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1.
Environmental factors influencing aphid transmission of potato virus Y and potato leafroll virus 总被引:1,自引:0,他引:1
Summary The effect of temperature, relative humidity (RH) and light on aphid transmission of potato virus Y (PVY) and potato leafroll
virus (PLRV) was studied using as vectorsMyzus persicae Sulz. andAphis gossypii Glov. Host susceptibility was enhanced by 48 h pre-inoculation exposure at 25°C and by 48 h post-inoculation exposure to
30°C. High RH (80%) in both pre- or postinoculation phases enhanced host susceptibility. Continuous fluorescent light (4000
lux) did not alter the rate of transmission of either virus. High RH (80–90%) and high temperature (25–30°C), when combined,
increased virus transmission by 30–35%. Transmission rates were reduced by nearly 50% if RH was maintained at 50% in either
of the two phases even if the temperature was 25 or 30°C. Both viruses were acquired by aphids earlier (13–20 days after inoculation)
when the source plants were incubated at 25 or 30°C. Most virus was transmitted from plants inoculated with PVY 13 to 16 days
and with PLRV 15 to 20 days previously. Transmission rates of PVY were enumerated from symptom expression on test plants and
by Enzyme Linked Immunosorbent Assay (ELISA) whereas those of PLRV were enumerated from symptom expression alone. 相似文献
2.
Cryotherapy of Potato Shoot Tips for Efficient Elimination of Potato Leafroll Virus (PLRV) and Potato Virus Y (PVY) 总被引:1,自引:0,他引:1
Viral diseases constitute a major constraint to high yield and high quality production of potato. Potato leafroll virus (PLRV) and Potato virus Y (PVY) are among the most damaging potato viruses and are prevalent in most potato growing areas. In the present study, attempts
were made to eliminate PLRV and PVY by three cryogenic protocols, i.e., encapsulation-dehydration, encapsulation-vitrification
and droplet. Results showed that both PLRV and PVY could be efficiently eliminated by cryogenic treatments with 83–86% and
91–95% of frequencies of virus-free plantlets obtained for the former and latter, respectively. Frequencies of virus-free
plantlets produced by cryogenic treatments were higher than those by meristem culture (56% for PLRV and 62% for PVY) and thermotherapy
(50% for PLRV and 65% for PVY), and similar to those by thermotherapy followed by meristem culture (90% for PLRV and 93% for
PVY). Survival (75–85%) and regrowth (83–89%) from cryo-treated shoot tips were higher than those from meristem culture (50–55%)
and thermotherapy followed by meristem culture (40–50%), but similar to those from thermotherapy (80–87%). The morphology
of the plantlets regenerated from cryo-treated shoot tips was similar to that of non-treated plantlets. Thus, cryotherapy
would provide an alternative method for efficient elimination of potato viruses, and can be simultaneously used for long-term
storage of potato germplasm and for production of virus-free plants. 相似文献
3.
The effectiveness of the potato aphid,Macrosiphum euphorbiae (Thomas), to transmit potato virus Y (PVY) to potato has generally been overestimated because tobacco has been used as the indicator host. Our results demonstrate that, although apterousM. euphorbiae can acquire PVY from potato and tobacco plants and transmit it to tobacco plants, it does not readily transmit it to potato plants. Alatae only transmitted the virus to 4.5% of potato plants. This relative inability to transmit the virus to potato seems independent of potato cultivar. Results suggest that the role of the potato aphid in the spread of PVY in potatoes may be negligible. 相似文献
4.
A. van Harten 《Potato Research》1983,26(1):1-15
Summary In the Netherlands early haulm destruction is the main method of preventing excessive spread of virus diseases in seed potato
crops. When potato leaf roll virus was the principal problem, the time of haulm destruction was determined by the flight ofMyzus persicae (Sulzer), studied with the aid of Moericke yellow water traps. As potato virus YN became a problem and other aphid species interfered, the interpretation of aphid flights became difficult.
