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1.
Plum pox potyvirus (PPV) was introduced into Puglia (IT) a few years ago with infected propagative material coming from nurseries outside the region. Infections were detected in commercial plum and apricot orchards, but not in local nurseries. Extensive surveys were carried out in young apricot, plum and peach orchards to assess the distribution, incidence and spread of PPV infections, with a view to possibly enforcing an eradication programme. Surveys were based on visual inspections of about 300 commercial orchards and nurseries (covering an area of more than 550 ha) in the whole of Puglia, by ELISA and IBM tests, and by biological testing on GF305 of field samples. A total of 23,000 plants were individually checked by ELISA and IEM. The eradication involved 13 plum (35 ha) and 2 apricot (5 ha) orchards showing different levels of PPV infection. Six of the plum plantings showed infection exceeding 30% and were completely uprooted; in the remaining orchards, infection did not exceed 10% and uprooting was limited to infected trees. PPV was never detected in peach. The high incidence of PPV in some plum orchards was due to the heavy initial contamination of propagating material. Secondary virus spread was monitored in apricot orchards and found to occur at a low rate. 相似文献
2.
R. GABOVA 《EPPO Bulletin》1994,24(3):755-759
In spring and summer 1989, it was established that plum pox potyvirus (PPV) was present in certain peach cultivars in Bulgaria. At the same time, we started to investigate the distribution of PPV in naturally infected 4–5 year-old peach and nectarine cultivars and hybrids in order to optimize PPV detection. Over 160 peach and nectarine cultivars and hybrids were evaluated. In about 40% of the genotypes, typical plum pox symptoms were observed. The latter were estimated and divided into groups depending on their susceptibility to PPV. Observations were made on the population density of seven aphid species established in the peach orchards. Five proved to be vectors of the virus. Myzus persicae was the vector that played the main role in spreading the virus on peach. 相似文献
3.
Viruses and viroids of stone fruits in Syria 总被引:1,自引:0,他引:1
F. Ismaeil A. Myrta N. Abou Ghanem-Sabanadzovic S. Al Chaabi V. Savino 《EPPO Bulletin》2002,32(3):485-488
Field surveys were carried out in the main stone fruit-growing areas of Syria to evaluate the sanitary status of mother blocks, varietal collections and commercial orchards. The presence of virus and virus-like diseases was checked by enzyme-linked immunosorbent assay (ELISA), sap transmission to herbaceous hosts, testing on the woody indicators Prunus persica cv. GF 305 and Prunus serrulata cv. Kwanzan and dot-blot hybridization tests. A total of 1337 samples was tested by ELISA (444 apricot, 283 peach, 246 cherry, 222 almond and 142 plum). The overall mean infection rate was 13%, and the percentage infection level of single species was: peach 24%, cherry 16%, almond 13.5%, apricot 6%, plum 5%. The following viruses and viroids were detected: PNRSV, PDV, ACLSV, PPV, ApMV, PLMVd and HSVd 1 . 相似文献
4.
A. Bouani M. Al Rwahnih N. Abou Ghanem-Sabanadzovic I. Alami M. Zemzami A. Myrta V. Savino 《EPPO Bulletin》2004,34(3):399-402
Field surveys were carried out in the main stone-fruit growing areas of Morocco to evaluate the sanitary status of commercial orchards, varietal collections and nurseries. The presence of virus and virus-like diseases was checked by ELISA, sap transmission to herbaceous hosts, testing on woody indicators and molecular hybridization (dot-blot and tissue-printing). 1211 samples (382 almond, 339 peach, 291 plum, 150 apricot and 49 cherry) were tested by ELISA for the presence of Prunus necrotic ring spot virus (PNRSV), Prune dwarf virus (PDV), Apple chlorotic leaf spot virus (ACLSV), Apple mosaic virus (ApMV) and Plum pox virus (PPV). The overall average of virus infection rate was 16.4%, whereas that of single species was: 22.6% for almond, 17.8% for plum, 15% for peach, 10.2% for cherry, and 2.7% for apricot. The following viruses were detected: PNRSV, PDV, ACLSV and ApMV. 565 samples were tested by dot-blot and tissue-printing hybridization for the presence of Peach latent mosaic viroid (PLMVd) and Hop stunt viroid (HSVd). 48 samples were infected, 41 by PLMVd and 7 by HSVd. In addition, nested-PCR tests identified Plum bark necrosis and stem-pitting associated virus (PBNSPaV) in a few almond trees affected by stem pitting. 相似文献
5.
