共查询到20条相似文献,搜索用时 31 毫秒
1.
Drosophila melanogaster acquired the potato blackleg bacterium,Erwinia carotovora var.atroseptica from laboratory cultures and infected potato plants and readily transmitted it to healthy wounded plants under greenhouse conditions.D. melanogaster also carried the bacterium both internally and externally. Transmission to the nearest plants occurred most often. The possibility of at least short term survival of the bacterium inside the body of the insect is postulated. 相似文献
2.
Isolations from 315 blackleg infected potato stems collected over a two year period in Colorado, demonstrated that both varieties ofErwinia carotovora, E. carotovora var.carotovora andE. carotovora var.atroseptica, are involved in stem infections under field conditions.E. carotovora var.atroseptica was the predominant organism associated with stem infections in all areas sampled.E. carotovora var.carotovora was isolated, with few exceptions, only from plants collected from the warmer areas of the state. The epidemiological implications of the effect of soil temperature on the distribution of these two organisms are discussed. 相似文献
3.
Adult fruit flies (Drosophila melanogaster Meig.) transmittedErwinia carotovora var.carotovora (Jones) Dye (ECC) andErwinia carotovora var.atroseptica (van Hall) Dye (Eca) from vegetative material inoculated with equal proportions ofEcc andEca to uninoculated potato plants and from inoculated potato plants to sterile vegetative material at 15° and 27°C. The insects transmittedEcc andEca with approximately equal frequencies over an 18 hr period at 15°C. At 27°C the proportion ofEcc transmitted was significantly greater thanEca. At 27°C moreEcc thanEca was present in the inoculated vegetative material and potato stems, on fruit flies visiting these sites, and in injured potato tissues to which flies transmitted the bacteria. Results indicate that temperature is important in determining success ofEcc andEca transmission by insects and the relative persistence of the two organisms in plant tissues after transmission. 相似文献
4.
Adult fruit flies (Drosophila melanogaster Meig.) artificially contaminated withErwinia carotovora var.carotovora (Jones) Dye (Ecc) and/orE. carotovora var.atroseptica (van Hall) Dye (Eca) readily transmitted the bacteria to plants in the field that had been injured by crushing the stem. Injured, inoculated plants developed disease symptoms when maintained at high relative humidities.Erwinia was transmitted to ten-hour-old injuries and they became infected as frequently as freshly made wounds. Insect transmission ofEca, Ecc, and mixtures was greatest during the afternoon, which was the warmest part of the day.Ecc was transmitted significantly less frequently during the cold morning than during afternoon or evening hours. A potato cull pile placed in a commercial potato field attracted a natural insect population which increased during the season. BothEcc andEca were isolated from uninoculated rotting tubers in the cull pile and from insects associated with the pile from May through September. These naturally infested insects transmittedEcc and/orEca from the cull pile to artificially injured field plants during July and August at distances as great as 183 m from the cull pile. NoErwinia was isolated from injured plants in a neighboring control field, which lacked a cull pile, further than 6 m upwind from the cull pile. We suggest that insects are important agents in the epidemiology of potato blackleg and soft rot even in areas with low relative humidities. 相似文献
5.
The effectiveness of a tuber incubation method for detection ofErwinia carotovora var.atroseptica andE. carotovora var.carotovora in potato tubers was compared with a lenticel sampling procedure. In the first method, tubers were injured by puncturing lenticels with sterile toothpicks, then wrapped in moist paper towels and polyvinylidene film, and placed in closed chambers flushed with N2. In later experiments, wrapping tubers in two layers of polyvinylidene film and incubation in air was found to be as effective as the single layer of polyvinylidene and incubation in chambers flushed with N2. Isolations were made on a selective crystal violet pectate (CVP) medium from homogenized samples of tissue removed from soft rot lesions developing around injured lenticels. In the second method, 10 lenticels/tuber were aseptically removed with a scalpel and homogenized in distilled water; the suspension was plated on CVP. The first method was less tedious and slightly more effective than the lenticel sampling method. In a preliminary survey, these methods were used to detectErwinia infestations in small samples of certified seed potato tubers from Maine, Minnesota, Montana, New York, North Dakota, and Wisconsin. PectolyticErwinia spp. were detected in at least one sample from each state except Montana. The percentage of tubers withErwinia infestations varied from 0–100% among samples. Characterization ofErwinia isolates showed that bothE. carotovora var.carotovora andE. carotovora var.atroseptica were present. PectolyticErwinia spp. on symptomless potato seed tubers may serve as inoculum sources for blackleg and soft rot diseases. 相似文献
6.
