Loop‐mediated isothermal amplification (LAMP) assays for rapid detection of Pyrenopeziza brassicae (light leaf spot of brassicas)

Pyrenopeziza brassicae (anamorph Cylindrosporium concentricum) is an ascomycete fungus that causes light leaf spot (LLS) disease of brassicas. It has recently become the most important pathogen of winter oilseed rape (Brassica napus) crops in the UK. The pathogen is spread by both asexual splash‐dispersed conidia and sexual wind‐dispersed ascospores. Such inoculum can be detected with existing qualitative and quantitative PCR diagnostics, but these require time‐consuming laboratory‐based processing. This study describes two loop‐mediated isothermal amplification (LAMP) assays, targeting internal transcribed spacer (ITS) or β‐tubulin DNA sequences, for fast and specific detection of P. brassicae isolates from a broad geographical range (throughout Europe and Oceania) and multiple brassica host species (B. napus, B. oleracea and B. rapa). Neither assay detected closely related Oculimacula or Rhynchosporium isolates, or other commonly occurring oilseed rape fungal pathogens. Both LAMP assays could consistently detect DNA amounts equivalent to 100 P. brassicae conidia per sample within 30 minutes, although the β‐tubulin assay was more rapid. Reproducible standard curves were obtained using a P. brassicae DNA dilution series (100 ng–10 pg), enabling quantitative estimation of amounts of pathogen DNA in environmental samples. In planta application of the β‐tubulin sequence‐based LAMP assay to individual oilseed rape leaves collected from the field found no statistically significant difference in the amount of pathogen DNA present in parts of leaves either with or without visible LLS symptoms. The P. brassicae LAMP assays described here could have multiple applications, including detection of symptomless host infection and automated real‐time monitoring of pathogen inoculum.     

Survival of Leptosphaeria maculans in soil on residues of Brassica napus in South Australia

The survival of Leptosphaeria maculans , which causes phoma stem canker (blackleg), on oilseed rape residues ( Brassica napus ) in South Australia was investigated. Using a quantitative polymerase chain reaction (PCR) assay for L. maculans DNA, the pathogen was mainly detected in the upper 5 cm of the soil profile, including residues on the soil surface. As the size of organic matter particles in the soil decreased, so did the quantity of L. maculans detected in them. To obtain representative data for a field, at least 30 subsamples needed to be collected over the 0·81 ha area studied. In a survey of 49 commercial fields in South Australia, most L. maculans was detected in fields 1 year after oilseed rape had been grown, with less detected after 2 years and negligible amounts 3 years or more after cropping. The diagnostic DNA-based assay for L. maculans reduced the time and cost of studying L. maculans survival in soil and increased the sensitivity and accuracy of results compared with estimates of propagule number of colony-forming units on a semiselective medium.     

Geostatistical analysis of the distribution of Leptosphaeria species causing phoma stem canker on winter oilseed rape (Brassica napus) in England

In June/July 2001, 2002, 2003 and 2006, regional variation in distribution of the pathogens Leptosphaeria maculans and L. biglobosa that are causally associated with phoma stem canker was surveyed on winter oilseed rape crops in England. In 2001–2003, when isolates from basal cankers were visually identified as L. maculans or L. biglobosa based on cultural morphological characteristics, 70% were L. maculans and 30% L. biglobosa . In 2001, 2002, 2003 and 2006, when amounts of DNA of each species in basal cankers were determined by quantitative PCR, the abundance of L. maculans DNA was greater than that of L. biglobosa DNA in 77% of samples. When regional differences in amounts of L. maculans and L. biglobosa DNA were mapped geostatistically, quantities of L. maculans DNA were greater in cankers from southern England and those of L. biglobosa DNA were greater in northern England. A comparison with geostatistically mapped predictions made using a weather-based model describing stages in development of phoma stem canker epidemics suggested that these differences in Leptosphaeria populations may have been a consequence of differences in temperature after onset of leaf spotting between northern and southern England. Both PCR and morphological evidence suggested that the abundance of L. maculans in England has increased since the last surveys in the 1980s. Implications of these surveys for control of phoma stem canker are discussed.     

