Fungal foliar diseases in Withania somnifera and its effect on secondary metabolites

Withania somnifera is a promising revitalizing medicinal herb. The plant is affected by foliar diseases in Lakkavalli forest region of Bhadra Wildlife Sanctuary. The symptomatology of foliar fungal disease incidence, severity and distribution in the study area was examined during 2006–2009. The seedborne nature and transmission of the causal pathogen and its management with seed dressing fungicides were studied. The results of the study indicated that Alternaria alternata caused severe leaf spot disease, while Myrothecium roridum and Fusarium oxysporum caused minor diseases. Based on the internal transcribed spacer (ITS1 and ITS2) regions of rDNA, the major pathogen was identified as A. alternata. The disease is homogeneously distributed in Lakkavalli forest region and high severity is recorded during November. Alternaria alternata and Fusarium oxysporum were the dominant seedborne pathogens that are transmitted to seedlings. Among the seed dressing fungicides used, Hyzeb was the most effective, followed by Captra, Antracol and Bavistin, in reducing the incidence of A. alternata and other seedborne fungi. The infected W. somnifera foliages had decreased steroids and alkaloids and increased phenolics and flavonoids. Analysis of alkaloids in diseased foliages by high performance thin layer chromatography indicated the occurrence of transformed compounds at R_f = 0.1, 0.77 (254 nm) and 0.2 (366 nm).     

Fungal foliar diseases of Rauwolfia serpentina in wild,its seasonal occurrence,seed transmission and disease management

Rauwolfia serpentina is an important medicinal herb. Studies were conducted to determine causal organisms of foliar diseases in R. serpentina in Bhadra Wildlife Sanctuary during 2006–2009. The foliar disease incidence and its distribution and disease severity in nine state forest regions of the sanctuary were determined. The seedborne nature and transmission of the causal organism was also determined. The management of seedborne inoculum was done by seed dressing with fungicides. The effect of foliage infection on secondary metabolite content was also determined. Results of the present study indicated that Cercospora rauwolfiae is major leaf spot disease causing pathogen. The disease is homogeneously distributed through the study area. The foliar disease severity was high in Kagemanegiri forest during October–November. The minor leaf spot disease caused by Alternaria alternata occurred occasionally. Alternaria alternata is seedborne and seed transmitted and could be managed by seed treatment with Captra or Hyzeb. The secondary metabolites like alkaloids and steroids decreased with increase in foliar infection by C. rauwolfiae, while phenol and flavonoid contents increased. The study suggested that R. serpentina is affected in wild by C. rauwolfiae and A. alternata. The latter pathogen is seedborne and seed transmitted and controlled by seed treatment.     

Phoma Leaf Spot Disease of Tinospora Cordifolia and its Effect on Secondary Metabolite Production

Tinospora cordifolia is one of the important medicinal climbers growing extensively in Bhadra Wildlife Sanctuary, Karnataka, India. The plant foliages were found infected with Phoma putaminum in different parts of the sanctuary. A three‐year (August 2006–July 2009) study of the disease due to the pathogen indicated that the disease incidence (DI) ranged from 0 to 100% (maximum in Kakanahasudi), while disease severity (DS) ranged from 1.60 to 45.00% (maximum in Madhuguni). The environmental parameters like rainfall and relative humidity (RH) correlated significantly with DI and DS, while temperature correlated negatively. The regression analysis indicated that DI and DS were affected due to increase in RH and decrease in temperature and rainfall. The spatial heterogeneity of the foliar disease determined by the binary form of modified Taylor's power law indicated that the disease incidence showed the regular pattern of dispersion (P < 0.001) in seven forest regions and heterogenous pattern (P < 0.001) in one forest region. The result also indicated that the alkaloid content decreased drastically following infection with P. putaminum, while phenol, flavonoid and steroid contents increased with increase in the severity of infection.     