Epidemiology of sharka disease in Spain 总被引:1,自引:0,他引:1
M. Cambra N. Capote M. A. Cambra G. Llácer P. Botella A. López-Quílez 《EPPO Bulletin》2006,36(2):271-275
PPV was first detected in Spain in 1984 in Japanese plum ( Prunus salicina Lindl) cv. Red Beaut and spread very quickly to other Japanese and European plums and apricot cultivars but left peach cultivars unaffected. In the years following the detection of PPV, the predominant aphid species visiting Prunus orchards in Mediterranean areas were Aphis gossypii followed by Aphis spiraecola , the latter being the main aphid species found at present. Both species are considered to be the main vectors of PPV in Spanish early Prunus growing areas. Spatial analysis of the spread of PPV-D in Japanese plum and apricot trees confirmed the lack of significant association between immediately adjacent trees. The observed spatial pattern of sharka suggests a lack of movement of PPV-viruliferous aphid vectors to immediately adjacent trees and indicates their preferential movement to trees several tree spaces away. PPV-D is the only type currently present in Spain, with the exception of a PPV-M outbreak that was detected in and successfully eradicated from Aragón in 2002. The short-distance spread of PPV-M infection occurred as far as 12 m along the rows of peach trees. However, PPV-D has not been observed to spread through peach cultivars, despite being grown in the vicinity of heavily infected plots of apricot or Japanese plum trees. 相似文献
6.
Recently, plum pox potyvirus (PPV) has been found in Basilicata, southern Italy, on plum, apricot and peach. In 1992-09, we started a large-scale survey to verify the effectiveness of diagnostic methods used during seasons when it is difficult to reveal any presence of the virus. The assays were carried out by dot-blot hybridization on stone-fruit cultivars normally planted in this area. The virus was found, by dot-blot hybridization, to be present in seven cultivars of peach, four of apricot and one of plum. All plants were 8–10 years old and, except for two apricot cultivars, were not displaying any apparent symptoms in spring 1992. Five peach cultivars, intended for use as primary sources of propagation material, were then selected for further study, and assayed in 1992–11 by ELISA and RT-PCR. ELISA tests on these selected peach cultivars were consistently negative, while PCR tests were consistently positive. However ELISA tests gave positive results when repeated in 1993–05. These results not only suggest that primary propagation material should be tested by techniques more sensitive than ELISA, but also question the usefulness of carrying out tests during any phenological phases of the plant. 相似文献
7.
R. A. Mumford 《EPPO Bulletin》2006,36(2):315-318
Plum pox virus (PPV) was first identified in the United Kingdom in 1965. Despite a rigorous eradication policy, the disease spread quickly and established itself in all the main plum-growing areas in England. In 1975, the policy was changed from a blanket eradication campaign to one of containment; retaining statutory control of PPV on propagation material but allowing the industry to control the disease in orchards. As part of the current containment campaign, annual surveys are carried out on propagation material. These surveys show that the incidence of PPV in this material is very low and that only the D-strain is present. The precise situation regarding PPV incidence in commercial orchards is unknown. Given the low incidence in propagation material, it is likely that PPV is uncommon in actively managed orchards. However, some infected orchards probably do still exist, especially older, unmanaged or abandoned ones. Overall, the history of PPV control in the UK is one of unsuccessful eradication but successful containment. The UK experience demonstrates that given the right combination of strain and host, alongside a regular testing regime, it is possible to control PPV through the establishment of a regulated certification scheme and the supply of virus-free planting material. 相似文献
8.