The incidence of Alternaria spp. and Leptosphaeria maculans in commercial brassica seed in the United Kingdom

Tests on samples of oilseed rape seed ( Brassica napus ) sown in the UK between 1981 and 1984 indicated that on average 25% of samples were infected with Alternaria brassicae and 61% with Leptosphaeria maculans , with maximum incidences of infection of 19 and 4.2% respectively. Much infection by Alternaria spp. occurred on vegetable and forage brassica seed produced in the UK between 1979 and 1983. In B. oleracea types A. brassicicola occurred most frequently, affecting 88% of samples and up to 55% of seeds. A. brassicae was detected in 44% of B. oleracea samples and in up to 13% of seeds. Little Alternaria infection occurred in swede or forage rape samples (B. napus ), but A. brassicae affected up to 8–5% of seeds in turnip samples ( B. campestris ). L. maculans occurred in 44% of samples of vegetable and forage brassica seed produced in the UK, with a maximum of 4–6% infected seeds. A. brassicicola was present in 73% of samples of imported B. oleracea seed, affecting up to 25.5% of seeds. A. brassicae was absent from these samples and little L. maculans was detected. Pathogenicity tests on isolates of L. maculans from infected seeds indicated that virulent pathotypes were present in 16 rape seed samples but in only one sample (swede) of vegetable or forage brassica seed. The high incidence of seed infection by these pathogens emphasizes the importance of applying fungicide treatments to all types of brassica seed.     

Epidemiology and management of Leptosphaeria maculans (phoma stem canker) on oilseed rape in Australia, Canada and Europe

Phoma stem canker (blackleg), caused by Leptosphaeria maculans , is an important disease on oilseed rape (canola, rapeseed, Brassica napus , Brassica juncea , Brassica rapa ) causing seedling death, lodging or early senescence in Australia, Canada and Europe, but not in China. The two forms of L. maculans (A group and B group) that occur on oilseed rape are now considered to be separate species. The epidemiology and severity of phoma stem canker differs between continents due to differences in the pathogen population structure, oilseed rape species and cultivars grown, climate and agricultural practices. Epidemics are most severe in Australia, where only the A group occurs, and can be damaging in Canada and western Europe, where both A and B groups occur, although their proportions vary within regions and throughout the year. Epidemics are slight in China, where the A group has not been found. Dry climates (Australia, western Canada) lengthen the persistence of infected debris and may synchronize the release of airborne ascospores (after rain) with seedling emergence. L. maculans spreads from cotyledon and leaf infections down petioles to reach the stem, with infections on cotyledons and leaves early in the season producing the most damaging stem cankers at the stem base (crown). Development of both crown cankers and phoma stem lesions higher up stems is most rapid in regions with high temperatures from flowering to harvest, such as Australia and Canada. Breeding for resistance (genetic, disease escape or tolerance), stubble management, crop rotation and fungicide seed treatments are important strategies for control of phoma stem canker in all areas. Fungicide spray treatments are justified only in regions such as western Europe where high yields are obtained, and accurate forecasts of epidemic severity are needed to optimize their use.     

Splash dispersal of Leptosphaeria maculans pycnidiospores and the spread of blackleg on oilseed rape

The fungus Leptosphaeria maculans causes blackleg (phoma stem canker), one of the most serious diseases of oilseed rape. The role of pycnidiospores produced during asexual reproduction is poorly documented and limits the understanding of the pathogen's population dynamics. The objectives of this study were to assess rain-splash dispersal of pycnidiospores of L. maculans from phoma leaf spots, and transmission of the disease from oilseed rape stubble carrying pycnidia. The work was conducted in still air with either a drop generator or a rain simulator. The impact of simulated incident drops on phoma leaf spots resulted in the dispersal of L. maculans pycnidiospores within splash droplets. Ninety per cent of the spores were collected within 14 cm of the source and a few were regularly observed up to 40 cm. Pycnidiospores produced on oilseed rape stubble and dispersed by simulated rain infected oilseed rape trap plants in a spatial pattern that matched the spatial dispersal of the pycnidiospores. In the field, rain-splash dispersal of pycnidiospores could increase the pathogen population and may enhance sexual reproduction by facilitating the mating of initially spatially separated isolates of opposite mating type.     

