Resistance of potato genotypes to common and netted scab-causing species of Streptomyces

Common and netted scabs are two disfiguring bacterial diseases of potato tubers, caused by various groups of Streptomyces species. Common scab, caused primarily by Streptomyces scabies and Streptomyces europaeiscabiei , is characterized by more or less deep pustules on the tuber surface, while symptoms of netted scab, caused mainly by Streptomyces reticuliscabiei , are superficial, corky alterations of the tuber periderm. Some isolates of S. europaeiscabiei are able to induce both common and netted scab symptoms, and therefore constitute a third pathogenicity group. Like most bacterial diseases, potato scabs would be best controlled by using resistant cultivars. Repeated experiments with soil artificially infested with isolates of three species representative of the three pathogenicity groups showed the level and stability of cultivar resistance, as well as the existence of a range of aggressiveness among different isolates. The distribution of scab severity indexes recorded on a collection of 16 potato cultivars and 27 breeding clones grown in soil infested with common scab-inducing isolates was continuous, suggesting isolate nonspecific quantitative resistance. Least susceptible cultivars were Nicola, BF15, Sirtéma, and Charlotte, while Urgenta, Désirée, Ondine and Bintje were very susceptible. The same genotypes proved either highly susceptible (e.g. cvs Bintje, Désirée or Carmine) or highly resistant (e.g. cvs Charlotte, Sirtéma, Monalisa, BF15 or Belle de Fontenay) to isolates forming netted scab symptoms, suggesting isolate-specific qualitative resistance. The ability was confirmed of some isolates of S. europaeiscabiei to induce one or the other type of symptoms depending on cultivar and soil temperature.     

Blackleg development and tuber yield in relation to numbers of Erwinia carotovora subsp. atroseptica on seed potatoes

The relationship between number of viable cells of Erwinia carotovora subsp. atroseptica on inoculated potato seed tubers and blackleg development was investigated in 2 years for five cultivars grown in the contrasting climates of Scotland and Israel. Blackleg, and to a lesser extent non-emergence, increased with higher numbers of bacteria on the seed tubers at planting. This relationship was also found for several commercial seed stocks of one cultivar naturally contaminated with different numbers of E. carotovora subsp. atroseptica.The threshold number of bacteria necessary for the development of blackleg declined during the growing season and was also higher for the cultivar Pentland Crown in comparison with the others. In general, yield declined linearly with blackleg incidence and there was a 0.8% reduction in yield for every 1 % blackleg at 13 weeks after planting. Yield loss was positively related to the incidence of blackleg late in the season, whereas the relationship between yield loss and the incidence of non-emergence was poor.     

Studies of a wilt disease of the potato plant in Israel caused by Erwinia chrysanthemi

In Israel field infections of potato plants by Erwinia chrysanthemi are characterized by wilting of the leaves followed by total desiccation of the plants. These symptoms are indistinguishable from those caused by Verticillium dahliae or those that develop during the normal process of plant senescence. Diagnosis of E. chrysanthemi in the spring-sown (February) crop in Israel is difficult because all three conditions often appear at approximately the same time, late in the growing season in May when the air temperature exceeds 25°C. The symptoms of E. chrysanthemi infection were reproduced in the field when potato seed tubers, tested and found to be contaminated at a low level with E. carotovora pv. carotovora , were inoculated with a strain of E. chrysanthemi isolated from a diseased potato plant. When plants in a growth cabinet at 30°C were stem-inoculated with E. chrysanthemi , similar symptoms developed when the relative humidity was low ( c . 80%). Presence of the disease only on plants grown from seed contaminated with E. chrysanthemi and not from uncontaminated seed suggests that the bacterium is seed borne, as is E. carotovora pv. atroseptica , the blackleg pathogen.     

