶（ATP synthase,atpA）3种抗病相关基因的表达量。结果表明,球孢白僵菌定殖能够提高番茄植株对灰霉病的抗性,接种灰霉菌第5天,番茄植株发病率、病斑直径和病情指数分别下降了61.6%、41.4%和26.4%;在灰霉菌胁迫下番茄植株内球孢白僵菌偏好于在病原菌感染位置定向聚集,并且引起植物抗病基因OXO、CHI和atpA的表达量上调。表明球孢白僵菌能通过内生定殖与植物互作提高植物抗病性,在植物病害生物防治领域有较大应用潜力。     

产香真菌GS-1菌株鉴定及其挥发性物质对番茄灰霉病的生防效果

为鉴定产香真菌GS-1菌株物种分类和评价其挥发性物质对番茄灰霉病的生防效果,通过形态学和ITS(internal transcribed spacer)序列分析对菌株GS-1进行物种鉴定,以对扣法测定其挥发物对番茄灰霉病菌Botrytis cinerea、水稻胡麻斑病菌Bipolaris oryzae、小麦赤霉病菌Fusarium graminearum、白菜黑斑病菌Alternaria brassicae和莴苣菌核病菌Sclerotinia sclerotiorum共5种植物病原真菌的熏蒸抑制活性,以果实针刺法测定挥发物对番茄灰霉病的抑制作用,并观察对其菌丝生长的影响。结果显示,菌株GS-1为普通瘤座孢Tubercularia vulgaris;其挥发物对5种植物病原真菌均有明显的熏蒸抑制作用,72 h的抑制率为58.05%~75.81%;其挥发物可造成番茄灰霉病菌菌丝畸形、分枝增多、原生质外渗等,对番茄果实灰霉病的防效72 h后达53.62%。表明产香真菌普通瘤座孢GS-1菌株挥发物对番茄灰霉病有良好的生防效果。     

皮尔瑞俄类芽胞杆菌BC-39对番茄灰霉病的防治效果及防腐保鲜作用

为了探索拮抗菌株BC-39对番茄病害的控制作用,采用生长速率法、孢子萌发法测定了BC-39发酵液冻干物对番茄灰霉菌的抑制作用,并研究了菌悬液对盆栽番茄灰霉病的防治效果及其对番茄的防腐保鲜作用。经鉴定拮抗菌株BC-39为皮尔瑞俄类芽胞杆菌Paenibacillus peoriae,其发酵液冻干物抑制番茄灰霉菌菌丝生长和孢子萌发的EC₅₀分别为21.72 μg/mL和23.46 μg/mL;10⁶ CFU/mL BC-39菌悬液对盆栽番茄灰霉病的保护和治疗效果分别为70.1%和65.8%,对采后番茄灰霉病的防腐率为88.4%,经10⁶ CFU/mL菌悬液浸果处理后番茄的失重率为1.34%,低于清水对照。研究表明,皮尔瑞俄类芽胞杆菌BC-39可作为生防制剂应用于番茄灰霉病的防治及番茄的采后保鲜。     

Botrytis blight of Taiwanese toad lily caused by Botrytis elliptica (Berkeley) Cooke

In June 1998, leaf spots caused by Botrytis elliptica (Berkeley) Cooke were found on Taiwanese toad lily (Tricyrtis formosana Bak.) in Kanagawa Prefecture, Japan. This is the first report on Botrytis blight of T. formosana caused by B. elliptica.     

Bacterial wilt of bellflower caused by Ralstonia solanacearum in Japan

A sudden wilt of bellflower (Campanula lactiflora) was observed in Japan in 1997. A bacterium that formed white fluidal and mucoid colonies resembling those of Ralstonia solanacearum was isolated from the infected plants. The bacterium was bacteriologically identified as biovar 3 of R. solanacearum. This is the first report of R. solanacearum affecting a plant species of the Campanulaceae family.     