An attempt is made to quantify total aphid flight activity in terms of risk to the crop. By attributing relative efficiency
factors to 9 vector species and considering their flights as recorded with suction traps, values of vector-pressure are obtained
that correlate well with weekly infection of bait plants. If accumulated vector pressures are compared with the flights ofM. persicae as recorded with Moericke traps during 1970–1979, it appears that during 6 of these years the critical periods of both systems
coincide. However, in 1974 and 1976 much potential vector threat occurred before the start of the flight ofM. persicae. Suggestions are made as to how to apply the method in practice.
A semi-popular account of this paper has appeared in Dutch inGewasbescherming 12 (1981) 57–71. 相似文献
5.
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
6.
Jeffrey A. Davis Edward B. Radcliffe David W. Ragsdale 《American Journal of Potato Research》2005,82(3):197-201
Soybean aphid (Aphis glycines Matsumura), an exotic species first discovered in the North Central region of the United States in 2000, is a competent vector of severalPotyviridae. Soybean aphid has high fecundity and produces alatae (winged morphs) readily, characteristics typical of proficient virus vectors. When soybean aphids were exposed toPotato virus Y (PVY)-infected potato plants and then clip-caged on healthy potato plants in groups of five or as single aphids, PVY transmission ranged from 14% to 75% across all experiments. PVYo, PVYn, and PVPntn strains were transmitted by soybean aphid. 相似文献
7.
Seedlings ofSolarium demissum P.I. 230579 in the 5-to 10-leaf stage growing under 18-hour days and at 20 to 24°C developed dark, irregular, slightly elongated local lesions 3 to 5 days following inoculation with any one of three strains of potato virus Y (PVY). Local lesions did not develop after similar inoculations with any one of two or more strains each of potato viruses A, M, S, X, or spindle tuber and a single strain each of potato calico and potato yellow dwarf. Inoculations from diseased specimens infected with PVY plus potato viruses A, M, S, and X, singly or in some combinations did not affect the efficiency of P.I. 230579 in detecting PVY in the mixed infections. Plants of P.I. 230579 developed significant numbers of local lesions from PVY inoculations at temperatures from 16 to 27°C and at inoculum dilutions through 1:100. Excised individual leaves of P.I. 230579 can be used to detect PVY. Leaves of plants exposed to air pollutants are unsuitable for assay purposes.S. demissum P.I. 230579 is homozygous for the local reaction to isolates of PVY and is a valuable aid for indexing aphid or mechanically inoculated potato clones or seedlings for resistance to the virus. It is a superior diagnostic host for differentiating PVY from other viruses commonly found in potatoes in the United States. 相似文献
8.
Summary Potato spindle tuber viroid (PSTV) and potato virus Y (PVY) were isolated from plants of cultivar Kennebec with severe necrotic
symptoms in the field. In the greenhouse, severe necrotic symptoms were reproduced only when potato plants were infected either
simultaneously with PSTV+PVY, or with PSTV prior to PVY infection. Thirteen additional potato cultivars were tested in the
greenhouse for this synergistic reaction and eight developed necrotic responses similar to cv. Kennebec. PVY concentration
was significantly higher in doubly infected plants, compared with those infected with PVY alone. 相似文献
9.
S. M. El-Amin J. P. T. Valkonen K. Bremer E. Pehu 《American Journal of Potato Research》1994,71(4):267-272
Viruses that infect naturally an important Sudanese potato stock Zalinge were detected using enzyme-linked immunosorbent assay, immunosorbent electron microscopy and sap-inoculation to test plants. All of the 19 plants of Zalinge tested were infected with potato leaf roll virus (PLRV) and potato virus S (P VS), and five plants also with potato virus X (PVX). No potato virus Y (PVY), A (PVA) nor M (PVM) were found. The viruses were eradicated with thermo and chemotherapy using standard procedures. The combination of both therapies did not result in any virus-free plants, but resulted in poor plant survival. Thermotherapy reduced the incidence of PLRV and PVS by 45% and 50%, respectively, and one virus-free plant was obtained. It grew vigorously in the greenhouse, was symptomless and had a significantly increased tuber yield compared to the virus-infected plants. Following sap-inoculation with PVYO, Zalinge showed mosaic symptoms, developed necrosis in the leaves and stem and died 14 days post-inoculation. However, the plants of Zalinge infected with PVYN remained symptomless, which suggested that hypersensitivity was specific to PVYO. The fast development of lethal necrosis following infection with PVYO may contribute to the low incidence of PVY in Zalinge in the field in Sudan. 相似文献
10.