An Italian isolate of plum pox potyvirus (PPV) from apricot, Ispave 17, was used as antigen for production of monoclonal antibodies. Six clones secreting specific antibodies to PPV were obtained. All these monoclonal antibodies were used to test a collection of different Italian PPV isolates, collected from plum, apricot and peach orchards, and other European isolates (including PPV-D and PPV-M serotypes), using DAS-ELISA, SDS-PAGE, western blot and GIEM. In western blot analysis, the PPV-M and PPV-D coat protein, detected directly from crude peach GF305 extracts, showed different electrophoretic mobility, the coat protein of PPV-M being slightly larger than that of PPV-D. ELISA tests, performed with fixed dilutions of antibodies and limiting dilutions of clarified samples, showed with some monoclonal antibodies a marked difference between PPV-M and PPV-D strains, at ratios greater than 1:40 (w/v). Also in GIEM some monoclonal antibodies gave a good labelling reaction only with PPV-D serotype. With the help of this differentiation, it was found that all Italian isolates tested were of the D serotype and none of the severe M strain of PPV, which has not been reported in Italy. 相似文献
9.
Surveys were carried out in the main stone-fruit growing areas of Albania to assess the phytosanitary status of Prunus in conimercial orchards and varietal collections. The presence of virus and virus-like diseases and their identification was ascertained through field observations, sap transmission to herbaceous hosts, graft transmission to woody indicators, ELISA and IEM tests. The mean infection level was 42%. In particular, infections in apricot and almond were 12 and 16%, respectively, i.e. lower than in plum and cherry (47 and 56%, respectively). The following viruses were identified: plum pox potyvirus (PPV). apple chlorotic leaf spot trichovirus (ACLSV). prunus necrotic ringspot (PNRSV) and prune dwarf (PDV) ilarviruses. PPV infection was very severe in plum, and limited in apricot and peach. Apple mosaic ilarvirus (ApMV), and six nepoviruses tested for (SLRV, TBRV, RRV, CLRV, ArMV and ToRSV) were not encountered in Primus. 相似文献
10.
Field surveys were carried out in the main stonefruit-growing areas of Jordan to assess the sanitary status of varietal collections, mother plant blocks and commercial orchards. The presence of virus and virus-like diseases was determined by ELISA, sap transmission to herbaceous hosts, graft transmission to Prunus persica cv. GF 305 and P. serrulata cv. Kwanzan, and molecular hybridization tests. A total of 1312 samples was tested by ELISA (531 peach, 361 plum, 218 apricot, 135 almond and 67 cherry trees). The overall mean level of infection was about 14%, indicating an acceptable sanitary status as a whole, considering that no sanitary selection has ever been carried out in Jordan. The infection level of different species was: peach (18%), cherry (15%), almond (14%), apricot (11%) and plum (10%). The following viruses and viroids were identified: Plum pox potyvirus (PPV), Prunus necrotic ringspot ilarvirus (PNRSV), Prune dwarf ilarvirus (PDV), Apple mosaic ilarvirus (ApMV), Apple chlorotic leaf spot trichovirus (ACLSV), Hop stunt viroid (HSVd) and Peach latent mosaic viroid (PLMVd). Most of these agents (ApMV, ACLSV, PLMVd and HSVd) are reported for the first time from Jordan. 相似文献
11.