Biological control of anthracnose of chilli with rhizosphere and rhizoplane fungal isolates from grasses

The fungal species from rhizosphere and rhizoplane of perennial grasses of the Western Ghats of India were studied for their pathogenicity, antagonism in vitro, substrate and root colonization abilities, rhizosphere competence, growth in different soil pH and inoculum shelf-life. Out of 138 non-pathogenic fungal isolates tested, 85 were antagonistic in vitro to chilli anthracnose pathogen Colletotrichum capsici. Fifteen isolates with >60% inhibition zone to pathogen culture had saprophytic and root and rhizosphere colonization abilities. The sorghum grain inocula of test antagonistic fungi- Fusarium oxysporum, Chaetomium globosum and Trichoderma harzianum had the shelf-life of 90 days at 20?±?2?°C and required optimum soil pH of 6.5. The above fungal isolates when tested for biocontrol of anthracnose disease in greenhouse and field caused reduction in seedling mortality and decreased disease incidence and severity at various plant growth stages and significant reduction in chilli fruit and seed infection. The test antagonistic fungi promoted seedling and mature plant growth and increased fruit and seed yield. Populations of these antagonistic fungi were fairly high in chilli rhizosphere at harvest. The present study indicated that antagonistic fungi from grass rhizosphere and rhizoplane could be used to control anthracnose and promote plant growth, and increase yield of chilli in field.     

Neck blast disease influences grain yield and quality traits of aromatic rice

A critical investigation was conducted to find out the effect of neck blast disease on yield-contributing characters, and seed quality traits of aromatic rice in Bangladesh. Both healthy and neck-blast-infected panicles of three aromatic rice cultivars (high-yielding and local) were collected and investigated at Plant Pathology Division, Bangladesh Rice Research Institute (BRRI), Gazipur, Bangladesh. All of the tested varieties were highly susceptible to neck blast disease under natural conditions, though no leaf blast symptoms appear on leaves. Neck blast disease increased grain sterility percentages, reduced grain size, yield and quality traits of seeds. The degrees of yield and seed quality reduction depended on disease severity and variety's genetic make-up. Unfilled grains were the main source of seed-borne pathogen, especially for blast in the seed lot. Transmission of blast pathogen from neck (panicle base) to seed was very poor. These findings are important, especially concerning the seed certification programme in which seed lots are certified on the basis of field inspection. Finally, controlled experiments are needed to draw more critical conclusions.     

Celery leaf spot: sources of inoculum

The relative importance of infected celery seed, infected leaf debris in the soil, and infected wild celery, in the incidence of Septoria leaf spot in cultivated celery has been investigated. Infection can be caused when the sole source of inoculum is viable spores on the seed surface; such spores are considered to be the main cause of disease outbreaks. Of all the seed samples examined, 93% were infected by Septoria spp. In untreated seed samples, 40% carried viable spores which survived for up to 15 months on seed stored in the laboratory, and for longer periods on seed stored at -20d? C. However, ageing of seed is not recommended as a commercial control measure. The fungus was not found in seed embryos or endosperms but mycelium was present in pericarps and testas. Unconfirmed evidence suggests that in favourable circumstances new spores might be produced in old seed-borne pycnidia.     

Improving the biological control of Botryodiplodia disease on some Annona cultivars using single or multi-bioagents in Egypt

Botryodiplodia disease caused by Botryodiplodia theobromae is a recently disease of some Annona cultivars in Egypt, particularly in Behera Governorate, characterized by stem purple lesions, dieback, flowers, and fruits dry and soft rot. Six fungal and bacterial bioagents, i.e., Trichoderma koningii, Trichoderma hamatum, Pseudomonas fluorescens, Pseudomonas putida, Tilletiopsis minor, and Tilletiopsis washingtonensis were tested either solely or at different amalgamations against Botryodiplodia disease, as foliar spraying using three Annona cultivars, i.e., Balady and Abd El-Razik (Annona squamosa) and Hindy (Annona cherimola). In vitro, studies revealed a significant inhibition towards the conidial germination of B. theobromae as well as on the disease incidence on artificially inoculated branches and fruits in the presence of the aforementioned bioagents. An unmistakable reduction in the disease was conspicuous under the action of multi-bioagent conduct. The bioagents were tested during 2003 and 2004 agricultural seasons under the field conditions at Nobaria, (Behera Governorate). A single application and all possible mixture of two or three of the bioagents were applied at 15 days intervals as a foliar spray. Botryodiplodia disease severity and sporulation of the pathogen were always reduced, when the multi-bioagents were applied. When Trichoderma spp. and Pseudomonads spp. were blended together, the disease was greatly abridged in the three tested cultivars compared to any of the sole bioagents. The multi-bioagents were more effective than any sole or even double treatments. The application of multi-bioagents also resulted in a significant increase of fruit yield.     

