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H. K. Were J. N. Kabira Z. M. Kinyua F. M. Olubayo J. K. Karinga J. Aura A. K. Lees G. H. Cowan L. Torrance 《Potato Research》2013,56(4):325-342
Potato plays an important role in food security in Kenya but yields are low (<10 t/ha), and this is partly attributed to the lack of healthy planting material. This study is the first wide-scale survey to determine the occurrence and distribution of common potato pests and diseases in Kenyan seed (certified and quality declared) and ware crops. Potato crops growing on 101 farms in 21 districts were examined. Approximately 36% of plants in farmers’ fields sampled both during the long rains (main potato-growing season) and short rains seasons displayed virus-like disease symptoms. Six viruses (potato leafroll virus (PLRV), Potato virus A (PVA), potato virus M (PVM), potato virus S (PVS), potato virus X (PVX), and potato virus Y (PVY)) were detected using double antibody sandwich enzyme-linked immunosorbent assay in potato samples. Sequencing of polymerase chain reaction products from PVY-infected plants revealed the presence of recombinant strains of PVY (NTN and Wilga). Four aphid species, Macrosiphum euphorbiae, Aphis gossypii, Myzus persicae, and Aphis fabae, colonized potato in all districts, occurring in greater numbers west of the Great Rift Valley than to the east. There was a positive correlation between virus incidence and aphid numbers in the long rains (main) potato-growing season. PLRV, PVM, PVS, PVX, and PVY were detected in solanaceous weeds. Ralstonia solanacearum was detected in soils from 13 farms in 8 of the 18 districts surveyed. Approximately 38% of soil samples were infested with Meloidogyne spp. Phytophthora infestans isolates belonging to the US 1 and 2_A1 genotypes were identified. Although many economically important diseases are present in Kenya, the lower aphid incidence in districts east of the Great Rift Valley may indicate that these districts are more suitable for seed potato production. 相似文献
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R. H. Bagnall 《American Journal of Potato Research》1972,49(9):342-348
On two separate occasions, some available accessions of tuber-bearingSolanum species were tested for resistance to potato viruses. Challenge inoculations were made mechanically with infective sap; and assessment was by sub-inoculation to differential host plants, supplemented by serological tests. In 1956–57, four accessions remained free from potato virus S (PVS), and nine remained free from PVM. In 1968–70, one or more clones of 11 accessions showed resistance to PVS—one of them,S. megistacrolobum, a diploid, apparently being hypersensitive. Resistance to PVX was found in seven accessions, and to PVM in two. There appeared to be resistance to the potato spindley tuber virus in five accessions. 相似文献
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Summary Samples of a sandy soil and a marine clay soil sterilized by steam were put in 55-1 containers insulated with polystyrene
and placed outdoors on a brick pavement. Sandy soil was infested singly or in all possible combinations with root-knot nematodes
(Meloidogyne spp.) and the fungiRhizoctonia solani andVerticillium dahliae, and the marine clay soil was infested with the root-lesion nematodePratylenchus neglectus and the same fungi to evaluate the effects of these organisms on the yield of potato. The experiments were carried out from
1983 to 1986.
Tuber yield was reduced by single infestations of theMeloidogyne spp. andV. dahliae but not significantly byR. solani orP. neglectus. A three-factor interaction: nematode ×R. solani × V. dahliae was found in both experiments.R. solani andV. dahliae showed significant synergistic effects when soil was infested with theMeloidogyne spp. orP. neglectus. 相似文献
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Summary Potato virus M (PVM), potato virus S (PVS), potato virus X and tobacco veinal necrosis strain of potato virus Y (PVYR) were isolated from potatoes showing tuber necrotic ringspot disease (TNRD). Potato mop-top virus, tobacco rattle virus,
tobacco necrosis virus and tomato black ring virus could not be isolated from the diseased plants. Because PVM and PVS could
be isolated from potato plants that did not show symptoms, these viruses could not be causally related to TNRD. However, TNRD
is closely connected with infections by PVYR which always could be isolated from potato plants with TNRD symptoms.
