Jordi Luque

Botryosphaeria corticola, sp. nov. on Quercus species, with notes and description of Botryosphaeria stevensii and its anamorph, Diplodia mutila

Botr yosphaeria stevensii frequently has been associated with dieback and canker diseases of oak, mainly in the western Mediterranean area but more rarely in other regions. The species concept of B. stevensii has been unclear, and it is possible that some collections were identified incorrectly. A collection of fungal strains isolated from diseased oak trees and initially identified as B. stevensii was characterized on the basis of morphology and ITS nucleotide sequences. Morphology was compared with the type specimens of Physalospora mutila (= B. stevensii) and its anamorph, Diplodia mutila. It was concluded that the isolates from oak differed from B. stevensii in having larger ascospores and conidia as well as different spore shapes and represented an as yet undescribed species, which is described here as B. corticola. Moreover, ITS sequence data separated B. corticola from all other known species of Botryosphaeria. Amended descriptions of B. stevensii and its anamorph are provided to differentiate B. stevensii from B. corticola and to clarify some of the earlier taxonomic uncertainties.

Phytotoxins Produced by Fungi Associated with Grapevine Trunk Diseases

Up to 60 species of fungi in the Botryosphaeriaceae family, genera Cadophora, Cryptovalsa, Cylindrocarpon, Diatrype, Diatrypella, Eutypa, Eutypella, Fomitiporella, Fomitiporia, Inocutis, Phaeoacremonium and Phaeomoniella have been isolated from decline-affected grapevines all around the World. The main grapevine trunk diseases of mature vines are Eutypa dieback, the esca complex and cankers caused by the Botryospheriaceae, while in young vines the main diseases are Petri and black foot diseases. To understand the mechanism of these decline-associated diseases and the symptoms associated with them, the toxins produced by the pathogens involved in these diseases were isolated and characterised chemically and biologically. So far the toxins of only a small number of these decline fungi have been studied. This paper presents an overview of the toxins produced by the most serious of these vine wood pathogens: Eutypa lata, Phaeomoniella chlamydospora, Phaeoacremonium aleophilum and some taxa in the Botryosphaeriaceae family, and examines how these toxins produce decline symptoms. The chemical structure of these metabolites and in some cases their vivotoxin nature are also discussed.

Cryptovalsa ampelina on Grapevines in N.E. Spain : Identification and Pathogenicity

Surveys conducted in diseased vineyards in Catalonia (N.E. Spain) showed that Cryptovalsa ampelina was very abundant on pruned canes, although it was isolated occasionally from necrotic wood of living plants. Identification of C. ampelina from the pruned canes was based on the morphology of the teleomorph. Its polysporous asci and pigmented allantoid ascospores distinguish it from Eutypa lata, the causal agent of eutypiose. However, cultures of C. ampelina are practically indistinguishable from cultures of other diatrypaceous species, therefore a PCR-based test was developed to identify cultures isolated from cankered wood. The designed species-specific primer pair (Camp- 1/Camp-2R) allowed for the unambiguous identification of C. ampelina in all tested cases involving cultures of diatrypaceous fungi. Additionally, the specificity of the primer pair to C. ampelina was confirmed by testing it on the host and on several other fungi known to occur on grapevine, namely species in the genera Botryosphaeria, Fomitiporia, Phaeoacremonium, Phaeomoniella and Phomopsis. The pathogenicity of C. ampelina on grapevine was confirmed through the observation of significant vascular lesions in artificial inoculations of grapevine plants, but the low frequencies of both mycelium reisolation and wound canker extension would suggest a low virulence for this fungus. Although C. ampelina does not appear to be a major pathogen of grapevine, its implication as a contributing factor to the decline of grapevines should deserve further investigations.

First Report of Lasiodiplodia theobromae Associated with Decline of Grapevine Rootstock Mother Plants in Spain