Induction of systemic resistance in rice to bacterial blight by 1,2,3-benzothiadiazole 7-carbothioic acid-S-methyl ester (BTH) treatments

Use of BTH to evaluate the disease severity and induction of systemic resistance in rice to bacterial blight caused by Xanthomonas oryzae pv. oryzae is investigated. A new batch of 25 isolates of Xanthomonas oryzae pv. oryzae was obtained from infected rice lead tissues collected from Pattambi, Kerala, south India. Their identification was confirmed by the plant inoculation test on to IR24 rice plants which produced characteristic bacterial blight lesions. Among the 25 of X.o. pv. oryzae, four of the isolates were also virulent to IRBB21 rice plants (a near isogenic line of IR24) which carry the Xa-21 gene for BB resistance. The results confirm that there are pathogen strains in India which can overcome Xa-21. Development of BB lesions developed in IR24 (BB susceptible) plants after they were treated with BTH applications either as seed treatment or as foliar spray at 0.1, 0.5, 0.1 and 2.0 mM concentrations showed that even at 2.0 mM concentrations, IR24 plants were still susceptible to the pathogen. There was very little or marginal effect of BTH on the induction of resistance to BB in IR24 rice plants. When the same concentrations of BTH were applied to IRBB21 (Xa-21) rice plants, they showed pronounced triggering of systemic resistance to BB pathogen even at 0.1 mM concentration of BTH applied either as seed treatment or as foliar spry. Disease severity index was reduced to 5 (against a score of 9 in untreated) and there was 85–86% reduction in BB incidence in plants that received 0.1 mM BTH. These results provide evidence that BTH-induced systemic resistance complements the R-gene resistance in IRBB21 plants but not in IR24 rice plants.     

Methyl jasmonate stimulates polyamines biosynthesisand resistance against leaf rust in wheat plants

Abstract

Leaf rust of wheat (Triticum aestivum L.), incited by Puccinia recondita ex Desm. f. sp. tritici Eriks, is one of the most important wheat diseases in Egypt. Methyl jasmonate (MJ) is a potential plant elicitor which induces a wide range of chemical and anatomical defense reactions in conifers and might be used to increase systemic resistance against biotic damage. In the greenhouse, different concentrations of MJ (10, 20 and 30 mM) were applied as seed soaking plus foliar spray or only as foliar spray to control leaf rust and induction of secondary compound production in leaves of wheat plants. Foliar spray was applied after 30 and 50 days of sowing. Results indicated that all concentrations and treatments reduced the severity of rust disease caused by P. recondita f. sp. tritici in wheat leaves during 45 days of inoculations. Disease incidence was decreased significantly in MJ-treated plants as seed soaking plus foliar spray with 20 and 30 mM when compared to 10 mM MJ or control plants. The study revealed that, with increasing concentrations of MJ, the secondary metabolites were greatly increased. Endogenous levels of both free and conjugated putrescine, spermidine and spermine increased in response to the elicitor. Activities of polyamine biosynthetic enzymes of ornithine decarboxylase (ODC) and polyamine oxidase (PAO) displayed up to threefold increases relative to untreated control. Moreover, significant increases in activities of plant defense-related protein, enzymes as peroxidase and chitinase as well as free and conjugated phenols contents were recorded in treated plants compared with untreated and infected plants. Furthermore, MJ treatment increased the chlorophyll-a, chlorophyll-b and carotenoids pigments contents, the higher increase was obtained with combined treatment between seeds soaking plus foliar spray at 20 and 30 mM of MJ. Under field conditions, three concentrations of MJ, i.e. 10, 20 and 30 mM as combined treatment between seeds soaking plus foliar spray or only as foliar spray were applied to study their effect against rust disease. Foliar spray was applied after 30 and 80 days of sowing. Results showed that the high reduction in disease severity was obtained with combined treatments between seeds soaking plus foliar spray with MJ at 20 and 30 mM compared with other treatments and control. At the same time, all treatments increased the growth and grain yield of wheat plants. It could be suggested that combination treatment between seeds soaking plus foliar spray with methyl jasmonate might be used commercially for controlling rust disease of wheat plants under field conditions.     