Zusammenfassung Aus Kartoffelpflanzen (Solanum tuberosum, Sorten Adema, Malacsinka, Mona Lisa, Romano und Rosalie) die Symptome des Tuber necrotic ringspot zeigten, wurden Kartoffel-M-Virus (PVM), Kartoffel-S-Virus (PVS), Kartoffel-X-Virus (PVX) und Kartoffel-Y-Virus (PVY) isoliert. Die Viren wurden mit Hilfe von Differentialwirten, Elektronenmikroskopie, Serologie und Pr?munit?tstests identifiziert. Die untersuchten Kartoffelknollen zeigten deutlich sichtbar nekrotische Ringsymptome (Abb. 1). Von den Nekrosen aufweisenden Knollen und von Kartoffelpflanzen konnten von allen Sorten drei Viren (PVM, PVS, PVY) isoliert werden, von der Sorte Malacsinka zus?tzlich noch PVX (Tab. 2). Entsprechend den Symptomen der Testpflanzen (Tab. 3) identifizierten wir die Virus-isolate aus Kartoffelpflanzen die Symptome des Tuber necrotic ringspot aufwiesen als PVM, PVS, PVX und PVY. Aus keiner kranken Pflanze konnte Kartoffelbüscheltrieb-Virus, Tabakmauche-Virus, Tabaknekrose-Virus und Tomatenschwarzring-Virus isoliert werden. Da PVM und PVS aus Pflanzen, die keine Symptome aufwiesen, isoliert werden k?nnten, k?nnen diese beiden Viren nicht urs?chlich mit den Symptomen der Tuber necrotic ringspot Krankheit (TNRD) verbunden sein. Wir konnten jedoch eine enge Verbindung zwischen TNRD und der Infektion mit PVY feststellen, da dieses Virus von allen Pflanzen, die Symptome des TNRD aufwiesen, isoliert werden konnte. Die Eigenschaften von PVY-Isolaten aus Knollen, Bl?ttern und Wurzeln ?hnelten jenen, die in verschiedenen Testpflanzen gefunden wurden (Tab. 4). Die typischen Symptomreaktionen aufNicotiana debneyi (Abb. 2) undN. tabacum Sorte Xanthi-nc sowie aufSolanum demissum A6-Hybride lassen vermuten, dass die Ursache ein Tobacco veinal necrosis—Stamm des PVY, (PVYR, siehe Abb. 3) war. Es ist schwierig zu einem endgültigen Ergebnis über die ?tiologie der TNRD zu kommen, weil einige PVYR-isolate sogar aus symptomlosen Kartoffelknollen gewonnen werden konnten. Die Untersuchungen werden fortgesetzt.
Résumé Les virus M (PVM), S (PVS), X (PVX) et Y (PVY) sont isolés à partir de plantes de pommes de terre (Solanum tuberosum cvs Adema, Malacsinka, Mona Lisa, Romano et Rosalie) présentant des sympt?mes de taches nécrotiques annulaires. Les virus sont identifiés à l'aide d'h?tes différentiels, de la microscopie électronique, de la sérologie et de tests de protection croisée. Les tubercules examinés présentent des taches nettement visibles de nécroses annulaires (fig. 1). A partir des tubercules nécrosés et des plantes, trois virus (PVM, PVS, et PVY) sont isolés pour tous les cultivars à l'exception de cv. Malacsinka pour lequel PVX est également isolé (tabl. 2). Les sympt?mes révélés sur les plantes tests (tabl. 3) indiquent que les virus isolés à partir des plantes présentant des sympt?mes de nécroses annulaires sur tubercules sont PVM, PVS, PVX et PVY. Les virus du Mop-Top de la pomme de terre, du rattle du tabac, de la nécrose du tabac et des taches noires en anneau de la tomate n'ont pu être isolés d'aucune des plantes malades. Puisque PVM et PVS peuvent être isolés de plantes de pommes de terre ne présentant pas de sympt?mes, ces deux virus ne peuvent être directement responsables des sympt?mes de taches nécrotiques annulaires sur tubercules (TNRD). Cependant, une relation étroite entre TNRD et la contamination par PVY est établie, puisque ce virus peut être isolé de toutes les plantes présentant des sympt?mes de TNRD. Le tableau 4 regroupe les caractéristiques de quel-ques cultures pures de PVY isolées à partir de tubercules, feuilles et racines et semblables à celles trouvées dans différentes plantes h?tes. Les sympt?mes typiques surNicotiana debneyi (fig. 2) etN. tabacum cv. Xanthi-nc, ainsi que surSolanum demissum-A6-hybride laissent à penser que l'agent responsable est une souche nécrotique des nervures du tabac de PVY (PVYR, voir fig. 3). Il est difficile de conclure de fa?on définitive, quant à l'étiologie de la maladie des taches nécrotiques annulaires, car PVYR peut être également isolé de tubercules ne présentant aucun sympt?me. Des études axées sur l'étiologie de TNRD sont en cours.相似文献