Erwinia carotovora var.atroseptica (van Hall) Dye andE. carotovora var.carotovora (Jones) Dye were detected in agricultural soils in Wisconsin using baiting and enrichment techniques. These soft rot bacteria could not be detected in soils of potato fields prior to planting of crops in the spring period using standard soil dilution plating techniques on a crystal violet pectate medium, however. A procedure involving incubation of samples in pectate enrichment broth followed by preparation of smears on slides and treatment with a fluorescent antibody stain specific forE. carotovora var.atroseptica was the most sensitive of the methods tested for detecting the blackleg pathogen. Erwinia carotovora was isolated more frequently during the spring from fields in which potatoes had been grown the previous year than from fields in which other crops had been grown. It was also isolated from potato tubers and stems that had overwintered in the field. The presence ofE. carotovora could not be detected in root zone samples of weed plants using the dilution plating method. 相似文献
7.
Laboratory and field studies with the Russet Burbank (RB) potato provide evidence for synergism betweenErwinia carotovora var. atroseptica (Ea) andFusarium roseunt ‘Sambucinum’ (Fs). When these pathogens were inoculated together, the severity of tuber rot was significantly greater than when either pathogen was inoculated separately. Similarly, these pathogens interacted to reduce yield. When both organisms were uniformly applied to puncture wounds on potato seed (inoculum suspension consisted of 108 cells/ml Ea and 105 cells/ml Fs), the total yield was reduced by 46% and U.S. #1 yield by 53%. These reductions occurred even though blackleg symptoms (caused by Ea) were negligible (< 1%). In contrast, inoculations withErwinia carotovora var.carotovora (Ec) and Fs did not interact to reduce potato yield. Potato yields were also not influenced when these pathogens (Ea, Ec, Fs) were separately inoculated.Verticillium wilt (Verticillium dahliae) was significantly less when tubers were inoculated with either Ea, Ec, Fs, Ea + Fs, or Ec + Fs than with uninoculated tubers. 相似文献
8.
Talia Silva de Jaczko J. W. Brewer M. D. Harrison 《American Journal of Potato Research》1983,60(11):853-860
The potato blackleg bacteriumErwinia carotovora subsp.carotovora (Jones) Bergey et al. was found in feces and regurgitated material obtained from surface sterilized adult fruit flies,Drosophila melanogaster (Meigen), that had fed for five hours on nutrient agar cultures of the bacterium. The highest levels of bacteria were obtained from fecal material and it is likely that this is the source of most of the inoculum carried by these vectors. The bacteria were found to be present in the foregut, midgut, and hindgut ofD. melanogaster. The largest number of bacteria were in the foregut with the population level decreasing as distance down the digestive tract increased. It is probable that the association between the vector and the bacterium is accidental. The probability that the insect aids survival of the bacterium by protecting it from adverse environmental conditions is suggested. 相似文献
9.
Ten genera from 9 families of dipterous insects collected in the field in the San Luis Valley of Colorado were contaminated withErwinia carotovora var.atroseptica (Eca) andErwinia carotovora var.carotovora (Ecc).Erwinia-contaminated insects were collected from settling ponds near potato warehouses, potato cull piles on growers’ farms, municipal dumps, lettuce and potato fields. The percentage of contaminated insects reached 14.5% in early spring but decreased as the season progressed. Insects were more commonly contaminated withEca thanEcc early in the season. Later the proportion of contamination byEcc increased while that ofEca decreased. We suggest that insects may play a potentially important role in the epidemiology of potato blackleg especially in the reintroduction ofErwinia intoErwiniafree potato fields. 相似文献
10.
