High viability of dormant Malus buds after 10 years of storage in liquid nitrogen vapour.

Three hundred and sixty two Malus accessions from the Canadian Clonal Genebank of Plant Gene Resources of Canada were cryopreserved as dormant buds at the USDA-ARS National Center for Genetic Resources Preservation in 1996. According to grafting data collected on 165 of these accessions in 1999, 80 percent of the accessions had at least 40 percent viability. A subsample of these accessions was processed for cryopreservation by either adjusting the moisture content of the budwood sections containing dormant buds to 32 or 37 percent moisture (fresh weight basis) or by not drying the budwood sections (46 percent moisture fresh weight basis) prior to cooling. Budwood sections were then slow-cooled at 1 degree C per hour to -3 degree C, held for 24 h at -30 degree C and then rapidly transferred to the vapour phase of liquid nitrogen. Cryopreserved buds from 13 accessions that were dried using the various techniques were warmed and grafted in both 1999 and 2006 to determine viability. Overall, bud viability was high at both storage times. At the 10 year time point, some accessions had higher bud growth when they were desiccated prior to slow-cooling when compared to those that were not.

First Record of Hop stunt viroid in Canada.

"Tissue-printing" hybridization (3) for Peach latent mosaic viroid (PLMVd) and Hop stunt viroid (HSVd) was used to assess the sanitary status of stone fruit accessions in the Canadian Clonal Genebank (CCG) located in Harrow (Ontario). The Prunus spp. accessions in the CCG are primarily of Canadian origin; other countries of origin include the United States, the United Kingdom, Hungary, the Czech Republic, the Former Soviet Union, Spain, New Zealand, and Italy. All Prunus spp. accessions were donated to the Genebank from Canadian or American sources. Leaves were harvested in November 2003 from 336 trees (116 peach and nectarine, 84 sweet and sour cherries, 54 plum, 44 apricot, and 38 of other cherries) representing 267 accessions. No visible symptoms were observed during the collection of the accessions to be evaluated. The petioles were excised at the base and imprinted on a nylon membrane in triplicate for each sample. The membranes were air dried and submitted by mail to the laboratory. The digoxigenin-labeled riboprobes used for hybridization were obtained by T7 RNA polymerase transcription of the linearized plasmids pHSVd (1) and pPLMVd (2). Thirty stone fruit samples were infected by viroids. PLMVd occurred in 28 peach and nectarine samples, representing the following cultivars and selections: Harblaze Hardired, Harko, Earlyvee, Harbelle, Harken, Harland, Harrow Beauty, Harrow Rubirose, HW264, Redhaven, Silver Gold, Suncling, V68101, Vanity, Veeglo, Velvet, Vesper, Villa Doria, and Vulcan. PLMVd-infected samples represented 24.1% of the tested peaches and nectarines. PLMVd finding confirms previous reports of the viroid in Canada from British Columbia and Ontario. Two CCG apricot accessions, 'Bulida' and 'Velkopavlovicka', were found to be infected with only HSVd, representing 4.5% of tested apricot samples. These samples, determined to be positive by tissue-printing hybridization, were also positive by reverse transcription-polymerase chain reaction (RT-PCR) (1). In addition, nucleotide sequences of the PCR products were obtained. The 'Bulida' isolate showed 100% homology to a Spanish isolate, apr9, while the 'Velkopavlovicka' isolate showed 99% homology to an Italian isolate. Since HSVd has not been previously reported in Canada (4), to our knowledge, this report documents its first detection in the country. This report may prompt the inclusion of regular testing for HSVd in existing Prunus spp. virus testing programs in Canada. References: (1) N. Astruc et al. Eur. J. Plant Pathol. 102:837, 1996. (2) M. Badenes et al. Acta Hortic. 472:565, 2001. (3) V. Pallás et al. Page 135 in: Virus and Virus-Like Diseases of Stone Fruits, with Particular Reference to the Mediterranean Region. A. Myrta et al., eds. CIHEAM-IAMB, 2003. (4) R. Singh et al. Page 255 in: Viroids. A. Hadidi et al., eds. CSIRO Publishing, Australia, 2003.