Effect of light duration on severity of black dot caused by Colletotrichum coccodes on potato

The effect of light duration on potato black dot was examined in plants grown under controlled conditions and in plantlets in tissue culture. A short-day (SD) photoperiod of 8 h light enhanced disease levels caused by Colletotrichum coccodes compared with a long-day (LD) photoperiod of 16 h light. Four cultivars (Agria, Cara, Désirée and Nicola) exhibited higher disease levels under SD conditions. Fungal colonization rates, level of sclerotia on roots, and crown rot symptoms were significantly higher under SD conditions in all cultivars. Parameters related to plant development (height and shoot weight) were reduced in plants grown under SD conditions in all cultivars tested, regardless of inoculation with the fungus. Similar results were also obtained with tissue-culture plantlets of cvs Cara, Désirée, Nicola and Alpha grown in an aseptic system under SD and LD conditions. Fungal colonization indices, level of sclerotia on roots, and crown rot symptoms on inoculated plantlets were significantly more severe in all cultivars tested when grown under SD conditions. Plant height and shoot weight of cvs Cara, Désirée and Nicola were significantly affected by both day length and inoculation with C. coccodes , with inoculated plantlets being shorter and smaller under SD conditions. These findings support the hypothesis that light duration plays an important role in C. coccodes infection, and may be one of the major factors responsible for the severe expression of black dot and yield losses observed in the Israeli autumn season, as may also occur in other potato-production areas in the Mediterranean region.     

The role of soil, seed-potato tuber and haulm in the transmission of Phoma foveata from infected seed to daughter tubers

Infestation of ridge soil by Phoma foveata was examined over 4 years by collecting soil samples at various distances from seed tubers which were either naturally infected or inoculated with a distinctive strain. Samples were taken on four occasions during each growing season. Infestation was greatest immediately around the tuber and was largely confined to a distance of 15 cm until haulm destruction, after which P. foveata was detected more widely in the soil.
The effects of various seed-tuber and haulm treatments on the incidence of daughter-tuber contamination by P. foveata were assessed over 5 years. Removing the infected seed tuber at emergence significantly (P < 0.05) reduced the contamination at haulm destruction of daughter tubers harvested by hand in only 1 out of 4years. In all years, tuber contamination was much less(P < 0.05) when stems were pulled and removed than when they were desiccated by applying diquat dibromide. The incidence of tuber contamination did not increase between haulm destruction and harvest when stems were pulled and removed. In another experiment, tuber contamination increased linearly with the delay in pulling haulms after applying diquat dibromide. Cutting and removal of stems tended to reduce gangrene contamination, relative to the desiccation of stems by applying diquat dibromide, in all years where the seed tuber had been removed, but in only 2 out of 5 years where the tuber was present.     

A comparison of methods to evaluate the susceptibility of potato cultivars to blackleg (caused by Erwinia carotovora subsp. atroseptica) in the field at different sites

Potato seed tubers were inoculated either using a needle or using a high-pressure jet injector at a number of sites in the United Kingdom. Over 2 years, different cultivars showed different trends in blackleg symptoms. Comparisons with inoculation by infiltration of tubers under vacuum were made at two sites, and by damaging followed by dipping tubers in inoculum at one site. The relationship between plant vigour in July and yield was closer than that between blackleg symptoms and yield.     