Survival time ofErwinia carotovora var.carotovora (Ecc) andE.c. var.atroseptica (Eca), causal agents of potato blackleg and bacterial soft rot, was determined both internally and externally on two known insect vectors,Drosophila melanogaster Meig. andD. busckii Coq. The results indicate that the two bacterial varieties survived internally on both vectors for 48 hours and in some cases up to 72 hours.Ecc andEca survived externally on both vectors for at least 24 hours and in some cases at low levels for 48 hours. The two varieties of bacteria declined in number with elapsed time both internally and externally. We suggest that the vectors enhance survival of the non-spore formingErwinia cells outside the plant host. The enhanced survival, combined with the dispersal ability of the vectors, increases the destructive potential of these bacteria. There appeared to be no differential survival of the two bacterial varieties on the vectors studied that might account for the differential transmission reported by previous workers. 相似文献
11.
C. B. Wegener 《Potato Research》2001,44(4):401-410
Summary Four potato lines of cv. Désirée that express the pectate lyase (PL) isoenzyme 3 ofErwinia carotovora subsp.atroseptica were examined in a 4-year field experiment with respect to plant development, tuber yield and resistance of tuber tissue
toErwinia soft rot. The PL3 degrades plant cell wall pectin into unsaturated oligogalacturonates eliciting plant defence responses.
In one line, enzyme expression was controlled by the CaMV 35S promoter (C) and in three lines it was driven by the potato
patatin B33 promoter (D). Plant development of the D-lines in field plots was not distinguishable from that of the non-transgenic
counterpart. Also tuber yield was not too different. By contrast, plants of the C-line were smaller than those of the nontransformed
counterpart and also showed reduced tuber yield. There were no significant differences in dry mass, starch and protein content
of tuber tissue between PL transgenic and non-transgenic potatoes. But compared with the latter, field-grown tubers expressing
the PL displayed an enhanced resistance toErwinia soft rot. Thus, average rotting caused byEc-bacteria was diminished in tubers of PL-transgenic lines by 34.1%. The resistance of tubers toEc soft rot was significantly correlated with the PPO activity in tuber tissue. 相似文献
12.
Summary The production of extensive soft rot in potato tubers which were wounded, inoculated withErwinia carotovora var.atroseptica and stored inc. 100% RH at 20° was greatly increased by replacing air in containers with N2. Accumulation of CO2 due to tuber respiration did not significantly affect the production of rots in these conditions. When tubers were inoculated
with sterile water in place of theErwinia and held under anaerobic conditions, spreading soft rots were also produced andClostridia, but not soft rotErwinia, were isolated from the rotted tissue. Some of theseClostridia were shown to be capable of breaking down potato tissue, and may be a significant cause of potato soft rots developing in
store. 相似文献
13.
A study into the ecology ofErwinia carotovora in North Dakota was performed to determine possible sources ofErwinia spp. which recontaminate stem cut derived seed stocks (SCDS).Erwinia carotovora pv.carotovora (Ecc) was found to overwinter in naturally infested agricultural soils that had been planted to potato the previous cropping season. However, this bacterium was only present in the 30–71 cm sampling depth.E. carotovora pv.atroseptica (Eca) and Ecc were also found in the rhizospheres of a few weed and crop species but the frequency of recovery was low. Ecc and other strains not identifiable to pathovar, but notE. chrysanthemi, were readily recovered from a variety of water sources and from sunflowers with stem and head soft-rot symptoms. AllErwinia strains were characterized, but not all could be identified to pathovar. WateringErwinia-free potato plants with water naturally infested withErwinia spp. resulted in progeny tubers contaminated withErwinia. The importance of this information with regard to the recontamination of SCDS is discussed. 相似文献
14.
