Susceptibility and Tolerance of New French Prunus domestica Cultivars to European Stone Fruit Yellows Phytoplasmas

Five new cultivars of French prune (Prune d'Ente) and 11 cultivars or new clones of greengage (Reine Claude) were bud-inoculated with European stone fruit yellows (ESFY) phytoplasmas and evaluated for their host response in the nursery over a period of 6 years. The ESFY infection was confirmed by specific polymerase chain reaction (PCR) detection and 4',6-diamidino-2-phenylindole (DAPI) staining in all Prunus domestica cultivars tested which were, thus, all susceptible to ESFY phytoplasmas. The new Prune d'Ente cultivars were more sensitive as they generally developed ESFY symptoms and showed a mortality of 19%. The fruit weight was significantly reduced. No mortality was observed with Reine Claude genotypes and only two cultivars exhibited weak ESFY symptoms. A new sensitive method was developed to measure the impact of ESFY phytoplasmas on the shoot growth. A significant growth reduction was found in all Prune d'Ente cultivars but only in four out of 11 Reine Claude genotypes. Therefore, the latter were found to be tolerant of ESFY infection.     

Differences in Strain Virulence of the European Stone Fruit Yellows Phytoplasma and Susceptibility of Stone Fruit Trees on Various Rootstocks to this Pathogen

Twenty strains of the European stone fruit yellows (ESFY) phytoplasma showed great differences in virulence when examined by graft inoculation of trees on peach, peach hybrid GF 677 and P. 'Marianna' GF 8/1 rootstocks. The most virulent strains killed all trees on peach rootstocks whereas the mild strains did not cause mortality but induced only mild foliar symptoms and slightly reduced vigour. Virulence often depended on the pathogen–scion combination and was in several cases most severe when the scion consisted of the original host of the pathogen. To examine resistance in stone fruits, trees on a total of 23 rootstocks were inoculated with the ESFY strains. Trees on the Prunus domestica stocks Ackermann's, Brompton and P 1275 and on Prunus cerasifera stock Myrabi were little affected. Slightly more damage occurred in trees on rootstocks GF 677, GF 8–1, and the P. insititia stocks St Julien A and St Julien GF 655/2. Ishtara, P. cerasifera stock Myrobalan, and peach rootstocks Higama and GF 305 were shown to be moderately susceptible and a high susceptibility was found in trees on peach rootstocks Montclar, peach seedling, Rutgers Red Leaf, and Rubira, on apricot seedlings and St Julien 2. Of flowering cherry trees on various rootstocks, the least susceptible were those on Gisela 3 and F 12/1 whereas Gisela 1, Weihroot 158 and Gisela 5 were more affected. Phytoplasmas were detected by either DAPI (4'-6-diamidino-2-phenylindole) staining or polymerase chain reaction in all rootstocks and scions tested. However, detection frequency and phytoplasma concentrations were usually lower in the more tolerant hosts than in susceptible genotypes.     

Occurrence of European Stone Fruit Yellows Phytoplasma (ESFYP) Infection in Peach Orchards in Northern-Central Italy

During field surveys in 1999 and 2000 of peach orchards in Northern-Central Italy, plants of different cultivars were observed with symptoms of early leaf reddening, abnormal thickening of midribs and primary veins, autumnal growth of latent buds which produce tiny chlorotic leaves and sometimes flowers, and early phylloptosis; such symptoms, rarely seen previously on peach, are associated with European stone fruit yellows phytoplasma (ESFYP). In the orchards inspected, 1–4% of trees were affected and most were grafted on cv. G.F. 677. In most of the symptomatic samples (130 of 157 tested), only ESFYP was detected using different diagnostic methods [4',6'-diamidino-2-phenilindole, 2HCl (DAPI), polymerase chain reaction (PCR) with ribosomal and non-ribosomal primer pairs, PCR-enzyme-linked immunosorbent assay, nested-PCR]. The immunoenzymatic detection of PCR products with a pathogen-specific probe ensured fast, sensitive and specific detection of ESFYP. This is the first survey to assess the occurrence of phytoplasmas in peach orchards in Northern-Central Italy.     

European Stone Fruit Yellows: A Mark,Release and Recapture Experiment Tracking the Dispersal of its Vector Cacopsylla pruni (Hemiptera: Psyllidae) in a Model Apricot Orchard and Epidemiological Studies in Lower Austria

During the last 15 years, European stone fruit yellows (ESFY) has become a major concern in Austrian fruit production. Therefore, presence and temporal dynamics of its vector Cacopsylla pruni were investigated using a beating tray method and yellow sticky traps on Prunus armeniaca, Prunus domestica, Prunus spinosa and P. cerasifera nigra. Infection rates of C. pruni and Prunus spp. trees were assessed by direct, nested and real‐time PCR. Movement of remigrants in a model apricot orchard was tracked by aid of a mark, release and recapture study. Insects were marked by fluorescent dyes. Movement of the marked insects and presence of naturally occurring insects were monitored by yellow sticky traps. In 2011, remigration of C. pruni to Prunus spp. started in calendar week 10 (8th of March) and in 2012, in calendar week 12 (18th of March). Remigrants were observed until calendar week 20 (middle of May), significant numbers of the springtime generation adults were present until week 26 (end of June). The phytoplasma was ascertained in 0–11.5% of the remigrants and in 0–3.44% of the springtime generation insects. About 9.8–63.3% of the apricot samples, 20–40% of the plum samples and single blackthorn samples were infected. The mark, release and recapture study proved a fast and frequent tree‐to‐tree movement of remigrated C. pruni adults. Insects easily covered distances from row to row or even farther (ca. 13 m) within 24 h after release and were present in a large part of the model orchard after 8 days (up to 24 m from release point).