A field of Richter 110 rootstock mother plants in Valencia Province (eastern Spain) was surveyed during November 2006 to study the mycoflora of declining plants. Two canes with stunted leaves were collected from a plant with a reduced number of shoots. No cankers or vascular lesions were observed in the collected canes. Six wood chips (1 to 2 mm thick) were taken from one basal fragment (3 to 4 cm long) of each cane, surface sterilized in 70% ethanol for 1 min, and plated on malt extract agar supplemented with 0.5 g L-1 of streptomycin sulfate. Petri dishes were incubated for 7 days at 25°C. A fungus was consistently isolated from all samples that showed the following characteristics: colonies grown on potato dextrose agar (PDA) at 25°C developed a white, aerial mycelium that turned gray after 4 to 6 days and produced pycnidia after 1 month on sterile grapevine slivers of twigs placed on the PDA surface; conidia from culture were ellipsoidal, thick walled, initially hyaline, nonseptate, and measuring 20 to 25 (22.5) × 12 to 14 (13) μm; aged conidia were brown, 1-septate with longitudinal striations in the wall; and pseudoparaphyses variable in form and length were interspersed within the fertile tissue. The fungus was identified as Lasiodiplodia theobromae (Pat.) Griffon & Maubl. from the above characteristics (2). Identity was confirmed by analysis of the nucleotide sequences of the internal transcribed spacer (ITS) region from the rRNA repeat and part of the translation elongation factor 1-alpha (EF1-α) and the β-tubulin (B-tub) genes, as done elsewhere (1,3). BLAST searches at GenBank showed a high identity with reference sequences (ITS: 100%, EF1-α: 97%; B-tub: 99%). Representative sequences of the studied DNA regions were deposited at GenBank (Accession Nos.: ITS: EU254718; EF1-α: EU254719; and B-tub: EU254720). A pathogenicity test was conducted on 1-year-old grapevine plants cv. Macabeo grafted onto Richter 110 rootstocks maintained in a greenhouse. A superficial wound was made on the bark of 10 plants with a sterilized scalpel, ≈10 cm above the graft union. A mycelial plug obtained from the margin of an actively growing fungal colony (isolate JL664) was placed in the wound and the wound was wrapped with Parafilm. Ten additional control plants were inoculated with sterile PDA plugs. All control plants grew normally, and the inoculation wound healed 3 months after inoculation. Plants inoculated with L. theobromae showed no foliar symptoms in the same period, but developed cankers variable in size surrounding the inoculation sites. Vascular necroses measuring 8.4 ± 1.5 cm (mean ± standard error) developed in the inoculated plants that were significantly longer than the controls (0.3 ± 0.2 cm). The pathogen was reisolated from all inoculated plants and no fungus was reisolated from the controls. These results confirmed the pathogenicity of L. theobromae to grapevine and points to a possible involvement of L. theobromae in the aetiology of grapevine decline as previously reported (3,4). To our knowledge, this is the first report of L. theobromae isolated from grapevine in Spain. References: (1) J. Luque et al. Mycologia 97:1111, 2005. (2) E. Punithalingam. No. 519 in: Descriptions of Pathogenic Fungi and Bacteria. CMI, Kew, Surrey, UK, 1976. (3) J. R. Úrbez-Torres et al. Plant Dis. 90:1490, 2006. (4) J. M. van Niekerk et al. Phytopathol. Mediterr. 45(suppl.):S43, 2006.

First Report of Phaeoacremonium inflatipes, P. iranianum, and P. sicilianum Causing Petri Disease of Grapevine in Spain