Potato blackleg: Epidemiology,host-pathogen interaction and control

Blackleg is caused byErwinia carotovora subsp.atroseptica (Eca) andE. chrysanthemi (Echr) in cool and hot climates respectively. The bacteria are opportunistic pathogens and rely on their strong pectolytic character to infect plants when conditions favor their multiplication. Blackleg is a seedborne disease and the bacteria can survive in a quiescent form in lenticels and wounds during storage. The contaminated mother tuber and not the blackleg plant is the main source of progeny tuber contamination. Other sources of the pathogen are airborne (insects and aerosols) erwinias deposited on leaves and from there to the soil and progeny tubers, and erwinias in rotting tubers smeared into wounds incurred during mechanical crop handling.Most seed tubers are contaminated but blackleg incidence is related to seed contamination level modulated by soil water status. Competitiveness of the erwinias in the rotting mother tuber is affected by temperature, Eca is favored at <25°C and Echr at higher temperatures. The ubiquitousE. carotovora subsp.carotovora apparently fails to compete successfully with the other erwinias and saprophytic pectolytic bacteria in mother tubers and therefore does not cause blackleg.Disease control measures are based on avoiding tuber contamination by cultural means (early harvesting), reducing tuber contamination level (dry storage and hot water treatment) and planting ‘clean’ seed identified by quantifying tuber contamination rather than by visual crop inspection. Finally, recently identified highly resistant, even under anaerobic conditions, wildSolanum spp. could be used to breed for resistant cultivars by conventional methods or by genetic engineering.     

Colonization of roots, stolons, tubers and stems of various potato (Solanum tuberosum) cultivars by the black-dot fungus Colletotrichum coccodes

In an attempt to better understand the importance of tuber-borne inoculum in black dot development, several potato cultivars were inoculated with various Colletotrichum coccodes isolates. Symptoms developed first on underground organs (starting 2 weeks after inoculation on roots, and later on stolons and tubers) of inoculated plants; stem infections developed only after 7–10 weeks, depending on the cultivar. Infection with C. coccodes resulted in a reduction in numbers of stolons and tubers in cv. Bintje, but not in the later maturing cv. Roseval. Significant isolate by cultivar interactions were detected from the analysis of root symptoms after inoculation of three potato cultivars (Bintje, Spunta and Desiree) with five C. coccodes isolates. Such an interaction was also detected for stolon/tuber symptoms at the latest scoring date (98 days after inoculation), but not at earlier dates (58, 70 and 84 days after inoculation). These results suggest that protocols based on root colonization might be used for investigating cultivar response to black dot and pathogenicity of C. coccodes isolates, and that some specificity exists in the reaction of potato genotypes to this pathogenic fungus.     

几种植物提取物诱导马铃薯对致病疫霉的抗性

 采用纤维素膜技术研究了大蒜、洋葱、芹菜、丁香、花椒、大黄等24种植物离体组织及其提取物(其中8种中草药为水煎剂,16种其它植物为水浸剂)对马铃薯晚疫病菌(Phytophthora infestans)静止胞萌发、附着胞形成及侵入丝形成的直接影响和提取物诱导块茎对晚疫病病菌侵入机构形成的影响,并在此基础上进一步就提取物免疫处理种薯、诱导成株期抗病性、增加块茎产量的影响做了初步探讨。在洋葱、葱、大蒜等12种植物组织表面,静止胞萌发率明显低于对照(擦镜纸),而且在6种植物组织表面未见附着胞形成,10种植物组织表面未见侵入丝形成;在大蒜、韭菜等13种植物组织提取液中,静止胞萌发率明显低于对照(擦镜纸),其中6种植物组织提取液中附着胞未见形成,7种植物组织提取液中侵入丝未见形成。经8种植物组织提取物诱导处理的块茎切片,不仅保鲜期长,而且表现出较强的诱导抗性;静止胞萌发率、附着胞形成率及侵入丝形成率均明显低于对照;经8种植物组织提取物诱导处理的种薯在出芽、早期生长、抗晚疫病及产量等各方面均优于对照,病害保护率达54%、增产率达31%。     