The susceptibility of 115 apricot cultivars to plum pox potyvirus (PPV) has been examined, since 1981, in the experimental plots of the Pomology Institute at Naoussa and Skydra, Makedonia (GR). Inoculation was assured by aphids, transmitting strain PPV-M (Marcus) from naturally infected trees in adjacent peach orchards. For each cultivar, four to six trees were examined for at least 4 years. Observations on symptoms were made on leaves early in May and on fruits at maturity. Most cultivars expressed severe disease symptoms. Those without symptoms were inoculated by grafting onto heavily infected old apricot trees. The grafted shoots were tested for PPV in the following year by ELISA and on the woody indicator GF305. The cultivars which were rated as resistant after artificial inoculation and ELISA came from North America: Early Orange, Stella, NJA2, Sunglo, Veecot, Harlayne, Goldrich and Henderson. Most of these have been crossed with quality cultivars for the creation of resistant hybrids. The PPV resistance of large numbers of these apricot hybrids is now under investigation. 相似文献
12.
An Integrated Pest Management (IPM) programme on vineyards and orchards has been applied since 1974 in Emilia-Romagna (northern Italy). The Entomology Institute of Piacenza has the scientific responsibility for peach, plum and apricot orchards. Data is collected in the field by a team of technicians with province-level co-ordination. Directions for control are given directly to farmers or through answering machines, Videotel or weekly bulletins. Data from orchards, concerning the pest and disease situaton, are processed by two Hewlett Packard 9000 computers: an HP 9845B and an HP Vectra RS/20. With the latter, data exchange is possible with MS DOS operating systems, allowing data input from a regional computer network now at the development stage. 相似文献
13.
J. POL
K 《EPPO Bulletin》1994,24(3):781-782
Breeding for plum cultivars resistant to plum pox potyvirus (PPV) is in progress in the Czech Republic, while projects for apricot and peach have started in 1991. The aim is to create an assortment of apricot and peach cultivars for northern regions of Europe in which PPV is widely distributed. 相似文献
14.
Since first being recorded in 1917–18 in Bulgaria, sharka (plum pox) disease has progressively spread via infected plant material to be present in most Prunus -growing nations today. The disease has serious agronomic and political consequences because it causes enormous economic losses. In countries in which sharka is endemic, a high percentage of apricot and European plum production is unmarketable because of the disease. To these figures should be added the costs of sanitary controls, surveys and eradication programmes against sharka virus. Estimated costs associated with sharka management worldwide in the last 30 years exceed 10 000 million euros. However, improvements in knowledge of the disease and in techniques used to identify the disease are significantly aiding disease control and management. 相似文献
15.
Gülşen Sertkaya Marta Martini Paolo Ermacora Rita Musetti Ruggero Osler 《Phytoparasitica》2005,33(4):380-390
During the late summer-early autumn of 2002, surveys were carried out in Turkey to determine the presence of phytoplasma diseases
in fruit trees. Phytoplasmas were detected and characterized by PCR-RFLP analysis and TEM technique in stone fruit and pear
trees in the eastern Mediterranean region of the country. Six out of 24 samples, including almond, apricot, peach, pear and
plum, gave positive results in PCR assays. RFLP analysis usingSspI andBsaAI enzymes of PCR products obtained with primer pair f01/r01 enabled identification of the phytoplasmas involved in the diseases.
Stone fruit trees, including a local apricot variety (‘Sakıt’) and a pear sample, were found to be infected with European
stone fruit yellows (ESFY, 16SrX-B) and pear decline (PD, 16SrX-C) phytoplasmas, respectively. This is the first report in
Turkey of PD phytoplasma infecting pear and of ESFY phytoplasma infecting almond, apricot, myrobalan plum and peach; ESFY
phytoplasma infecting Japanese plum was previously reported.
http://www.phytoparasitica.org posting July 21, 2005. 相似文献
16.
D. Thompson 《EPPO Bulletin》2006,36(2):302-304
In 2000, Plum pox virus (PPV) was discovered in Canada in the provinces of Ontario and Nova Scotia. Delimitation surveys were used to define quarantine areas. An eradication strategy was developed based on a threshold value for virus incidence which triggered removal of the entire orchard block. Each year the threshold value is being lowered until reaching a zero tolerance level. Growers are compensated financially for their losses. A two-tiered certification programme was designed to provide clean replacement trees. Initially, growers planted PPV-tested trees as an interim measure until fully virus-tested stock became available. It is hoped that this eradication programme will eliminate PPV from Canada by 2010. 相似文献
17.