Characterization of two races of the stem and bulb nematode (Ditylenchus dipsaci) in Israel

Two distinct races ofDitylenchus dipsaci in Israel were identified: one, which infects and damages onion and garlic, reproduces on pea, but does not infect phalaris grass; and a second, which infects and damages phalaris—and, probably, also ‘Saia’ oats—but fails to infect onion and garlic. A new ‘garlic’ race of the nematode does not appear to have been introduced into Israel together with the ‘Lavinia’ garlic cultivar, as previously speculated, but rather the introduced Lavinia clone is highly susceptible to the existing ‘onion and garlic’ race ofD. dipsaci.     

Carbohydrate composition of apoplastic fluids isolated from tomato leaves inoculated with virulent or avirulent races of Cladosporium fulvum (syn. Fulvia fulva)

Inoculation of tomato (Lycopersicon esculentum) with virulent races ofCladosporium fulvum (compatible interactions), resulted in substantial changes of the carbohydrate composition of apoplastic fluids isolated from the leaves, during the course of the infection process. In addition to a decrease in the concentration of the translocation sugar sucrose, a transient accumulation of the hexoses glucose and fructose and an accumulation of the polyol mannitol were observed. The latter coincided with a rising level of mannitol dehydrogenase, an enzyme that reduces fructose to mannitol. Only minor changes were detected in the carbohydrate composition of apoplastic fluids isolated from leaves of uninoculated control plants or plants inoculated with avirulent races ofC. fulvum (incompatible interactions). The fungal metabolite mannitol was not detected in apoplastic fluids isolated from the latter plants.These results suggest that, upon colonization of the intercellular spaces by virulent races ofC. fulvum, apoplastic sucrose is hydrolyzed by a host and/or fungal invertase and the resulting hexoses, glucose and fructose, are converted into mannitol by the fungus. In incompatible tomato-C. fulvum interactions a functional nutritional relationship between plant and fungus is prevented by plant defense responses, which might explain why in these interactions the carbohydrate composition of apoplastic fluids is similar to that of uninoculated control plants.Samenvatting Inoculatie van tomaat (Lycopersicon esculentum) met virulente fysio's vanC. fulvum (compatibele interacties), leidde tot aanzienlijke veranderingen in de koolhydraatsamenstelling van apoplastische vloeistoffen die uit de bladeren werden geïsoleerd in de loop van het infectieproces. Naast een sterke daling van de concentratie van de transportsuiker saccharose, vond er ophoping van de hexoses glucose en fructose en de polyol mannitol plaats. De accumulatie van mannitol ging gepaard met een toename in de activiteit van mannitol dehydrogenase, een enzym dat fructose reduceert tot mannitol. In de koolhydraatsamenstelling van apoplastische vloeistoffen geïsoleerd uit bladeren van niet geïnoculeerde controleplanten, of planten geïnoculeerd met avirulente fysio's vanC. fulvum (incompatibele interacties), werden slechts kleine veranderingen waargenomen. De schimmelmetaboliet mannitol kon niet worden aangetoond in de apoplastische vloeistoffen die uit deze planten werden geïsoleerd.Deze resultaten suggereren dat bij de kolonisatie van de intercellulaire ruimtes door virulente fysio's vanC. fulvum, saccharose uit de apoplast wordt gehydrolyseerd door invertase afkomstig van de plant of de schimmel waarna de ontstane hexoses, glucose en fructose, door de schimmel worden omgezet in mannitol. Bij incompatibele tomaatC. fulvum interacties wordt een functionele voedingsrelatie tussen plant en schimmel voorkomen door het optreden van afweerreacties van de plant, hetgeen kan verklaren waarom in deze interacties de koolhydraatsamenstelling van apoplastische vloeistoffen vergelijkbaar is met die van niet geïnoculeerde controleplanten.     