M. C. M. Perombelon 《Potato Research》1979,22(1):63-68
Summary
Erwinia carotovora in potato stocks can be detected more efficiently by the tuber incubation method in which the test tubers are first induced
to rot under anaerobic conditions (followed by detection isolation of the bacteria on a selective growth medium or by serological
techniques) than by direct lenticel sampling. However, the efficiency of detection is affected by both the extent of decay
at sampling time and the incubation temperature. Detection ofE. carotovora is poor from extensive lesions developed at temperature of 25 C or above. Furthermore, detection ofE. carotovora var.atroseptica is more frequent than that ofE. carotovora var.carotovora at temperatures below 22 C in tubers contaminated by both organisms, whereas at higher temperatures the reverse is true.
Only within a narrow temperature range, close to 22 C is there an equal chance of detecting both varieties. 相似文献
15.
L. W. Nielsen 《American Journal of Potato Research》1978,55(12):671-676
Twelve-tuber samples were collected from 39 certified seed stocks grown in 4 states and a Canadian province. One-half of each sample was immersed in water and the other half exposed to a CO2-N atmosphere at 25C to induce soft rot development at the lenticels. Pectolytic bacteria were isolated from 24 seed stocks which represented each producing area. The pathogenicity and biochemical reactions of 20 isolates were those ofErwinia carotovora var.atroseptica, except for one isolate which grew at 37C. Four isolates did not cause black leg but only three reacted biochemically likeE. carotovora var.carotovora. The results confirm reports that theErwinia spp. are tuber borne and that anaerobic conditions stimulate infection of naturally inoculated lenticels. 相似文献
16.
Summary The effect of adding gypsum (CaSO4) to growing media on the resistance toErwinia carotovora subsp.atroseptica (van Hall) Dye of potato (Solanum tuberosum L.) stems and mother and daughter tubers was examined in field and glasshouse experiments. The decayin situ of inoculated mother tubers from field plots treated before planting with gypsum was significantly delayed compared with
tubers sampled from non-amended plots. Blackleg development was also significantly delayed in the gypsum-amended plots; however,
for both mother tubers and stems the increased resistance associated with the application of gypsum later disappeared. Stem
resistance tended to be related to tissue calcium and magnesium concentrations which were higher in plots treated with gypsum
than in untreated plots. Daughter tubers produced in plots amended with gypsum generally contained a higher concentration
of calcium in their cortex and were more resistant to decay byE. carotovora subsp.atroseptica but the effect was not consistent. 相似文献
17.
Mary L. Powelson 《American Journal of Potato Research》1985,62(4):173-176
Premature death of potato vines is widespread in irrigated potato fields of the Pacific Northwest.Verticillium dahliae is a major cause of early dying in fields with a history of potato production, but in fields new to potato production, or those that have been fumigated and have a lowV. dahliae population in the soil, premature death of vines can also occur.Erwinia carotovora pv.carotovora (Ecc) andE. carotovora pv.atroseptica (Eca) have been implicated in the early dying disease syndrome in these fields. Both bacterial pathogens are associated with symptoms similar to those caused byV. dahliae; i.e., a progressive chlorosis and necrosis of the foliage and vascular discoloration that may extend a short distance up the stem. Greenhouse pathogenicity studies on cv. Russet Burbank cuttings in which symptom development was identical to that produced byV. dahliae have verified thatEcc andEca can cause potato early dying. 相似文献
18.