Temporal and spatial dynamics of grapevine anthracnose and its relationship to pathogen survival

Anthracnose, caused by Elsinoë ampelina, is an economically important grapevine disease in south and southeast Brazil. Control is achieved by lime sulphur application during grapevine dormancy and foliar fungicide sprays until the berries are half-grown. This study assessed the temporal and spatial progress of grapevine anthracnose under field conditions in order to describe the disease dynamics and its relationship to pathogen survival. The experiment was carried out in a vineyard of table grape Vitis labrusca in Brazil, during the 2014 and 2015 growing seasons. The incidence of vines with diseased leaves, stems and berries and the disease severity on leaves were recorded from bud break to veraison. Monomolecular, logistic and Gompertz models were fitted by non-linear regression to the incidence and severity data over time to characterize the temporal progress. Ordinary runs, dispersion index, modified Taylor's power law and spatial hierarchy analyses were used to characterize the spatial pattern of diseased plants. The monomolecular model showed the best fit for the incidence progress, with disease progress rates ranging from 0.051 to 0.136 per day. In both seasons, the incidence of diseased plants reached 100% 1 month after bud break. However, the incidence of diseased leaves per plant was around 60% and leaf disease severity was lower than 5% for both years. Ordinary runs and dispersion index analyses revealed that diseased grapevines were distributed randomly on the majority of the assessment dates. Meanwhile, a slight aggregation of diseased vines was observed in the modified Taylor's power law analysis. Our results suggested that the progress of anthracnose incidence and severity over time was governed mainly by the income of the primary inoculum, which survived in the vineyard. Therefore, anthracnose control measures in Brazilian vineyards should be focused on the reduction in inoculum within the vineyard.     

Detection and Location of Seed-Borne Inoculum of Didymella bryoniae and its Transmission in Seedlings of Cucumber and Pumpkin

Of the 91 tested cucurbit seed samples from thirteen countries nine from four countries were found to be infected with Didymella bryoniae. The pathogen is located on and in the seed coat including the perisperm and in the tissue of the cotyledons. Primary seedling infection occurred on the radicle, hypoctyl and cotyledons. Infection of the radicle generally caused pre-emergence tot while infection on the hypocotyl and cotyledons developed furthere inoculum for infection of the first true leaves and the stem. Experimentally, all the isolates of D. bryoniae could infect cucumber (Cucumis sativus), oriental melon (Cucumis melo var. makuwa), pumpkin (Cucurbita pepo) and watermelon (Citrullus vulgaris) at different growth stages; the susceptibility of cucumber and pumpkin was markedly influenced by previailing humid conditions.The blotter method was found more suitable for detection of seed-borne infection than the agar plate method.     