Factors impacting blackleg development caused by Dickeya spp. in the field

Stem rot symptoms caused by pectinolytic bacteria of Genus Pectobacterium and Genus Dickeya, which are commonly referred to as blackleg, strongly impact the quality of seed potato production in most European countries. Several biotic and abiotic factors, such as cultivar susceptibility, isolate aggressiveness, mother tuber infection density and a wide range of soil-related and climatic factors have been identified in the literature as having an effect on blackleg development. The aim of this study was to identify which biotic and/or abiotic factors are most critical to the development of blackleg in the field. In Switzerland, the predominant species have belonged to Genus Dickeya as far back as 1992, which is why this study only investigates blackleg symptoms induced by Dickeya isolates. Seven field trials, in which inoculated tubers were planted, were conducted during a 3-year period and the number of blackleg-diseased plants was counted. Multiple regression analysis was used in order to determine the factors that had the greatest impact on two different variables: (i) periods between emergence of the plant and disease outbreak and (ii) overall blackleg incidence throughout the growing season. The results of this analysis have revealed that environmental factors, such as evapotranspiration and soil moisture, explain about half of the variability in the number of days before disease outbreak, and the total number of diseased plants is widely dependent upon cultivar susceptibility and isolate aggressiveness.     

<Emphasis Type="Italic">Pectobacterium carotovorum</Emphasis> subsp. <Emphasis Type="Italic">brasiliensis</Emphasis> causing blackleg on potatoes in South Africa

In South Africa during the 2006/2007 potato growing season, outbreaks of blackleg occurred, causing severe economic losses in commercial potato production fields. Symptoms were initially observed on only one stem per plant, on which the top leaves rolled upwards, wilted and became necrotic. As symptoms progressed to the lower leaves with subsequent leaf desiccation, a light to dark brown discolouration of the vascular system at the stem base developed, followed by external darkening. Under prevailing wet and humid conditions stems became slimy and pale. In the stems, the pith became necrotic and hollow. These symptoms were similar to those described in Brazil, where the causal agent was identified as a new subspecies, Pectobacterium carotovorum subsp. brasiliensis (Pbcb). Isolations from plants showing typical blackleg symptoms were made on CVP medium. Sequences and phylogenetic analysis of the partial 16S–23S rDNA intergenic spacer region indicated that the isolates were Pbcb. Comparison of PCR-RFLP patterns of the 16S–23S rDNA of isolates to reference cultures confirmed the identity of the South African blackleg strains as Pbcb, identical to strain 8 isolated in Brazil. This is the first report of Pbcb in South Africa and it appears to be the most important causal agent of blackleg in South Africa. The disease poses a major potential threat to the South African potato industry especially in terms of seed exports, tuber quality and yield.     

Pathogen resistance in aerial tubers of potato cultivars

Increases in resistance of aerial tubers (cultivars Désirée, Epicure and King Edward) against nine pathogenic potato fungi were determined in vitro using freeze-dried powder derived from subterranean and aerial tubers as a culture medium, and in vivo by inoculating both tuber types with the storage pathogens Fusarium sulphureum, F . solani var. coeruleum, Phoma exigua var. foveata and Polyscytalum pustulans . Significantly reduced growth rates and spore and conidiophore numbers were recorded when pathogens were cultured on freeze-dried powder derived from aerial tubers. No effects on spore size of F . solani var. coeruleum were recorded but spore and conidiophore lengths of remaining pathogens were reduced and width increased, except for Colletotrichum coccodes , where the diameter of acervuli increased, and P . exigua var. foveata , where spore length and width were reduced. Reduced disease incidence, severity and spore numbers were recorded on aerial compared with subterranean tubers inoculated in vivo with the four storage pathogens. Spore length of P . pustulans was reduced and spore width increased, while spore length and width of P . exigua var. foveata were reduced on aerial compared with subterranean tubers inoculated with these pathogens. No effects on spore size of Fusarium spp. were recorded. Concentrations of glycoalkaloids, chlorogenic acid, calcium and magnesium were higher in aerial than in subterranean tuber tissue, which may have contributed to increased resistance and effects on size and morphology of fungal spores. The implications of using aerial tubers as an alternative technique for the production of seed potatoes and their importance to the potato industry are discussed.     