Strategies to prevent spread of Leptosphaeria maculans (phoma stem canker) onto oilseed rape crops in China; costs and benefits

Field experiments in Europe have shown that Chinese cultivars of winter oilseed rape ( Brassica napus ) are very susceptible to the pathogen Leptosphaeria maculans (cause of phoma stem canker). Climatic and agronomic conditions in China are suitable for L. maculans since the closely related but less damaging pathogen L. biglobosa occurs on the winter and spring oilseed rape crops there. Major gene resistance to L. maculans is not durable; when introduced into commercial oilseed rape cultivars it is rapidly rendered ineffective by changes in the pathogen population. The threat to Chinese oilseed rape production from L. maculans is illustrated by the way in which L. maculans has spread into other areas of the world where previously only L. biglobosa was present, such as Canada and Poland. Models were developed to describe the spread (in space and time) of L. maculans across Alberta province, Canada, based on survey data collected over a 15-year period. These models were used to estimate the potential spread of L. maculans across the Yangtze river oilseed rape growing areas of China and its associated costs. Short-term strategies to prevent occurrence of severe phoma stem canker epidemics in China include training of extension workers to recognise symptoms of the disease and use of PCR-based diagnostics to detect the pathogen on imported seed. Long-term strategies include the introduction of durable resistance to L. maculans into Chinese oilseed rape cultivars as a component of an integrated disease management programme. The costs of such strategies in relation to costs of a phoma stem canker epidemic are discussed.     

油菜茎基溃疡病菌的实时荧光PCR检测

 根据油菜茎基溃疡病菌Leptosphaeria maculans与其近似种ITS序列的差异,设计了检测L. maculans的引物Lmb3/R2和探针Probe-M,建立了L. maculans的实时荧光PCR检测方法。试验结果表明,来自加拿大、澳大利亚和乌克兰等国的22株L. maculans菌株都能得到阳性扩增,而供试的30株L. biglobosa菌株和6株其他菌株以及空白对照没有荧光信号的增加。该检测方法的灵敏度达到4 pg菌丝DNA,整个检测过程控制在4 h内,其快速、特异和灵敏的特点可以满足进境油菜籽样品的快速初检以及病菌分离物的快速鉴定。     

A species of Unguicularia on oilseed rape, and its importance in studies of the epidemiology of light leaf spot (Pyrenopeziza brassicae)

Apothecia of a species of Unguicularia were found on fallen leaves of oilseed rape from November 1989 to April 1990, and from January to July 1991. On the basis of the limited literature on this genus, these apothecia were tentatively identified as Unguicularia cfr. raripila, a species not previously reported in the UK, or on oilseed rape. Although saprophytic, it is of significance in oilseed rape crops, as its ascospores are similar in size and shape to those of the important pathogen Pyrenopeziza brassicae, the cause of light leaf spot. The ascospores of both species can be dispersed either as single spores or in groups, although those of U. cfr. raripila are more often dispersed in groups. Due to confusion in distinguishing the ascospores of these two species, it is likely that studies of the epidemiology of light leaf spot using spore samplers have overestimated the numbers of ascospores of P. brassicae dispersed, and hence their potential contribution to epidemics. Apothecia of U. cfr. raripila were abundant in the spring of both 1990 and 1991, but those of P. brassicae were much more rare. The species of Unguicularia is described.     

Survival of Leptosphaeria maculans and associated mycobiota on oilseed rape stubble buried in soil

Leptosphaeria maculans , the causal agent of phoma stem canker on oilseed rape, is an important pathogen in oilseed rape growing regions of the world, including Australia. Survival of L. maculans and associated mycobiota on oilseed rape stubble buried for 13 months in field soil and in sandy soil was studied under South Australian environmental conditions. Stubble weight decreased significantly by the end of the burial period, more so in field (53·7%) than in sandy soil (22%). Pseudothecia did not develop on stubble buried in field soil and few formed when buried in sandy soil. Moist incubation of stubble following retrieval from both media generated pseudothecia; however, pseudothecial development ceased on stubble that had been buried for 10 and 12 months in field and sandy soil, respectively. In total, 20 and 36 genera of fungi were isolated from stubble before and after burial, respectively. Alternaria spp., L. maculans and Stemphylium botryosum were isolated from 81·7, 70 and 60% of stubble pieces before burial, respectively. Isolation frequency of these species decreased significantly throughout the burial period in both media. Conversely, isolation frequency of Stachybotrys chartarum , Fusarium spp. and Trichoderma spp., having pre-burial frequencies of 26·7, 16·7 and 2·5%, respectively, increased over the burial period regardless of soil type. These findings suggest that inoculum production of L. maculans decreases with the increasing burial duration in field soil over 10 months, before ceasing, and this may be due to associated mycobiota.     