烟粉虱传播的番茄褪绿病毒和番茄黄化曲叶病毒对不同番茄品种的复合侵染

为明确烟粉虱传播的番茄褪绿病毒(Tomato chlorosis virus,ToCV)与番茄黄化曲叶病毒(Tomato yellow leaf curl virus,TYLCV)对不同番茄品种的复合侵染情况,于2015年11月在山东省寿光市温室内采集13个番茄品种共390份疑似发病植株叶片,对不同番茄品种的TYLCV抗性和2种病毒的复合侵染以及温室内发病番茄植株上烟粉虱成虫的带毒率进行检测。结果表明,采集的13个番茄品种经分子标记检测鉴定均为TYLCV杂合抗性;不同番茄品种ToCV与TYLCV的复合侵染率存在明显差异,大果番茄粉宴和贝瑞上复合侵染率最高可达73.3%,而樱桃番茄八喜上未检测到这2种病毒的复合侵染。此外,在发病番茄植株上采集的烟粉虱成虫体内可检测到2种病毒,其中烟粉虱ToCV带毒率为90.7%,TYLCV带毒率为80.0%,同时检测到ToCV与TYLCV的概率为71.3%。表明ToCV和TYLCV的复合侵染在山东省番茄生产中普遍发生,烟粉虱可同时携带这2种病毒并广泛传播。     

Detoxification of α-tomatine by tomato pathogens Alternaria alternata tomato pathotype and Corynespora cassiicola and its role in infection

In tomato plants, α-tomatine, a steroidal glycoalkaloid saponin, inhibits fungal growth. Tomato pathogens that produce host-specific toxins, Alternaria alternata tomato pathotype causing Alternaria stem canker and Corynespora cassiicola causing Corynespora target spot, were investigated for sensitivity to α-tomatine. Although spore germination of A. alternata pathogenic and nonpathogenic to tomato and of C. cassiicola pathogenic to tomato was not affected by 0.1 mM α-tomatine, spore germination of C. cassiicola nonpathogenic to tomato was significantly inhibited. This result showed that A. alternata, regardless of its pathogenicity, and only the C. cassiicola pathogenic to tomato are resistant to α-tomatine. Germinating spores of A. alternata and C. cassiicola resistant to α-tomatine detoxified α-tomatine by degrading it to a less polar product. After inoculation of tomato leaves, spores of A. alternata and C. cassiicola nonpathogenic to tomato germinated and formed appressoria, but did not form infection hyphae in host tissues. When a host-specific toxin (CCT-toxin) produced by C. cassiicola pathogenic to tomato was added to nonpathogenic spores, colonization within leaves was observed in A. alternata, but not in C. cassiicola. On the other hand, when spores of C. cassiicola nonpathogenic to tomato were suspended in spore germination fluid of nonpathogenic A. alternata with α-tomatine detoxification activity, the fungus could be induced to colonize leaves in the presence of CCT-toxin. These results indicate that A. alternata tomato pathotype and C. cassiicola pathogenic to tomato detoxify α-tomatine during infection and that this detoxification is essential for host colonization by pathogens that produce host-specific toxins.     

Occurrence of strawberry marginal chlorosis caused by “Candidatus Phlomobacter fragariae” in Japan

In February 2004, a disease of strawberry (Fragaria × ananassa Duch.), causing little-leaf, proliferation, malformation of fruits, and marginal chlorosis of leaves, occurred in Ehime Prefecture, Japan. The causal pathogen was identified as a phloem-restricted bacterium-like organism, “Candidatus Phlomobacter fragariae,” based on polymerase chain reaction (PCR) detection, electron microscopy, and sequence analysis of PCR products. This is the first report of strawberry marginal chlorosis in Asia. The nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under the accession number AB246669.     

Cylindrocladium brown leaf spot on Howea belmoreana caused by Calonectria ilicicola (anamorph: Cylindrocladium parasiticum) in Japan

Brown leaf spot disease caused by Cylindrocladium was found on Howea belmoreana on Hachijojima Island, Tokyo, Japan, in December 2001. Typical symptoms were incited after artificial inoculation. A culture of white mycelia, isolated from leaf spot symptoms, produced reddish perithecia of a nectriaceous fungus. Based on morphological and molecular analyses, this fungus was identified as Calonectria ilicicola (anamorph: Cylindrocladium parasiticum). Pathogenicity of this fungus on five plants cultivated on Hachijojima Island was confirmed by artificial inoculation. This report is the first on Cylindrocladium brown leaf spot of H. belmoreana caused by C. ilicicola (anamorph: Cy. parasiticum).