Relative disease severity (seedpiece decay or post emergence blackleg) incited byErwinia carotovora var.carotovora (Ecc) andErwinia carotovora var.atroseptica (Eca) was studied in the field and the greenhouse. When inoculated tubers were planted in cool soils in the field or greenhouse (7.0–18.5°C average minimum and 16–26°C average maximum temperature during the first 30 days after planting)Eca caused significantly more disease thanEcc. Under these experimental conditionsEcc did not cause significantly more disease than that found in non-inoculated controls. When soil temperatures were high at planting time (21.4–24.0°C average minimum and 29.6–35.0°C average maximum temperature for the first 30 days after planting), inoculation withEcc resulted in severe disease whileEca produced no more infection than that found in uninoculated controls. At intermediate soil temperatures both were infective. Seedpiece decay by both organisms was correlated with soil temperatures during the first 30 days after planting. As the soil temperature increased, inoculation withEcc resulted in more disease than inoculation withEca. At lower soil temperatures the opposite result was obtained. Field and greenhouse studies showed that bothEca andEcc were able to cause typical post emergence blackleg infection, the former at low soil temperature and the latter at high temperature conditions. The data suggest that bothEcc andEca are components of the potato blackleg and soft rot disease complex. Environmental conditions, especially soil temperature, determine which organism is causative under a particular set of conditions. 相似文献
19.
A. Capo M. Cammareri F. Delia Rocca A. Errico A. Zoina C. Conicella 《American Journal of Potato Research》2002,79(2):139-145
The aim of this work is the evaluation of tetraploid potato clones with germplasm fromS. chacoense andS. phureja for chipping and resistance to tuber soft rot (Erwinia carotovora subsp.carotovora). Tetraploid potato clones were obtained via 2n eggs through 2x–4x crosses. Cytological mechanisms were investigated in the diploid hybrid 2n-egg producer used as parent in the unilateral sexual polyploidization scheme; the omission of the second meiotic division and cytokinesis failure at the end of meiosis were identified with a genetic consequence equivalent to second division restitution (SDR). Tuber marketable yield, specific gravity and chip-processing ability evaluated at harvest and after cold storage with and without reconditioning were higher in some clones as compared to theS. tuberosum tetraploid parent. Tuber soft rot resistance, contributed byS. chacoense, was successfully transferred to the4x level. After inoculation withErwinia carotovora subsp.carotovora and estimation of the rotted area, one tetraploid clone proved to be resistant and three partially resistant. The genetic value of exotic germplasm and sexual polyploidization strategy are discussed in relation to potato improvement. 相似文献
20.
Kathleen G. Haynes William J. E. Potts Robert W. Goth 《American Journal of Potato Research》1997,74(4):265-275
Soft rot resistance in potato (Solanum tuberosum L.) tubers can be determined by inoculating tuber slices with soft rotErwinia species. Questions have been raised in the literature concerning the reliability of the tuber slice method. The objectives of this study were to 1) examine the statistical assumptions underlying the analysis of variance for different response variables as measures of soft rot resistance using the tuber slice method of evaluation; 2) estimate the sample sizes necessary to detect specified differences with power 0.83; and, 3) choose the “best” variable for measuring resistance to soft rot based on valid statistical analysis and minimal sample size. Slices from fifteen tubers from each of three cultivars (Atlantic, Norchip, Superior) were inoculated withErwinia carotovora subsp.atroseptica, E. carotovora subsp.carotovora orE. chrysanthemi and incubated at two different temperatures (20 C and 30 C) for 48 hrs. The test was conducted on two dates. Tuber samples were sliced and weighed prior to inoculation and after the macerated tissue was removed following a 48 hr incubation period. The maximum diameter of macerated tissue, actual weight loss, four measures of proportional weight loss, and various transformations of these variables were analyzed. The “best” response variables for measuring resistance to soft rot by the tuber slice method were the diameter of the macerated tissue and the square root transformation of one of the measures of proportional weight loss. No differences were found among the cultivars nor theErwinia subsp. for either of these response variables, and the cultivar ×Erwinia subsp., cultivar × temperature and cultivar ×Erwinia subsp. × temperature interactions were not significant. However, there were significant differences between the incubation temperatures, and theErwinia subsp. × temperature interaction was significant for both response variables. Estimates of sample sizes necessary to find a 20% difference in main effect and interaction effect means were calculated. 相似文献