Visual and PCR assessment of light leaf spot (Pyrenopeziza brassicae) on winter oilseed rape (Brassica napus) cultivars

Methods to assess light leaf spot ( Pyrenopeziza brassicae ) on winter oilseed rape cultivars were compared in laboratory, controlled-environment and field experiments. In controlled-environment experiments with seedling leaves inoculated at GS 1,4, the greatest differences in percentage area affected by P. brassicae sporulation were observed with inoculum concentrations of 4 × 10³ or 4 × 10⁴ spores mL⁻¹, rather than 4 × 10² or 4 × 10⁵ spores mL⁻¹, but older leaves had begun to senesce before assessment, particularly where they were severely affected by P. brassicae . In winter oilseed rape field experiments, a severe light leaf spot epidemic developed in 2002/03 (inoculated, September/October rainfall 127·2 mm) but not in 2003/04 (uninoculated, September/October rainfall 40·7 mm). In-plot assessments discriminated between cultivars best in February/March in 2003 and June in 2004, but sometimes failed to detect plots with many infected plants (e.g. March/April 2004). Ranking of cultivar resistance differed between seedling experiments done under controlled-environment conditions and field experiments. The sensitivity of detection of P. brassicae DNA extracted from culture was greater using the PCR primer pair PbITSF/PbITSR than using primers Pb1/Pb2. P. brassicae was detected by PCR (PbITS primers) in leaves from controlled-environment experiments immediately and up to 14 days after inoculation, and in leaves sampled from field experiments 2 months before detection by visual assessment.     

The occurrence of Altemaria brassicicola, Altemaria brassicae and Leptosphaeria maculans in brassica seed crops in south-east England between 1976 and 1980

Surveys of brassica seed crops in Essex and Suffolk showed that Alternaria spp. occurred in many crops of Brassica oleracea in the years 1977–1980 affecting up to 100% of pods in each year. A. brassicicola was the only species present in 1976 and was the domioant pathogen in succeeding years but A. brassicae increased in frequency from 1977, causing 24% of the pod infections on B. oleracea in 1980. The latter fungus was the dominant species in crops of oilseed rape ( B. napus ), the mean incidence of infected pods increasing from 0.5% in 1977 to 2.9% in 1980. Leptosphaeria maculans was not found in horticultural brassica seed crops in 1976 but occurred abundantly in these crops and in oilseed rape crops in each of the following years.     

进境澳大利亚大麦夹杂油菜茎基溃疡病菌的检疫鉴定

采用常规平板分离法, 从进境澳大利亚大麦中夹杂的油菜籽上获得1株疑似油菜茎基溃疡病菌的菌株01829?通过致病性测定?形态学观察?特异性引物扩增?ITS序列比对分析, 对01829进行了种类鉴定?结果表明:菌株01829在PDA培养基上生长较慢, 菌落边缘不整齐, 产生大量分生孢子器和分生孢子; 采用特异性引物对LMR1-D和Lmb分别进行PCR检测, 结果均有预期扩增片段产生; 基于ITS序列构建的系统发育树中, 菌株01829和GenBank中其他油菜茎基溃疡病菌相关序列聚在同一分支; 菌株01829接种油菜子叶和茎基部, 在子叶和茎基部接种部位分别引起叶斑和凹陷溃疡斑?根据上述试验结果, 将菌株01829鉴定为油菜茎基溃疡病菌, 这是我国口岸首次从进境澳大利亚大麦中截获油菜茎基溃疡病菌?     