Epidemiology of sharka disease in France 总被引:1,自引:0,他引:1
Plum pox virus was first detected in France in the 1960s. Both PPV-D and PPV-M strains are present but epidemics related to the PPV-M strain detected in the late 1980s are the most problematic. The two PPV strains have unequal distributions in peach and apricot orchards and different prevalences. More than 20 different aphid species have been identified as vectors of PPV but most of them do not colonize Prunus species. Thus, aphids involved in the spread of PPV in orchards are essentially visiting aphids. The main sources of inoculum for the vectors are leaves and fruits of infected stone-fruit trees. Spontaneous, wild and ornamental Prunus species such as Prunus dulcis , P. spinosa or P. pissardii are susceptible to PPV isolates found in France but their role as a reservoir in sharka epidemics is probably negligible. The disease spreads rapidly in orchards but the rate of progression may vary according to the identity of the PPV strain and the Prunus species. Analysis of spatial patterns of disease has shown that secondary spread by aphids frequently occurs over short distances in the orchards (aggregated patterns) but also that dissemination at longer distances (of several hundred metres) is a common event. 相似文献
18.
C. Varveri 《EPPO Bulletin》2006,36(2):276-278
Plum pox virus has been endemic in Greece since 1967 causing important losses in apricot and to a lesser extent in peach crops. A survey undertaken in 1992 in public and private mother-tree plantations to estimate its incidence revealed that the virus was absent in isolated areas far from commercial stone-fruit crops. Virus titers decrease significantly during the hot months in the infected trees but re-increase in October–November permitting reliable detection. It is virulent M-type isolates which are effectively transmitted by aphids that are mostly recovered. Aphis gossypii and Hyalopterus pruni were the most abundant virus vectors captured during the small scale monitoring undertaken in apricot orchards in 1999 and 2000. Virus spread was monitored in two apricot orchards from 1996 to 2000 and analysed. Initial infections followed a completely random spatial pattern, while loose clusters appeared in succeeding years, to finally reach a uniform distribution representing high infection levels. The nearby ecological conditions greatly affected the rate of disease development. 相似文献
19.
D. Bassi 《EPPO Bulletin》2006,36(2):327-329
Plum pox virus (PPV) resistance in apricot and peach in Italy has been researched in several Italian institutions, including the Institutes for Fruit Tree Culture and Plant Pathology in Rome, which are assessing resistance, and the Universities of Bari, Bologna and Milan, examining breeding techniques, both by cross-breeding and genetic transformation approaches. A reliable protocol for resistance assessment has been set up, in which biological indexing, ELISA and PCR techniques are used. No source of resistance has yet been found in peach. Hybridization with Prunus davidiana could be investigated given the promising results obtained within the INRA programme in France. Almost 6000 apricot seedlings from controlled crosses between resistant parents have been investigated in search of possible molecular markers, but no positive results have been obtained so far, probably due the fact that resistance to both D and M strains is sought. The transformation of cultivars has proven difficult in apricot where the regeneration step is particularly critical, while in peach a reliable regeneration protocol still remains to be set up. 相似文献
20.
Pierre Speich 《EPPO Bulletin》2006,36(2):307-308
Sharka disease caused by Plum pox virus (PPV) is present in several areas in France, and its total eradication from the territory is not considered feasible. Although sharka falls under mandatory control measures, the objective is, in the infected areas, to contain the disease in the orchards at sufficiently low levels so that the production remains economically viable. In parallel, official controls are carried out to guarantee that plants for planting, including seedlings, which are moved in trade are free from PPV. 相似文献