Effect of Elevated Atmospheric CO2 and Temperature Increases on the Severity of Basil Downy Mildew Caused by Peronospora belbahrii Under Phytotron Conditions

Three experimental trials have been carried out on the basil (Ocimum basilicum)–downy mildew (Peronospora belbahrii) pathosystem, under phytotron conditions, to evaluate the effect of simulated elevated atmospheric CO₂ concentrations and temperatures as well as that of their interaction. Six CO₂ and temperature combinations were tested to establish their effect on disease development. The photosynthetic efficiency (PI) and chlorophyll content index (CCI) of the basil plants were monitored throughout the trials. Average disease incidence was 43.8% under standard conditions (18–22°C and 400–450 ppm of CO₂)_, while average disease severity was 22.1%. In the same temperature regime, a doubled level of CO₂ caused a significant increase in both disease incidence and severity. When temperatures ranged between 18 and 26°C, CO₂ at 800–850 ppm increased disease incidence. At the highest temperatures tested, that is at 26–30°C, which are not favourable for downy mildew development, the increase in CO₂ had no significant effect on disease incidence. A decreasing trend of PI was observed for the PI values of the inoculated plants. This trend was particularly pronounced for high CO₂ levels at the end of the experiment. In the same way as for disease development, lower values were recorded for the inoculated plants at the end of the experiment at 18–22°C for both CO₂ concentrations and at 22–26°C for 850 ppm of CO₂. The non‐inoculated plants showed higher photosynthetic efficiency than the inoculated plants. Similar trends were also observed for the CCI, thus confirming that downy mildew incidence and severity, which in particular caused foliar damage at high CO₂ concentrations, led to a decrease in the physiological performances.     

The effect of accelerated seed ageing on cucumber germination following seed treatment with fungicides and microbial biocontrol agents for managing gummy stem blight by Didymella bryoniae

This study examined (1) the effect of the accelerated seed ageing on cucumber germination with treatments: Bacillus subtilis QST713 or Pseudomonas fluorescens CA in 1% methylcellulose and fungicides difenoconazole, carboxin or pyraclostrobin in 5% polyvinyl alcohol, and (2) the impact on disease severity of gummy stem blight (GSB) caused by Didymella bryoniae by the seed treatments and foliar spray application of methylcellulose-formulated B. subtilis or P. fluorescens. Difenoconazole, pyraclostrobin and microorganisms suppressed growth of D. bryoniae in a laboratory dual culture; carboxin had no effect on D. bryoniae growth. Germination of fungicide-treated seed was unaffected by accelerated seed ageing. Greenhouse: GSB disease severity with PVA and non-treated seed was 89% and 84%, respectively, whereas, difenoconazole, carboxin and pyraclostrobin, was significantly reduced, 56%, 53% and 40%, respectively. Germination of Bacillus-treated seed was unaffected by accelerated seed ageing, but was significantly reduced with Pseudomonas-treated seed. GSB disease severity with B. subtilis or P. fluorescens-treated seed was inconsistent; however, foliar spray application of B. subtilis significantly reduced GSB. Accelerated seed ageing exposed a significant negative impact on seed germination with P. fluorescens. Based on the accelerated ageing test, P. fluorescens-treated cucumber seed is detrimental to seed survival and therefore, is not a candidate for biocontrol activities for cucumber requiring seed storage.     

Pathogenicity studies on isolates of Leptosphaeria maculans from brassica seed production crops in south-east England

Out of 117 isolates of Leptosphaeria maculans collected from a range of brassica seed crops in south-east England, 26 were virulent when tested on cabbage cv. January King. Of these, 24 were isolated from oil-seed rape (Brassica napus) and the remainder from a swede (B. napus) and a cabbage (B. oleracea) seed crop. Virulent strains were derived from infected stems and from single ascospores of the sexual state present on diseased stubble. In glasshouse tests virulent isolates were not host-specific and caused severe cankers on cabbage, kale, swede, turnip and oil-seed rape; under field conditions, ascospores originating from diseased oil-seed rape stubble produced severe cankers and high levels of seed-borne infection in eight horticultural and vegetable brassica hosts (B. napus, B. campestris and B. oleracea). Virulent and non-virulent types could be distinguished by certain cultural characteristics. On nutrient agar virulent types grew slowly, irregularly and quickly staled whereas non-virulent types grew rapidly, regularly and did not stale. The latter also produced a yellow-brown pigment in liquid culture. The potential for cross-infection of virulent strains originating from oil-seed rape to other brassica seed crops has serious implications for disease incidence on forage and vegetable brassica seed crops.     