In 2008, four isolates of Phaeoacremonium, morphologically and genetically different from known Phaeoacremonium spp. in Spain, were isolated from rootstocks of young grapevine (Vitis vinifera) plants showing Petri disease symptoms including low vigor, reduced foliage, and dark streaking of the xylem in Badajoz Province (western Spain; cv. Syrah on SO4 rootstock), Tarragona Province (eastern Spain; cv. Garnacha on 161 49 C rootstock), and Balearic Islands (eastern Spain; cv. Tempranillo on Rupestris de Lot rootstock). Single-conidial isolates were obtained and grown on potato dextrose agar (PDA) and malt extract agar (MEA) at 25°C for 2 to 3 weeks in the dark until colonies sporulated (3). Identification was based on morphological characteristics (1-3). Phaeoacremonium inflatipes W. Gams, Crous & M. J. Wingf. and P. iranianum L. Mostert, Gräf., W. Gams & Crous were detected in Badajoz Province and P. sicilianum Essakhi, Mugnai, Surico & Crous in Tarragona Province and Balearic Islands. Colonies of P. inflatipes were gray on PDA and gray-brown on MEA. Conidiophores were branched, 15 to 37 (mean 25) μm long. Conidia were hyaline, oblong-ellipsoidal or obovoid, 3 to 5.5 (mean 4) μm long, and 1.2 to 1.9 (mean 1.6) μm wide. Colonies of P. iranianum were brownish gray on PDA and pale brown on MEA. Conidiophores were unbranched and 18 to 47.5 (mean 29) μm long. Conidia were hyaline, oblong-ellipsoidal, 3 to 5 (mean 4) μm long, and 1 to 1.8 (mean 1.5) μm wide. Colonies of P. sicilianum were pale brown on PDA and brown to pale orange on MEA. Conidiophores were branched and 13 to 55 (mean 32.5) μm long. Conidia were hyaline, allantoid, 3 to 8.5 (mean 6) μm long, and 1.5 to 2 (mean 1.8) μm wide. Identity of isolates Pin-2, Pir-4, Psi-1, and Psi-2 was confirmed by sequencing a fragment of the beta-tubulin gene with primers T1 and Bt2b (P. inflatipes, isolate Pin-2: GenBank Accession No. FJ872407, 100% similarity to Accession No. AY579323; P. iranianum, isolate Pir-4: GenBank Accession No. FJ872406, 99% similarity to Accession No. EU128077; P. sicilianum isolates Psi-1 and Psi-2: GenBank Accession Nos. FJ872408 and No. FJ872409, 100% similarity to Accession No. EU863489). Pathogenicity tests were conducted using Pin-2, Pir-4, and Psi-1 isolates. One-year-old callused and rooted cuttings of 110 R rootstock cultivated in sterile peat were wounded at the uppermost internode with an 8-mm cork borer. An 8-mm mycelium plug from a 2-week-old culture was placed into the wound. Wounds were wrapped with Parafilm. Ten cuttings per fungal isolate were used. Ten control plants were inoculated with 8-mm noncolonized PDA plugs. Plants were maintained in a greenhouse at 25°C. Within 2 months, all Phaeoacremonium-inoculated cuttings exhibited shoots with poor growth, small leaves, short internodes, and black streaks in the xylem. The mean shoot weight per plant was 1.8 g in P. inflatipes-inoculated plants, 1.9 g in P. iranianum-inoculated plants, and 1.6 g in P. sicilianum-inoculated plants, all lower than the control treatment (6.8 g). Control plants did not show any symptoms. All fungal species were reisolated from wood of all inoculated cuttings, completing Kochs postulates. Their identity was confirmed with the methods described above. To our knowledge, this is the first report of P. inflatipes, P. iranianum, and P. sicilianum causing Petri disease in Spain. References: (1) P. W. Crous et al. Mycologia 88:786, 1996. (2) S. Essakhi et al. Persoonia 21:119, 2008. (3) L. Mostert et al. Stud. Mycol. 54:1, 2006.

First Report of Canker Disease Caused by Neofusicoccum australe on Eucalyptus and Pistachio in Spain

In 2005 and 2006, dieback and branch cankers were observed in 12-year-old Eucalyptus globulus Labill. plantations in Gijón (northern Spain) and a 20-year-old pistachio (Pistacia vera L.) plantation in Constantí (northeastern Spain). Isolations were made from symptomatic branches. Small pieces of necrotic tissues were surface sterilized for 1 min in 1.5% NaOCl and plated onto malt extract agar amended with 0.5 g L-1 streptomycin sulfate. Plates were incubated at 25°C in the dark and all growing colonies were transferred to potato dextrose agar (PDA). A Neofusicoccum sp. was consistently isolated from necrotic tissues of both host species. On PDA at 25°C, isolates developed a moderately dense mycelium, initially with a pale yellow pigment diffusing into the medium but becoming olivaceous gray after 5 to 6 days. Pycnidia were produced on sterile eucalyptus and pistachio twigs placed on the surface of water agar after 1 month. Conidia were hyaline, fusiform, aseptate, with granular contents. Conidia from eucalyptus isolates measured (22.5-) 25.4 (-28.1) × (5-) 6.2 (-7.5) μm, (n = 40) and (20.0-) 23.6 (-28.0) × (6.5-) 7.1 (-8.0) μm, (n = 40) from pistachio isolates. Isolates were identified as Neofusicoccum australe (Slippers, Crous & M.J. Wingf.) Crous, Slippers & A.J.L. Phillips (1,2). DNA sequences of the rDNA internal transcribed spacer region (ITS), part of the beta-tubulin (BT2), and part of the translation elongation factor 1-alpha (EF1-α) genes from isolates CBS 122027 (pistachio) and CBS 122026 and CBS 122025 (eucalyptus) were used to confirm the identifications through BLAST searches in GenBank. Representative sequences of all studied regions were deposited in GenBank (ITS: EU375516 and EU375517; BT2: EU375520; EF1-α: EU375518 and EU375519). Pathogenicity tests were conducted on 8-month-old eucalyptus seedlings and 2-year-old pistachio plants with the three N. australe strains mentioned above. A mycelial plug taken from the margin of an actively growing colony of each isolate was put in a shallow wound (0.4 cm2) made with a scalpel on the stem of each plant. Inoculation wounds were wrapped with Parafilm. Controls were inoculated with sterile PDA plugs. Ten replicates for each isolate and plant species were used, with an equal number of control plants. Plants were maintained in a greenhouse at 25°C. After 3 weeks, all eucalyptus seedlings showed leaf wilting, stem canker, and pycnidia formation around the inoculation site. No foliar symptoms were observed in pistachio plants after 3 months, but depressed cankers variable in size and pycnidia formation developed around the inoculation site. Vascular necroses that developed on the inoculated plants were 10.2 ± 1.2 cm long in eucalyptus and 6.4 ± 1.6 cm long in pistachio, significantly greater than their respective controls (P < 0.01). There were no significant differences in necrosis lengths among the three N. australe isolate inoculations, irrespective of the inoculated host. These results point to a high susceptibility of eucalyptus to N. australe. No symptoms were visible in the control seedlings and no fungus was isolated from them. The pathogen was reisolated from all inoculated plants. To our knowledge, this is the first report of N. australe causing canker disease on eucalyptus and pistachio trees in Spain. References: (1) P. Crous et al. Stud. Mycol. 55:235, 2006. (2) B. Slippers et al. Mycologia 96:1030, 2004.