Electrophoretic analysis of natural populations of Leptosphaeria maculans directly from leaf lesions

On oilseed rape, 207 leaf lesions attributed to Leptosphaeria maculans were classified as typical or atypical. Starch gel electrophoresis of glucose phosphate isomerase (GPI) performed on extracts of 229 leaf lesions comprising the 207 with L. maculans symptoms and 22 with Pseudocercosporella capsellae symptoms, yielded four different electrophoretic patterns of alloenzymes designated ET1 to ET4. In addition to ET1 and ET2, characteristic respectively of A- (highly virulent) and B- (weakly virulent) group isolates of L. maculans , the previously undescribed ET3 allozyme was recovered from a few typical and atypical L. maculans leaf lesions. The fastest ET4 allozyme was specific to P. capsellae . All but two typical leaf lesions produced the ET1 allozyme, whereas atypical lesions produced one of the three L. maculans allozymes. Occasionally a mixture of two allozymes was recovered from a same-leaf lesion. GPI electrophoresis performed directly on leaf lesions proved a useful and reliable method to identify L. maculans , and to differentiate between L. maculans and P. capsellae . This method of discrimination enabled deductions, from 377 leaf lesions analysed, about the structure of L. maculans populations on different oilseed rape varieties.     

Conidia as a Substrate for Internal Transcribed Spacer-Based PCR Identification of Members of the Leptosphaeria maculans Species Complex

ABSTRACT The blackleg disease of oilseed rape is caused by an ascomycete species complex termed Leptosphaeria maculans (anamorph Phoma lingam). L. maculans isolates collected worldwide were gathered in the International Blackleg of Crucifers Network (IBCN) collection. Representative IBCN isolates, along with one P. nigrificans isolate, were further analyzed using polymerase chain reaction (PCR) amplification of the internal transcribed spacer (ITS) region. ITS size polymorphism discriminated three groups: (i) P. nigrificans, (ii) Tox(+) and 'Lepidium' isolates, and (iii) NA1, NA2, NA3, 'Thlaspi', and 'Erysimum' isolates. Digestion of the ITS region with 19 selected endonucleases showed restriction site polymorphism between the different subgroups: digestion with RsaI could discriminate Tox(+) from 'Lepidium' isolates, whereas digestion with four enzymes, i.e., HaeIII, EcoRII, RsaI, and AluI, was needed to discriminate between NA1, NA2, NA3, 'Thlaspi', and 'Erysimum' isolates. No restriction site polymorphism was observed between isolates within the 'Thlaspi', Tox(+), NA1, and NA2 subgroups. Direct amplification of the ITS region could be achieved using intact conidia, collected either in axenic cultures or on leaf lesions, with only a 4-min 95 degrees C denaturation step prior to PCR reaction. A routine identification protocol requiring no DNA extraction and a sequential use of a few restriction enzymes following PCR has been used successfully for large-scale identification of French field isolates.     

Glucosinolates and disease resistance in oilseed rape (Brassica napus ssp. oleifera)

The hypothesis that enhancing the level of glucosinolates in leaves of oilseed rape would increase resistance to two fungal pathogens was tested. Thirty-three Brassica napus lines with variable leaf glucosinolate contents were assessed for susceptibility to infection by Leptosphaeria maculans and Alternaria spp. under field conditions. The data clearly showed that there was not a simple positive relation between glucosinolate content and resistance, and that the hypothesis can be refuted. The level of Alternaria infection of both leaves and pods was positively correlated with glucosinolate content, while for L. maculans there was no significant relationship between the two variables. It is suggested that these pathogens have become specialists on glucosinolate-containing taxa in an analogous way to insect herbivores.     

Determining frequencies of avirulent alleles in airborne Leptosphaeria maculans inoculum using quantitative PCR

Phoma stem canker (blackleg disease) of Brassica napus (oilseed rape, canola) is caused by the fungus Leptosphaeria maculans. Frequencies of avirulent alleles for loci where virulence can be associated with gene deletion (AvrLm1 and AvrLm6) were determined in samples of L. maculans airborne ascospore inoculum using quantitative PCR. The accuracy, reproducibility and limitations of detection were determined. Changes in the frequency of avirulent alleles were determined for the 2006/2007, 2007/2008 and 2008/2009 growing seasons for winter oilseed rape in the UK. The frequency of AvrLm1 remained small (between 9% and 16%), whilst the frequency of AvrLm6 fluctuated between 35% and 66%. Estimation of frequencies of avirulent alleles in airborne pathogen inoculum gives an efficient and unbiased method to assess the potential of crop cultivars with corresponding resistance genes being at risk of disease.     