Hot Acidified Cupric Acetate Soaks for Eradication of Xanthomonas campestris from Crucifer Seeds

Acidified cupric acetate soaks were tested for eradication of Xanthomonas campestris from naturally infected crucifer seeds. The pathogen was eradicated from seeds by soaking in 0.5% cupric acetate dissolved in 0.005 N acetic acid for 20 min at 35, 40, 45, and 50°C but not 25°C. Moreover, normal bacterial flora of crucifer seeds and the seed-borne Phoma lingam and Alternaria spp. were reduced by 95, 92, and 81%, respectively, after the cupric acetate treatment at 40°C. The seed germination percentage was generally reduced, but the amount of reduction depended upon the treatment temperature and plant cultivar. At 50°C, less than 50% of the seed of all 12 cultivars tested germinated, whereas at 40°C more than 50% of the seeds of most cultivars germinated. Treating seeds in cupric acetate at 40°C should prove useful for eradicating X. campestris from seeds of breeding lines and stock seed used for hybrid seed production. Furthermore, a significant reduction in total bacterial flora and seed-borne fungi suggests the usefulness of the treatment for other microorganisms associated with other seeds or foodstuffs.     

Role of foliar hemibiotrophic and fruit resistance in anthracnose‐resistant strawberry genotypes for annual hill plasticulture systems

Anthracnose fruit rot (AFR) caused by Colletotrichum acutatum is one of the most devastating diseases of strawberry (Fragaria × ananassa) in plasticulture systems in the Southeast US. Host resistance offers the best option to limit crop losses in both nursery and fruiting fields. To evaluate levels of anthracnose resistance and elucidate the role of foliar and fruit resistance in overall field AFR resistance, we tested 14 strawberry genotypes including numerous selections from the North Carolina State University strawberry breeding programme. Inoculations of plug plants with three representative C. acutatum isolates prior to field‐set indicated that the commercially standard cultivar Chandler was highly susceptible, with an average fruit rot incidence of over 72% the following spring. In contrast, breeding lines such as NC C99‐13 and NC C02‐63 showed superior resistance with AFR incidence values of 23.6% and 11.1%, respectively, and showed superior marketable yields. An average hemibiotrophic infection (HI) severity on foliage (percent leaf area covered with acervular growth after paraquat treatment and incubation) did not correlate (r = 0.57) well with in vitro AFR severity on detached fruit, indicating different mechanisms may be operative for resistance to foliar HI and fruit rot resistance. Multiple regression analysis indicated that in vitro fruit rot resistance expressed by lesion diameter and severity of foliar hemibiotrophic infections may be utilized to predict field AFR incidence. Strawberry genotypes bred for resistance against both fruit rot and foliar HI could be effectively selected by using rank‐sum classification methods and this process offers an effective strategy to advance selections for superior AFR field resistance.     

Fungitoxic Effects of Extracts of Azadirachta Indica against Cochliobolus Miyabeanus causing Brown Spot Disease of Rice

The oil extract from seeds of Azadirachta indica as well as water and ethanol leaf extracts of the plant were effective in reducing the radial growth of Cochliobolus miyabeanus in culture and in checking the spread of brown spot disease in rice. The oil extract was found to be the most effective, followed by ethanol leaf extract, in inhibiting the growth of the pathogen in vitro and in checking the development of the disease in vivo . Although the cold water extract from the plant leaf reduced the radial growth of the pathogen in culture, it failed to reduce the incidence and severity of the disease as effectively as the oil and ethanol extracts. The oil and ethanol extracts compared favourably with carbendazim (Bavistin) at 0.1% a.i and have the potential for control of brown spot disease of rice in the field.     