Internal colonization pathways of potato plants by Erwinia carotovora ssp. atroseptica

Transmission of pectinolytic Erwinia species from infected mother tubers to daughter tubers has been studied mainly through detection tests, carried out at harvest, on limited samples of tubers produced by plants grown from artificially inoculated mother tubers. However, detection has not been performed on samples collected at different stages of crop development, in order to follow the contamination progress in different organs through the plants to the progeny tubers. In this study the bacterial contamination of progeny tubers was investigated by detecting Erwinia carotovora ssp. atroseptica in different symptomless plant organs (stolons, stems, progeny tubers) and in the parts with or without symptoms of diseased stems, collected at various stages of crop development. Infection levels in below- and above-ground organs of plants of two cultivars differing in their resistance to Erwinia, infected by either vacuum infiltration or sand wounding, were monitored throughout the growing season and at harvest using DAS-ELISA and PCR. Detection tests showed that healthy organs from symptomless plants were less frequently contaminated than symptomless organs from diseased plants, and that stolons were precociously and more frequently contaminated than stems and daughter tubers, irrespective of the health of the plant. Stem infections were shown to progress latently in the stem, bacteria usually being recovered 10–15 cm past visible lesions. In many cases, typical aerial stem-rot symptoms could be related to this upward movement of bacteria from the infected mother tuber. Daughter tubers without symptoms were shown to be frequently contaminated, usually at heel ends, suggesting internal contamination from mother tuber to progeny.     

The importance of the infected seed tuber and soil inoculum in transmitting Potato mop‐top virus to potato plants

Potato mop‐top virus (PMTV), the cause of spraing in potato tubers, is transmitted by Spongospora subterranea, the cause of powdery scab, and by planting infected seed tubers. This study was undertaken to determine the relative importance of these sources of infection in seed potato production in Scotland. The transmission of PMTV from tested seed tubers to daughter plants was examined over 2 years and six cultivars. The development of foliar symptoms varied with year and cultivar. Infection of daughter tubers derived from PMTV‐infected seed tubers was more prevalent on plants affected by foliar symptoms than those without symptoms. The rate of transmission of PMTV from infected seed tubers to daughter tubers ranged from 18 to 54%. Transmission was affected by cultivar and by origin of seed tubers used for a cultivar, but not by a cultivar's sensitivity to PMTV infection. The incidence of PMTV in daughter tubers of cv. Cara grown from seed potatoes from one source (common origin) by more than 25 seed producers was examined over two successive generations. The incidence of PMTV in daughter tubers was not correlated with that in the seed tubers but appeared to be strongly associated with soil inoculum. The incidence of PMTV was correlated with powdery scab in those crops in which both were present. There was some evidence from soil tests conducted in 2006 using a tomato bait plant and real‐time RT‐PCR that planting PMTV‐infected seed potatoes could increase the risk of introducing the virus into land not infested by PMTV.     

Field Observations on Blackleg in England1

Inoculation of seed tubers with Erwinia carotnvora (Jones) Bergey et al. var. atroseptica (van Hall) Dye before planting resulted in early death (especially with sprouted seed), blackleg stems and decreased yields. Apical inoculations had most, and stolon inoculations the least, effect on growth and yield. Even plants without blackleg symptoms were more stunted and had fewer stems than plants from uninoculated seed. Rotting of seed tubers often stopped in dry weather and started again later, probably caused, or assisted by, insects breaching the wound barrier. Many other organisms can also rot seed tubers including Phytophthora erythroseptica Pethybridge (pink rot), Fusarium spp. (dry rot), Verticillium spp. (wilts) and Rhizoctonia spp. (black scurf). The bacteria have been shown to spread along rows underground and to different stocks within the same field, presumably in air, but season to season spread by the potato digger has not been demonstrated.     