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Development of alternative serological techniques to ELISA for detection of potato viruses offers advantages for monitoring virus incidence and for seed potato certification systems. Several trials showed that multiplex tissue print immunoassay (TPIA) and dot blot immunoassay (DBIA) might represent fast, practical, and sensitive alternatives for the detection of: Potato leaf roll virus (PLRV), Potato virus S (PVS), Potato virus X (PVX) and Potato virus Y (PVY), from green and/or tuber tissues. In TPIA, the specific precipitation patterns in infected tissues of leaf petioles or stem cross sections, observed with each virus, allowed identification of the specific virus or mixed infections in a single multiplex assay. For detection of PVY in green tissues, DBIA was shown to be over 50 times more sensitive than ELISA. TPIA and ELISA from the tuber stem end or from eyes might be used for rapid detection of PVY and PVS in seed potato tubers without prior germination. PVS was evenly distributed in potato tuber tissue, while PVY was localized in the vascular tissue beneath the epidermis, with irregular distribution along the periphery of the potato tuber. For laboratories in developing countries lacking time and facilities for tests based on tuber germination, monitoring for PVS and PVY using TPIA in tuber tissue may be a suitable alternative to ELISA. 相似文献
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J. P. MacKinnon J. E. Campbell R. E. Longmoore 《American Journal of Potato Research》1972,49(11):432-437
When five varieties of virus-free potatoes were introduced and multiplied for three years at an elite seed farm in Prince Edward Island where virus-infected potatoes were also grown, approximatly 10% of each variety became infected with both potato virs S (PVS) and potato virus X (PVX). However, when eight varieties of similar stocks were multiplied for 2 years at private farms in the absence of virus-infected potatoes, all remained free from PVX. Four of the varieties also remained free from PVS and four became infected with amounts of less than 5%. In other tests on these stocks, no potato virus Y (PVY) was detected. Post harvest tuber testing onNicotiana debneyi Domin. was found to be more reliable in detecting recent infections of PVS than foliage tests done during the growing season. This was so whether the foliage tests were done on the indicator plant, serologically or doubly-tested by both methods. 相似文献
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Summary
Macrosiphum euphorbiae, collected in the field from potato plants infected with potato leafroll virus (PLRV), transmitted the virus to fewer potato
plants in a field trial than did laboratory-rearedMyzus persicae. In the laboratory,M. persicae was the only efficient vector of PLRV fromPhysalis floridana seedlings, potato sprouts or excised leaves toP. floridana. Two clones ofM. euphorbiae and one clone ofAulacorthum solani transmitted PLRV from infected potato plants toNicotiana clevelandii as effeciently asM. persicae but a clone ofAphis gossypii was an inefficient PLRV vector. An isolate of PLRV, whichM. persicae transmitted inefficiently from potato toN. clevelandii, was also transmitted inefficiently byM. euphorbiae andA. solani. 相似文献
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将多种病毒的有效核酸片断拼接成融合基因转入马铃薯可获得多抗马铃薯材料。针对马铃薯生产中分布广泛、危害严重并经常混合感染的马铃薯X病毒(PVX)、马铃薯Y病毒(PVY)、马铃薯卷叶病毒(PLRV)和马铃薯S病毒(PVS),开展了利用基因工程方法获得兼抗4种马铃薯病毒转基因马铃薯材料的研究。试验在前期获得含4种马铃薯病毒外壳蛋白基因片段的质粒pART27-XSYV-rh的基础上,通过根癌农杆菌(Agrobacterium tumefaciens)介导转化马铃薯(Solanum tuberosum)品种‘陇薯3号’,PCR扩增和PCR-Southern杂交证明,4价融合基因已整合到马铃薯基因组中。qRT-PCR分析表明,该融合基因在转基因植株中能正常表达。3株转基因植株的抗病性鉴定结果表明,2株对4种病毒同时具有抗性;1株对PLRV侵染表现阳性,对另外3种病毒同时具有抗性。 相似文献
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Summary
Solanum brevidens showed calico mosaic symptoms in all the leaves, butS. etuberosum yellowing and yellow mosaic only in the top leaves, following graft-inoculation with alfalfa mosaic virus (AMV). The South
American potato virus SB-22 infected latentlyS. brevidens following graft-inoculation, whereasS. etuberosum was not infected. AMV was not transmitted to the ovules of AMV-infectedS. brevidens andS. etuberosum. However, AMV was transmitted to the seeds ofS. etuberosum through pollen, resulting in 0.9% infected seeds.S. brevidens infected by SB-22 produced up to 20.2% of virus-infected germinable seed, and in some of the seed lots of infectedS. brevidens the germination rate was as low as 1.0%. 相似文献