R. W. Gibson 《Potato Research》1991,34(2):205-210
Summary Field-grown potato plants of cvs King Edward, Record, Maris Piper and Désirée were inoculated on seven different dates during
the growing season of 1987 and 1988 with either potato virus YO (PVYO) or PVYN, using three viruliferous peach-potato aphids (Myzus persicae) per plant. In each cultivar, the proportion of progeny tubers infected with PVYO or PVYN was high in plants inoculated during the four weeks following emergence, the proportion declining to zero or close to zero
in the subsequent 4–6 wks. 相似文献
11.
Foliar treatment of potato (Solanum tuberosum L.) with metribuzin at 0.57–1.0 lb/A caused a necrotic reaction in leaflets of plants infected with potato virus Y (PVY), but not in plants infected with potato virus X (PVX) or potato leafroll virus. Necrosis symptoms resulting from metribuzin-PVY interaction were distinct from symptoms of either PVY infection or of metribuzin injury. This reaction was similar in the Russet Burbank, Lemhi Russet, and Pioneer cultivars. Russet Burbank infected with PVY and PVX, alone or in combination, was treated with metribuzin to study herbicidevirus interaction effects on yield. Secondary PVY infection alone caused a 57% yield reduction, and when combined with PVX caused a 71% yield reduction. Although leaflet necrosis was induced by the metribuzin-PVY combination, there was no significant yield interaction. Results suggest that post-emergence application of metribuzin can be used as an aid for detecting and removing potato virus Y infected plants from potato seed fields 相似文献
12.
13.
J. F. J. M. van den Heuvel J. A. A. M. Dirven G. J. van Os D. Peters 《Potato Research》1993,36(2):89-96
Summary The acquisition of potato leafroll virus (PLRV) byMyzus persicae nymphs from the top leaves of potato plants was studied throughout a growing season in relation to the antigen titre in those
leaves and the feeding behaviour of the aphid. Secondarily-infected plants of eight potato genotypes with different levels
of field resistance served as virus sources. Early in the growing season, plants were efficient sources for virus acquisition.
The amount of viral antigen detected inM. persicae nymphs fed on the top leaves was strongly correlated with the titres of viral antigen in these leaves. Virus acquisition
from the top leaves of older potato plants was markedly impaired and could not be correlated with their virus titre. With
increasing age of the potato plants and the development of virus symptoms, the virus titre in the leaves declined and the
initial weak correlation between the virus titre and field resistance ratings disappeared. Thus, screening secondarily-infected
potato plants for field resistance to PLRV based on the concentration of viral antigen in leaves or in aphids fed on them
should be avoided later in the growing season. The feeding rate ofM. persicae, measured by the number of honeydew droplets excreted, did not account for the reduced uptake of virus from older plants
since it was not influenced by the age of the plant. Throughout the growing season, the feeding rate ofM. persicae nymphs on PLRV-infected plants was higher on genotypes with low levels of field resistance to PLRV than on genotypes with
high ones. 相似文献
14.
N. Ioannou 《Potato Research》1989,32(3):331-339
Summary Field experiments during 1984–6 tested the effects of planting date on the development of aphid infestations and the spread
of potato leaf roll virus (PLRV) in rogued or unrogued plots of potatoes, cv. Spunta. Plantings were made each month from
December to April, the customary time for planting being February. Aphid infestation in early-planted plots was severe throughout
the growing season; plots planted in February were also severely infested early in the growing season but the populations
later gradually declined to undetectable levels. Nevertheless, the incidence of PLRV in the latter plots was as high as in
those planted in December-January. Late-planted crops escaped aphid infestation and PLRV infection, either in part (March
planting) or completely (April planting). Such crops, however, were uneconomical due to poor yields and heavy losses from
potato tuber moth infestation. Roguing significantly reduced the spread of PLRV in all years but its interaction with planting
date was insignificant. 相似文献
15.