Effects of systemic infections with Tobacco rattle virus on agronomic and quality traits of a range of potato cultivars

Infection of several commercially important potato cultivars with Tobacco rattle virus (TRV) can result in systemic infection with M-type virus, which persists through generations of vegetative propagation, although spraing symptoms in the tubers rarely develop. In field trials of nine such cultivars it was shown that TRV infection can delay plant emergence and retard subsequent growth, reduce tuber yield and mean tuber weight, increase tuber numbers and the proportion of small tubers, increase the incidence of growth cracks and misshapen tubers, diminish dry matter content, and exacerbate after-cooking blackening. Each cultivar was affected differently, showing different combinations and degrees of these effects. Virus concentration in leaf extracts from individual plants was also highly variable. These, and other potato cultivars similarly susceptible to TRV, are grown on large areas of UK and European potato land. The implications of growing such cultivars for the seed, ware and processing sectors of the potato industry are discussed.     

Effect of inoculum source on root and tuber infection by potato blemish disease fungi

The incidence of potato pathogens on healthy roots of micropropagated (MP) and seed tuber (ST) plants was examined on successive dates during the growing season in two field experiments. Microplants were grown in a glasshouse for 4–5 weeks in perlite or peal-based substrates, and exposed or not to natural inoculum before planting in the field. The seed tubers originated from stocks of visually clean or moderately blemished tubers and were surface-sterilized or not before planting. Polyscytalum pustulans and Helminthosporium solani only infected roots of ST plants and inoculated MP plants. The incidence of P. pustulans was affected by seed tuber-borne inoculum and, in I year, by the substrate. H. solani was detected infrequently on roots. Rhizoctonia solani was present at low frequencies in most root samples, and more ST than MP plant roots were colonized; there were no substrate effects. In 1 year, increased inoculum levels increased root infection, but only in MP roots. Colletotrichum coccodes occurred at high frequencies and was most common in roots of ST plants. Progeny tubers showed some treatment effects when tested in September and after storage for 6 months, but there were no consistent relationships between root and progeny tuber infection.     

Effects of removal of leaves and tops on translocation of potato virus X and potato virus YN in potato plants

Removal of leaves from primarily infected plants does not stop translocation of potato virus X and potato virus Y^N from the stem to the tubers in potato plants. In some cases there is evidence that even more virus reaches the tubers. The removal of the top of a potato plant results clearly in a larger extent of infection of the tubers, as was demonstrated in experiments with both viruses. This effect proved to be greater according as the removed top was larger. Removal of leaves and tops apparently changes the physiological behaviour of potato plants in such a way that virus translocation is promoted. This means that in haulm killing, as is applied in seed potato growing, only perfect killing of the stems and leaves can result in stopping virus translocation to tubers; incomplete killing may have the opposite effect.Samenvatting In primair met aardappel-X- en aardappel-Y^N-virus besmette aardappelplanten werd het transport van virus naar de knollen voortgezet na ontbladering van de planten. In enkele gevallen bleek zelfs een zwaardere knolbesmetting op te treden. Het verwijderen van de top van aardappelplanten leidde in proeven met dezelfde virussen tot een sterkere knobesmetting dan in niet getopte planten. Dit gold des te meer naarmate de verwijderde top groter was.Het verwijderen van bladeren en top brengt een zodanige verandering in het fysiologische gedrag van de aardappelplant teweeg dat er een verhoogde mate van virustransport, dus een zwaardere knolbesmetting optreedt. Voor de teelt van pootaardappelen betekenen deze resultaten dat de loofdoding alleen het beoogde doel zal bereiken als een volledige doding van de bovengrondse plantedelen wordt bewerkstelligd.     

Erwinia carotovora (Jones) Bergey et al. var. atroseptica (Hellmers et Dowson) Dye. Seed Tuber Infection Versus Symptom Expression in the Field1

Based on the time that symptoms of blackleg become evident in the field and the various ways of inoculation, it is concluded that the spread of symptom expression is due to the depth at which the bacteria penetrate into the interior of the tubers. Moreover, it is demonstrated that it is not the closed lenticels which prevent penetration, but the absence of a waterfilm in the intercellular spaces of the tuber tissue.