Diaporthe diversity and pathogenicity revealed from a broad survey of grapevine diseases in europe

Species of Diaporthe are considered important plant pathogens, saprobes, and endophytes on a wide range of plant hosts. Several species are well-known on grapevines, either as agents of pre- or post-harvest infections, including Phomopsis cane and leaf spot, cane bleaching, swelling arm and trunk cankers. In this study we explore the occurrence, diversity and pathogenicity of Diaporthe spp. associated with Vitis vinifera in major grape production areas of Europe and Israel, focusing on nurseries and vineyards. Surveys were conducted in Croatia, Czech Republic, France, Hungary, Israel, Italy, Spain and the UK. A total of 175 Diaporthe strains were isolated from asymptomatic and symptomatic shoots, branches and trunks. A multi-locus phylogeny was established based on five genomic loci (ITS, tef1, cal, his3 and tub2), and the morphological characters of the isolates were determined. Preliminary pathogenicity tests were performed on green grapevine shoots with representative isolates. The most commonly isolated species were D. eres and D. ampelina. Four new Diaporthe species described here as D. bohemiae, D. celeris, D. hispaniae and D. hungariae were found associated with affected vines. Pathogenicity tests revealed D. baccae, D. celeris, D. hispaniae and D. hungariae as pathogens of grapevines. No symptoms were caused by D. bohemiae. This study represents the first report of D. ambigua and D. baccae on grapevines in Europe. The present study improves our understanding of the species associated with several disease symptoms on V. vinifera plants, and provides useful information for effective disease management.

Seasonal Susceptibility of Grapevine Pruning Wounds and Cane Colonization in Catalonia, Spain Following Artificial Infection with Diplodia seriata and Phaeomoniella chlamydospora

Diplodia seriata and Phaeomoniella chlamydospora are two fungal pathogens associated with grapevine trunk diseases worldwide. This study aimed to evaluate the period during which grapevine pruning wounds remain susceptible to fungal infection and to describe the colonization of canes artificially inoculated with these pathogens. In the first experiment, pruning wounds made in either fall or winter were separately inoculated with each pathogen at different times after pruning. Wound susceptibility to both pathogens decreased as the period between pruning and inoculation increased, from high percentages recorded in the first inoculation round (D. seriata, 97.5% and P. chlamydospora, 75%) down to approximately 10% 12 weeks after pruning. Pruning wounds remained more susceptible to D. seriata after a late pruning in winter whereas no overall seasonal changes in wound susceptibility were detected for P. chlamydospora. In the second experiment, canes were pruned by leaving two different lengths between the top node and the pruning wound before inoculations. Pathogens were recovered at different incubation periods and from different sites along the canes to estimate fungal cane colonization. A longer pruned internode made cane colonization by P. chlamydospora difficult, as indicated by fungal recoveries lower than 10% at the lowest recovery site, whereas D. seriata was less inhibited.