Summary Harrington et al. (1986) assessed the relative efficiency with which different aphid species transmitted potato virus Y (PVY),
by trapping flying aphids on a net downwind of a plot of infected potatoes and transferring the aphids to tobacco seedlings.
This paper reports the extension of that work over further seasons and identifies three more vector species,Aphis sambuci, Myzus cerasi andDysaphis sp. A method for determining the proportion of those aphids caught on the net that had landed and probed in the crop is suggested.
The use of such information to improve a model of virus spread is discussed. 相似文献
16.
H. L. Weidemann 《Potato Research》1988,31(1):85-94
Summary The tobacco veinal necrosis strain of potato virus Y (PVYN) first became epidemic in several European countries in the 1950s. To prevent PVYN-infections, account must be taken of virus sources both within and without potato fields; for forecasting, the aphid vector
species, their vector efficiency, and their flight activity must all be known. Well-timed haulm destruction needs knowledges
of PVYN-translocation in potato plants and of the development of mature plant resistance. For successful virus control, also reliable
methods for virus detection are needed, and for this ELISA has been well established for many years in seed potato certification
schemes. A combined treatment of mineral oil and pyrethroids reduces aphid populations and the spread of stylet-borne viruses
in the fields. In breeding for resistance, the major gene Ry induces complete protection against infections of all known PVY-strains. 相似文献
17.
R. G. Novy A. Nasruddin D. W. Ragsdale E. B. Radcliffe 《American Journal of Potato Research》2002,79(1):9-18
Increasing prevalence of potato leafroll virus (PLRV) and potato virus Y (PVY) has been reported in seed and commercial potato production, resulting in the rejection of potatoes for certification and processing. Host plant resistance to PLRV and PVY and their primary vector, green peach aphid,Myzus persicae, could limit the spread of these viruses. Host plant resistance to PLRV, PVY, and green peach aphid has been identified in non-tuber-bearingSolanum etuberosum (PI 245939) and in its backcross 2 (BC2) progeny. Resistance to green peach aphid involved a reduction in fecundity and adult aphid size. In addition, one BC2 individual was identified as possessing a genetic factor that was detrimental to nymph survival. PVY resistance was identified in all five BC2 progenies evaluated in a field screening under intense virus pressure. PLRV resistance was identified in two of the five BC2 progeny. This resistance was stable in field and cage evaluations with large populations of viruliferous aphids. Based on the segregation of virus resistances in the BC2 , PVY and PLRV resistances appear to result from the action of independent genetic mechanisms that reduce the levels of primary and secondary virus infection. Two BC2 individuals, Etb 6-21-3 and Etb 6-21-5 were identified as having multiple resistances to PLRV, PVY, and green peach aphid derived fromS. etuberosum. This germplasm could prove useful to potato breeders in the development of virus-resistant cultivars. 相似文献
18.
19.
J. P. T. Valkonen S. A. Slack R. L. Plaisted 《American Journal of Potato Research》1994,71(8):507-516
Resistance to the potato viruses X (PVX), Y (PVY) and A (PVA) was examined in the potato cv Allegany released by Cornell University in 1990. Standard potato cultivars from North America and Europe were included for characterization of the resistance response. Allegany was extremely resistant to a strain group 3 isolate of PVX and reacted with hypersensitivity to an ordinary strain isolate of PVY (PVYo). However, Allegany was susceptible to an isolate of PVY causing necrosis in tobacco (PVYN), and to an isolate of PVA. No symptoms appeared following infection with PVYN and PVA. Identification of existing virus strain groups in a geographic area is an important aspect of predicting cultivar response to inoculation in the field. 相似文献
20.
The concentration of potato virus Y (PVY) was determined, using ELISA values (A405 nm), in twenty-six potato cultivars belonging to five resistance groups, grown in the field and in the greenhouse. On the basis of virus concentration, potato cultivars of group A, B, and C did not differ significantly and constitute the most susceptible group; those of group D and E differ significantly with each other and with group A, B, C, and constitute moderate and highly resistant groups, respectively. In the second year of infection, virus concentration was higher in each group, irrespective of resistance level. Thus, the infected plants of resistant groups, in a second year of growth, could be as rich sources of virus to aphids as plants from susceptible groups. 相似文献