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The potato plantlets singly infected by PVA, PLRV, PVS, PVX and PVY and mix-infected by PVM, PVS and PVY were cultured on MS medium with different concentration of ribavirin. The effects of ribavirin on growth of the plantlets and efficiency of virus elimination were investigated. Results showed that the plant height and fresh weight obviously decreased with increase of ribavirin concentration from 0 mg/L to 150 mg/L, and most of the plantlets could not survive when the concentration reached 200 mg/L. According to the ELISA tests, ribavirin was more efficient for eradicating PVA, PVM, PVS and PVX than PVY and PLRV, and healthy plantlets could be obtained with high frequency (up to 100 %) by culturing with 75?~?150 mg/L ribavirin after 2?~?3 subcultures. Whereas, only 33?~?66 % PVY and PLRV infected plantlets were found to be virus-free after 3 subcultures with 75?~?150 mg/L ribavirin. The results of quantitative RT-PCR (qPCR) indicated that ribavirin could obviously reduce virus content in the plantlets. Except PLRV was detected positive after 3 subcultures with ribavirin, the healthy seedlings were obtained from infected stocks at the first or end of propagation and no viruses could be detected at the post-eradication stage. No apparent difference of genetic variation resulted from ribavirin treatment was found by SSR analysis between the control and the treated plantlets. All of these results above proved that ribavirin treatment in vitro was an effective method to eliminate viruses in the propagation of potato. 相似文献
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J. A. de Bokx 《Potato Research》1972,15(1):67-70
Summary An experiment withEersteling (originally freed by meristem culture from PVX and PVS) andAlpha plants has been carried out in the field to study the spread of potato virus S. It was shown that depending on virus isolate,
in a crop containing approximately 10% of plants with secondary infection, the primary infection inEersteling could rise to 56–76%, whereas that percentage inAlpha plants rose to 2–28 only. From the pattern of infected plants in was concluded that under field conditions in the Netherlands
potato virus S is probably transmitted by contact. 相似文献
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Summary The incidence of infection withSpongospora subterranea was studied in the non tuber-bearingSolanum brevidens andS. etuberosum and the tuber-bearingS. acaule, S. sucrense andS. tuberosum cvs Olympia and Pito. Shoot cuttings were grown in soil naturally infested withS. subterranea, or the roots were inoculated with a zoospore suspension. Logit models were used to analyse the data. The incidence ofS. subterranea was higher in plants inoculated with zoospore suspension than in those grown in infested soil (odds ratio (OR) 10.65). Ageing
the inoculum reduced the incidence of infection in the plants (OR 0.30) without altering the interspecific differences. The
ORs of infection (compared to cv. Olympia) were 0.07, 0.29, 0.60 and 2.88 forS. acaule, S. sucrense, S. brevidens andS. etuberosum. OnlyS. acaule was significantly more resistant to infection than cv. Olympia. No infection was detected in cv. Pito. 相似文献
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Summary The long-term maintenance of phytopathogenic viruses on potato and tobacco tissue culture plantlets was investigated. Several
strains of PVYN, PVYO, PVX, PVA, PVM, PVS and PLRV have been kept in a tissue culture type collection of viruses at the Institut für Kartoffelforschung
Gross Lüsewitz for 1–3 years. The serological and biological activity of cultures established in vitro of PVYN-D 884/Solanum tuberosum cv. Ackersegen, PVYO-1427/Nicotiana tabacum cv. Samsun, PVX-Erstling/Nicotiana tabacum cv. Samsun and PVX-Erstling/Solanum tuberosum cv. Arkula was proved. 相似文献
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Ulla Bång 《Potato Research》1992,35(1):3-15
Summary In each of the five years 1978 to 1982, seed lots of cv. Bintje, variously infested byPhoma foveata Foister andFusarium solani var.coeruleum (Sacc.) Booth, as found by wound and cut tests, respectively, were planted in a series of field experiments at six sites
in Sweden. A statistically significant relationship between seed and progeny infestation was found forP. foveata each year, and in three years forF. solani.