Effects of fungicides on in vitro spore germination and mycelial growth of the phytopathogens Leptosphaeria maculans and L. biglobosa (phoma stem canker of oilseed rape)

BACKGROUND: Phoma stem canker, caused by the coexisting related fungal pathogens Leptosphaeria maculans (Des.) Ces. & de Not and L. biglobosa Shoemaker & H Brun, is a major disease of winter oilseed rape in the UK. Annually, over 90% of UK crops receive at least one foliar application of fungicide, but little is known about the sensitivity of the more damaging L. maculans and the less damaging L. biglobosa to these fungicides. The effects of flusilazole, tebuconazole and Methyl Benzimidazole Carbamate (MBC) fungicides (benomyl and carbendazim) on the germination of ascospores, conidia and germ tube growth of both species were examined. Isolates collected from different oilseed rape crops in England and Wales were assessed for their mycelial growth on fungicide‐amended medium, and ED₅₀ values were calculated. RESULTS: Leptosphaeria maculans and L. biglobosa differed in their sensitivity to fungicides. Conidial germination of L. maculans was more sensitive to these fungicides than that of L. biglobosa. Isolates of L. maculans had smaller ED₅₀ values for mycelial growth for all fungicides tested than isolates of L. biglobosa. CONCLUSION: These results suggest that fungicide applications might affect the structure of L. maculans/L. biglobosa populations in UK winter oilseed rape crops. Copyright © 2009 Society of Chemical Industry     

Occurrence of a new subclade of Leptosphaeria biglobosa in Western Australia

Stem canker of crucifers is caused by an ascomycete species complex comprising of two main species, Leptosphaeria maculans and L. biglobosa. These are composed of at least seven distinct subclades based on biochemical data or on sequences of internal transcribed spacer (ITS), the mating type MAT1-2 or fragments of actin or beta-tubulin genes. In the course of a wide-scale characterization of the race structure of L. maculans from Western Australia, a few isolates from two locations failed to amplify specific sequences of L. maculans, i.e., the mating-type or minisatellite alleles. Based on both pathogenicity tests and ITS size, these isolates were classified as belonging to the L. biglobosa species. Parsimony and distance analyses performed on ITS, actin and beta-tubulin sequences revealed that these isolates formed a new L. biglobosa subclade, more related to the Canadian L. biglobosa 'canadensis' subclade than to the L. biglobosa 'australensis' isolates previously described in Australia (Victoria). They are termed here as L. biglobosa 'occiaustralensis'. These isolates were mainly recovered from resistant oilseed rape cultivars that included the Brassica rapa sp. sylvestris-derived resistance source, but not from the susceptible cv. Westar. The pathogenicity of L. biglobosa 'occiaustralensis' to cotyledons of most oilseed rape genotypes was higher than that of L. biglobosa 'canadensis' or L. biglobosa 'australensis' isolates.     

New Avirulence Genes in the Phytopathogenic Fungus Leptosphaeria maculans

ABSTRACT Leptosphaeria maculans, the causal agent of stem canker of oilseed rape (Brassica napus), develops gene-for-gene interactions with oilseed rape, and four L. maculans avirulence (AVR) genes (AvrLm1, AvrLm2, AvrLm4, and alm1) were previously genetically characterized. Based on the analysis of progeny of numerous in vitro crosses between L. maculans isolates showing either already characterized or new differential interactions, this work aims to provide an overview of the AVR genes that may specify incompatibility toward B. napus and the related species B. juncea and B. rapa. Two novel differential interactions were thus identified between L. maculans and B. napus genotypes, one of them corresponding to a complete resistance to European races of L. maculans. In both cases, a single gene control of avirulence was established (genes AvrLm3 and AvrLm7). Similarly, a single gene control of avirulence toward a B. rapa genotype, also resistant to European L. maculans isolates, was demonstrated (gene AvrLm8). Finally, a digenic control of avirulence toward B. juncea was established (genes AvrLm5 and AvrLm6). Linkage analyses demonstrated that at least four unlinked L. maculans genomic regions, including at least one AVR gene cluster (AvrLm1-AvrLm2-AvrLm6), are involved in host specificity. The AvrLm3-AvrLm4-AvrLm7 region may correspond either to a second AVR gene cluster or to a multiallelic AVR gene.