Evaluation of Bacillus subtilis (JN032305) biofungicide to control chilli anthracnose in pot controlled conditions

Colletotrichum gloeosporioides (Penz.) causing anthracnose is a potent pathogen of chilli resulting in significant yield loss. The in vitro root colonisation study showed an increase in root bacterial count by 10 × 10⁵ colony forming units/cm root for Bacillus subtilis after 15 days of germination. Population level of the antagonist was stable in talc till the 180th day (30°C – 1.6 × 10⁸; 4°C – 1.9 × 10⁸) and in lignite till the 150th day (30°C – 1.5 × 10⁸; 4°C – 1.3 × 10⁸). Combined application of B. subtilis and carbendazim enhanced all biometric parameters with reduction in disease incidence. Soil, seed, root dip and foliar spray treatment significantly enhanced the growth parameters of chilli in B. subtilis inoculated treatments in comparison to the untreated control. Seed application resulted in highest plant fresh weight (76.84 g) and dry weight (34.17 g) compared to the untreated control (50 g and 21 g fresh and dry weight, respectively). Highest plant height ranging from 70 cm (soil application) to 77 cm (dip treatment) with Bacillus inoculation was comparable with carbendazim treatment (61 cm with soil application) and 78 cm (dip treatment) and significantly higher than the untreated control (58.2 cm with soil and 61 cm with application, respectively). Dip treatment resulted in significant increase in root length with B. subtilis (33 cm) and carbendazim (32.5 cm) in comparison to untreated control (15 cm). Co-inoculation of pathogen with B. subtilis (singly and with carbendazim) not only reduced the disease incidence but also improved all the biometric parameters in comparison to challenge inoculation. Root dip application was effective in promoting growth while seed application was effective in disease control.     

Resistance of Common Bean (Phaseolus vulgaris) to Bacterial Wilt Caused by Curtobacterium flaccumfaciens pv. flaccumfaciens

Bacterial wilt caused by Curtobacterium flaccumfaciens pv. flaccumfaciens is an important new disease of common bean (Phaseolus vulgaris) in western Canada. Both yellow and orange variants of the pathogen were found in the region. A controlled environment study was conducted to assess 124 common bean cultivars and lines from eight market classes for resistance to the yellow and orange variants of the pathogen, using the hilum injury/seed inoculation method. Results of the screening tests showed significant (P < 0.05) differences in resistance to bacterial wilt among the cultivars or lines. The great northern line L02E317, the great northern cultivar Resolute and pinto lines L02B662 and 999S‐2A, were highly resistant to both variants of the pathogen, with disease severity indices of 0 on a rating scale of 0 (no wilt symptoms) to 5 (dead seedling). Resistant cultivars or lines were found among black, great northern, pink, pinto, small red and Flor de Mayo bean market classes. The study concludes that new bacterial wilt‐resistant germplasm exists among Canadian bean cultivars and lines, and constitutes a valuable resource for breeding common beans for resistance to both yellow and orange variants of C. flaccumfaciens pv. flaccumfaciens.     

Transmission of seed-borne infection of chilli by Burkholderia solanacearum and effect of biological seed treatment on disease incidence

Abstract

A survey of chilli fields in the state of Karnataka, India, showed the presence of bacterial wilt disease in important chilli growing regions. The disease incidence ranged from 26?–?32%. The pathogen was isolated from infected plant material and seeds. Infected plant material showed the release of milky white bacterial ooze. Burkholderia solanacearum was detected from chilli seeds by liquid assay and its identity was confirmed by biochemical tests, hypersensitive reaction and pathogenicity tests. Seed transmission of the pathogen up to 45% was observed in seeds artificially infested with the pathogen. Among different tissues of the seed, endosperm showed the presence of the pathogen. Biological seed treatment with antagonistic Pseudomonas fluorescens significantly (p?=?0.05) improved the seed quality parameters under laboratory conditions and drastically reduced the bacterial wilt incidence under field conditions. Seed-borne nature, transmission and effect of Pseudomonas fluorescens in both the forms of pure culture and formulation on seed quality parameters and bacterial wilt incidence are discussed in the present work.