Benomyl and thiabendazole mist treatments of seed tubers at grading in spring controlled the development of gangrene and dry
rot in treated seed tubers, but did not consistently reduce the levels ofP. foveata andF. solani infestation in progeny from treated seed tubers.
The site of cultivation markedly influenced mean levels ofP. foveata infestation, which were found to be related to temperature and rainfall during a 40 day pre-harvest period at the trail sites;
however, mean levels ofF. solani infestation were not so related. 相似文献
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K. Scholte 《Potato Research》1989,32(3):367-376
Summary The effects of soil-borneRhizoctonia solani on yield and quality of potato were studied by an extensive individual plant sampling procedure. From 1983 to 1986, stem
canker and stolon pruning were examined in 10 768 plants growing on a sandy soil. Tuber yield and quality and haulm yield
per plant were also recorded.
The degree of attack byR. solani depended on the cropping frequency of potato. Severe and very severe stem and stolon attacks decreased fresh yield, dry matter
yield and dry matter content of tubers and increased the number of deformed and small tubers, whereas the effect on haulm
yield and stem number was small.
Potato cultivars differed in susceptibility toR. solani, but yield response did not differ significantly between cultivars at the same levels of stem and stolon infection. 相似文献
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R. P. Singh A. Boucher T. H. Somerville S. Coleman 《American Journal of Potato Research》1996,73(3):101-112
Using enzyme-linked immunosorbent assay (ELISA) and dotimmunobinding assay (DIBA) for potato viruses A (PVA), M (PVM), S (PVS), X (PVX), YN (PVYN), YO (PVYO) and leafroll (PLRV) and nucleic acid spot hybridization (NASH) for potato spindle tuber viroid (PSTVd), virus and viroid were detected reliably from single leaf discs (6 mm) of tissue-culture plantlets. Leaf discs taken from leaf positions (1 to 8) (bottom to top) can be used for detection of all viruses except PLRV where the lower leaves had higher concentrations of virus than the leaves from the upper part of the plantlet. Virus cultures were maintained for 1 to 4 years in several potato cultivars. The levels of virus remained reproducible except for PVM concentration, which was found to be very low in cv. Green Mountain. Using densitometry software, the DIBA spots were quantified and results were comparable to A405 values obtained by ELISA. PSTVd concentration as measured by densitometry from spots of NASH indicated no loss of viroid over 1–4 years in tissue culture in two potato cultivars. 相似文献
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Various parameters,e.g. types of microtiter plate for DAS-ELISA (double antibody sandwich-enzyme-linked immunosorbent assay), use of fresh or frozen amplifier solutions for enzyme-amplified-ELISA, and use of sodium diethyldithiocarbamate (NaDIECA) in sample buffer in cocktail-ELISA were evaluated for the detection of potato viruses A, M, S, X, Y and leafroll from potato foliage. Dynatech Immulon immunoplates provided higher readings for all viruses. Fresh amplifier solution in amplifed-ELISA was superior to frozen solutions. Amplified ELISA gave only marginal improvement in the sensitivity over the standard DAS-ELISA. Addition of NaDIECA in sample buffer did not improve the detection of viruses in DAS-, amplified-, or cocktail-ELISA. Cocktail-ELISA can reduce antigen incubation time to as short as 15 min for PVA, PVM and PVX; 1 hr for PVY and PLRV; and 2–4 hr for PVS using pre-coated plates. Although amplified-ELISA is slightly more sensitive than DAS-ELISA for certain potato viruses, it is not suitable for large-scale indexing of potato viruses in Seed Certification Laboratories, in view of the additional steps needed in carrying out this procedure. 相似文献
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Reinfection of potato seed stocks with the potato viruses S (PVS) and X (PVX) varied with cultivar, virus, and grower. Rapid recontamination was observed for the cultivars Norgold Russet and Ontario with PVS and for the cultivars LaChipper, Norchip, and Norgold Russet with PVX. Recontamination was low for the cultivars LaChipper and Monona with PVS and for the cultivars Kennebec, Monona, Norland, and Superior with PVX. Survey results suggest that PVS and/or PVX can be eliminated from cultivars which appear to possess field resistance to infection, but that further evaluation of cultivars which are very susceptible to reinfection will be necessary. 相似文献